Catalina Matiz, MD

A potassium hydroxide preparation (KOH) from skin scrapings from the scalp lesions demonstrated no fungal elements. Further laboratory work up revealed a normal blood cell count, normal liver enzymes, an antinuclear antibody (ANA) titer of less than 1:80, a positive anti–Sjögren’s syndrome type B (SSB) antibody but negative anti–Sjögren’s syndrome type A (SSA) antibody and anti-U1RNP antibody. An electrocardiogram revealed no abnormalities. Liver function tests were normal. The complete blood count showed mild thrombocytopenia. Given the typical skin lesions and the positive SSB test and associated thrombocytopenia, the baby was diagnosed with neonatal lupus erythematosus.

Because of the diagnosis of neonatal lupus the mother was also tested and was found to have an elevated ANA of 1:640, positive SSB and antiphospholipid antibodies. The mother was healthy and her review of systems was negative for any collagen vascular disease–related symptoms.
 

Discussion

Neonatal lupus erythematosus (NLE) is a rare form of systemic lupus erythematosus (SLE) believed to be caused by transplacental transfer of anti-Ro (Sjögren’s syndrome antigen A, SSA), or, less commonly, anti-La (Sjögren’s syndrome antigen B, SSB) from mothers who are positive for these antibodies. Approximately 95% of NLE is associated with maternal anti-SSA; of these cases, 40% are also associated with maternal anti-SSB.¹ Only about 2% of children of mothers who have anti-SSA or anti-SSB develop NLE, a finding that has led some researchers to postulate that maternal factors, fetal genetic factors, and environmental factors determine which children of anti-SSA or SSB positive mothers develop NLE.

A recent review found no association between the development of NLE and fetal birth weight, prematurity, or age.³ Over half of mothers of children who develop NLE are asymptomatic at the time of diagnosis of the neonate,³ though many become symptomatic in following years. Of mothers who are symptomatic, SLE and undifferentiated autoimmune syndrome are the most common diagnoses, though NLE has been rarely reported in the offspring of mothers with Sjögren’s syndrome, rheumatoid arthritis, and psoriasis.^4,5

Fetal genetics are not an absolute determinant of development of NLE, as discordance in the development of NLE in twins has been reported. However, certain genetic relationships have been established. Fetal mutations in tumor necrosis factor–alpha appear to increase the likelihood of cutaneous manifestations. Mutations in transforming growth factor beta appear to increase the likelihood of cardiac manifestations, and experiments in cultured mouse cardiocytes have shown anti-SSB antibodies to impair macrophage phagocytosis of apoptotic cells in the developing fetal heart. These observations taken together suggest a fibroblast-mediated response to unphagocytosed cardiocyte debris may account for conduction abnormalities in neonates with NLE-induced heart block.⁶

Cutaneous disease in NLE is possible at birth, but more skin findings develop upon exposure to the sun. Nearly 80% of neonates affected by NLE develop cutaneous manifestations in the first few months of life. The head, neck, and extensor surfaces of the arms are most commonly affected, presumably because they are most likely to be exposed to the sun. Erythematous, annular, or discoid lesions are most common, and periorbital erythema with or without scale (“raccoon eyes”) should prompt consideration of NLE. However, annular, or discoid lesions are sometimes not present in NLE; telangiectasias, bullae, atrophic divots (“ice-pick scars”) or ulcerations may be seen instead. Lesions in the genital area have been described in fewer than 5% of patients with NLE.

The differential diagnosis of annular, scaly lesions in neonates includes annular erythema of infancy, tinea corporis, and seborrheic dermatitis. Annular erythema of infancy is a rare skin condition characterized by a cyclical eruption of erythematous annular lesions with minimal scaling which resolve spontaneously within a few weeks to months without leaving scaring or pigment changes. There is no treatment needed as the lesions self-resolve.⁷ Acute urticaria can sometimes appear similar to NLE but these are not scaly and also the lesions will disappear within 24-36 hours, compared with NLE lesions, which may take weeks to months to go away. Seborrheic dermatitis is a common skin condition seen in newborns with in the first few weeks of life and can present as scaly annular erythematous plaques on the face, scalp, torso, and the diaper area. Seborrheic dermatitis usually responds well to a combination of an antiyeast cream and a low-potency topical corticosteroid medication.

When NLE is suspected, diagnostic testing for lupus antibodies (anti-SSA, anti-SSB, and anti-U1RNP) in both maternal and neonatal serum should be undertaken. The presence of a characteristic rash plus maternal or neonatal antibodies is sufficient to make the diagnosis. If the rash is less characteristic, a biopsy showing an interface dermatitis can help solidify the diagnosis. Neonates with cutaneous manifestations of lupus may also have systemic disease. The most common and serious complication is heart block, whose pathophysiology is described above. Neonates with evidence of first-, second-, or third-degree heart block should be referred to a pediatric cardiologist for careful monitoring and management. Hepatic involvement has been reported, but is usually mild. Hematologic abnormalities have also been described that include anemia, neutropenia, and thrombocytopenia, which resolve by 9 months of age. Central nervous system involvement may rarely occur. The mainstay of treatment for the rash in NLE is diligent sun avoidance and sun protection. Topical corticosteroids may be used, but are not needed as the rash typically resolves by 9 months to 1 year without treatment. Mothers who have one child with NLE should be advised that they are more likely to have another with NLE – the risk is as high as 30%-40% in the second child. Hydroxychloroquine taken during subsequent pregnancies can reduce the incidence of cardiac complications,⁸ as can the so-called “triple therapy” of plasmapheresis, steroids, and IVIg.⁹

The cutaneous manifestations of NLE are usually self-limiting. However, they can serve as important clues that can prompt diagnosis of SLE in the mother, investigation of cardiac complications in the infant, and appropriate preventative care in future pregnancies.

Dr. Matiz is with the department of dermatology, Southern California Permanente Medical Group, San Diego. Mr. Kusari is with the department of dermatology, University of California, San Francisco.

References

1. Moretti D et al. Int J Dermatol. 2014;53(12):1508-12.

2. Buyon JP et al. Nature Clin Prac Rheum. 2009;5(3):139-48.

3. Li Y-Q et al. Int J Rheum Dis. 2015;18(7):761-7.

4. Rivera TL et al. Annals Rheum Dis. 2009;68(6):828-35.

5. Li L et al. Zhonghua er ke za zhi 2011;49(2):146-50.

6. Izmirly PM et al. Clin Rheumatol. 2011;30(12):1641-5.

7. Toledo-Alberola F and Betlloch-Mas I. Actas Dermosifiliogr. 2010 Jul;101(6):473-84.

8. Izmirly PM et al. Circulation. 2012;126(1):76-82.

9. Martinez-Sanchez N et al. Autoimmun Rev. 2015;14(5):423-8.

A potassium hydroxide preparation (KOH) from skin scrapings from the scalp lesions demonstrated no fungal elements. Further laboratory work up revealed a normal blood cell count, normal liver enzymes, an antinuclear antibody (ANA) titer of less than 1:80, a positive anti–Sjögren’s syndrome type B (SSB) antibody but negative anti–Sjögren’s syndrome type A (SSA) antibody and anti-U1RNP antibody. An electrocardiogram revealed no abnormalities. Liver function tests were normal. The complete blood count showed mild thrombocytopenia. Given the typical skin lesions and the positive SSB test and associated thrombocytopenia, the baby was diagnosed with neonatal lupus erythematosus.

Because of the diagnosis of neonatal lupus the mother was also tested and was found to have an elevated ANA of 1:640, positive SSB and antiphospholipid antibodies. The mother was healthy and her review of systems was negative for any collagen vascular disease–related symptoms.
 

Discussion

Neonatal lupus erythematosus (NLE) is a rare form of systemic lupus erythematosus (SLE) believed to be caused by transplacental transfer of anti-Ro (Sjögren’s syndrome antigen A, SSA), or, less commonly, anti-La (Sjögren’s syndrome antigen B, SSB) from mothers who are positive for these antibodies. Approximately 95% of NLE is associated with maternal anti-SSA; of these cases, 40% are also associated with maternal anti-SSB.¹ Only about 2% of children of mothers who have anti-SSA or anti-SSB develop NLE, a finding that has led some researchers to postulate that maternal factors, fetal genetic factors, and environmental factors determine which children of anti-SSA or SSB positive mothers develop NLE.

A recent review found no association between the development of NLE and fetal birth weight, prematurity, or age.³ Over half of mothers of children who develop NLE are asymptomatic at the time of diagnosis of the neonate,³ though many become symptomatic in following years. Of mothers who are symptomatic, SLE and undifferentiated autoimmune syndrome are the most common diagnoses, though NLE has been rarely reported in the offspring of mothers with Sjögren’s syndrome, rheumatoid arthritis, and psoriasis.^4,5

Fetal genetics are not an absolute determinant of development of NLE, as discordance in the development of NLE in twins has been reported. However, certain genetic relationships have been established. Fetal mutations in tumor necrosis factor–alpha appear to increase the likelihood of cutaneous manifestations. Mutations in transforming growth factor beta appear to increase the likelihood of cardiac manifestations, and experiments in cultured mouse cardiocytes have shown anti-SSB antibodies to impair macrophage phagocytosis of apoptotic cells in the developing fetal heart. These observations taken together suggest a fibroblast-mediated response to unphagocytosed cardiocyte debris may account for conduction abnormalities in neonates with NLE-induced heart block.⁶

Cutaneous disease in NLE is possible at birth, but more skin findings develop upon exposure to the sun. Nearly 80% of neonates affected by NLE develop cutaneous manifestations in the first few months of life. The head, neck, and extensor surfaces of the arms are most commonly affected, presumably because they are most likely to be exposed to the sun. Erythematous, annular, or discoid lesions are most common, and periorbital erythema with or without scale (“raccoon eyes”) should prompt consideration of NLE. However, annular, or discoid lesions are sometimes not present in NLE; telangiectasias, bullae, atrophic divots (“ice-pick scars”) or ulcerations may be seen instead. Lesions in the genital area have been described in fewer than 5% of patients with NLE.

The differential diagnosis of annular, scaly lesions in neonates includes annular erythema of infancy, tinea corporis, and seborrheic dermatitis. Annular erythema of infancy is a rare skin condition characterized by a cyclical eruption of erythematous annular lesions with minimal scaling which resolve spontaneously within a few weeks to months without leaving scaring or pigment changes. There is no treatment needed as the lesions self-resolve.⁷ Acute urticaria can sometimes appear similar to NLE but these are not scaly and also the lesions will disappear within 24-36 hours, compared with NLE lesions, which may take weeks to months to go away. Seborrheic dermatitis is a common skin condition seen in newborns with in the first few weeks of life and can present as scaly annular erythematous plaques on the face, scalp, torso, and the diaper area. Seborrheic dermatitis usually responds well to a combination of an antiyeast cream and a low-potency topical corticosteroid medication.

When NLE is suspected, diagnostic testing for lupus antibodies (anti-SSA, anti-SSB, and anti-U1RNP) in both maternal and neonatal serum should be undertaken. The presence of a characteristic rash plus maternal or neonatal antibodies is sufficient to make the diagnosis. If the rash is less characteristic, a biopsy showing an interface dermatitis can help solidify the diagnosis. Neonates with cutaneous manifestations of lupus may also have systemic disease. The most common and serious complication is heart block, whose pathophysiology is described above. Neonates with evidence of first-, second-, or third-degree heart block should be referred to a pediatric cardiologist for careful monitoring and management. Hepatic involvement has been reported, but is usually mild. Hematologic abnormalities have also been described that include anemia, neutropenia, and thrombocytopenia, which resolve by 9 months of age. Central nervous system involvement may rarely occur. The mainstay of treatment for the rash in NLE is diligent sun avoidance and sun protection. Topical corticosteroids may be used, but are not needed as the rash typically resolves by 9 months to 1 year without treatment. Mothers who have one child with NLE should be advised that they are more likely to have another with NLE – the risk is as high as 30%-40% in the second child. Hydroxychloroquine taken during subsequent pregnancies can reduce the incidence of cardiac complications,⁸ as can the so-called “triple therapy” of plasmapheresis, steroids, and IVIg.⁹

The cutaneous manifestations of NLE are usually self-limiting. However, they can serve as important clues that can prompt diagnosis of SLE in the mother, investigation of cardiac complications in the infant, and appropriate preventative care in future pregnancies.

Dr. Matiz is with the department of dermatology, Southern California Permanente Medical Group, San Diego. Mr. Kusari is with the department of dermatology, University of California, San Francisco.

References

1. Moretti D et al. Int J Dermatol. 2014;53(12):1508-12.

2. Buyon JP et al. Nature Clin Prac Rheum. 2009;5(3):139-48.

3. Li Y-Q et al. Int J Rheum Dis. 2015;18(7):761-7.

4. Rivera TL et al. Annals Rheum Dis. 2009;68(6):828-35.

5. Li L et al. Zhonghua er ke za zhi 2011;49(2):146-50.

6. Izmirly PM et al. Clin Rheumatol. 2011;30(12):1641-5.

7. Toledo-Alberola F and Betlloch-Mas I. Actas Dermosifiliogr. 2010 Jul;101(6):473-84.

8. Izmirly PM et al. Circulation. 2012;126(1):76-82.

9. Martinez-Sanchez N et al. Autoimmun Rev. 2015;14(5):423-8.

A potassium hydroxide preparation (KOH) from skin scrapings from the scalp lesions demonstrated no fungal elements. Further laboratory work up revealed a normal blood cell count, normal liver enzymes, an antinuclear antibody (ANA) titer of less than 1:80, a positive anti–Sjögren’s syndrome type B (SSB) antibody but negative anti–Sjögren’s syndrome type A (SSA) antibody and anti-U1RNP antibody. An electrocardiogram revealed no abnormalities. Liver function tests were normal. The complete blood count showed mild thrombocytopenia. Given the typical skin lesions and the positive SSB test and associated thrombocytopenia, the baby was diagnosed with neonatal lupus erythematosus.

Because of the diagnosis of neonatal lupus the mother was also tested and was found to have an elevated ANA of 1:640, positive SSB and antiphospholipid antibodies. The mother was healthy and her review of systems was negative for any collagen vascular disease–related symptoms.
 

Discussion

Neonatal lupus erythematosus (NLE) is a rare form of systemic lupus erythematosus (SLE) believed to be caused by transplacental transfer of anti-Ro (Sjögren’s syndrome antigen A, SSA), or, less commonly, anti-La (Sjögren’s syndrome antigen B, SSB) from mothers who are positive for these antibodies. Approximately 95% of NLE is associated with maternal anti-SSA; of these cases, 40% are also associated with maternal anti-SSB.¹ Only about 2% of children of mothers who have anti-SSA or anti-SSB develop NLE, a finding that has led some researchers to postulate that maternal factors, fetal genetic factors, and environmental factors determine which children of anti-SSA or SSB positive mothers develop NLE.

A recent review found no association between the development of NLE and fetal birth weight, prematurity, or age.³ Over half of mothers of children who develop NLE are asymptomatic at the time of diagnosis of the neonate,³ though many become symptomatic in following years. Of mothers who are symptomatic, SLE and undifferentiated autoimmune syndrome are the most common diagnoses, though NLE has been rarely reported in the offspring of mothers with Sjögren’s syndrome, rheumatoid arthritis, and psoriasis.^4,5

Fetal genetics are not an absolute determinant of development of NLE, as discordance in the development of NLE in twins has been reported. However, certain genetic relationships have been established. Fetal mutations in tumor necrosis factor–alpha appear to increase the likelihood of cutaneous manifestations. Mutations in transforming growth factor beta appear to increase the likelihood of cardiac manifestations, and experiments in cultured mouse cardiocytes have shown anti-SSB antibodies to impair macrophage phagocytosis of apoptotic cells in the developing fetal heart. These observations taken together suggest a fibroblast-mediated response to unphagocytosed cardiocyte debris may account for conduction abnormalities in neonates with NLE-induced heart block.⁶

Cutaneous disease in NLE is possible at birth, but more skin findings develop upon exposure to the sun. Nearly 80% of neonates affected by NLE develop cutaneous manifestations in the first few months of life. The head, neck, and extensor surfaces of the arms are most commonly affected, presumably because they are most likely to be exposed to the sun. Erythematous, annular, or discoid lesions are most common, and periorbital erythema with or without scale (“raccoon eyes”) should prompt consideration of NLE. However, annular, or discoid lesions are sometimes not present in NLE; telangiectasias, bullae, atrophic divots (“ice-pick scars”) or ulcerations may be seen instead. Lesions in the genital area have been described in fewer than 5% of patients with NLE.

The differential diagnosis of annular, scaly lesions in neonates includes annular erythema of infancy, tinea corporis, and seborrheic dermatitis. Annular erythema of infancy is a rare skin condition characterized by a cyclical eruption of erythematous annular lesions with minimal scaling which resolve spontaneously within a few weeks to months without leaving scaring or pigment changes. There is no treatment needed as the lesions self-resolve.⁷ Acute urticaria can sometimes appear similar to NLE but these are not scaly and also the lesions will disappear within 24-36 hours, compared with NLE lesions, which may take weeks to months to go away. Seborrheic dermatitis is a common skin condition seen in newborns with in the first few weeks of life and can present as scaly annular erythematous plaques on the face, scalp, torso, and the diaper area. Seborrheic dermatitis usually responds well to a combination of an antiyeast cream and a low-potency topical corticosteroid medication.

When NLE is suspected, diagnostic testing for lupus antibodies (anti-SSA, anti-SSB, and anti-U1RNP) in both maternal and neonatal serum should be undertaken. The presence of a characteristic rash plus maternal or neonatal antibodies is sufficient to make the diagnosis. If the rash is less characteristic, a biopsy showing an interface dermatitis can help solidify the diagnosis. Neonates with cutaneous manifestations of lupus may also have systemic disease. The most common and serious complication is heart block, whose pathophysiology is described above. Neonates with evidence of first-, second-, or third-degree heart block should be referred to a pediatric cardiologist for careful monitoring and management. Hepatic involvement has been reported, but is usually mild. Hematologic abnormalities have also been described that include anemia, neutropenia, and thrombocytopenia, which resolve by 9 months of age. Central nervous system involvement may rarely occur. The mainstay of treatment for the rash in NLE is diligent sun avoidance and sun protection. Topical corticosteroids may be used, but are not needed as the rash typically resolves by 9 months to 1 year without treatment. Mothers who have one child with NLE should be advised that they are more likely to have another with NLE – the risk is as high as 30%-40% in the second child. Hydroxychloroquine taken during subsequent pregnancies can reduce the incidence of cardiac complications,⁸ as can the so-called “triple therapy” of plasmapheresis, steroids, and IVIg.⁹

The cutaneous manifestations of NLE are usually self-limiting. However, they can serve as important clues that can prompt diagnosis of SLE in the mother, investigation of cardiac complications in the infant, and appropriate preventative care in future pregnancies.

Dr. Matiz is with the department of dermatology, Southern California Permanente Medical Group, San Diego. Mr. Kusari is with the department of dermatology, University of California, San Francisco.

References

1. Moretti D et al. Int J Dermatol. 2014;53(12):1508-12.

2. Buyon JP et al. Nature Clin Prac Rheum. 2009;5(3):139-48.

3. Li Y-Q et al. Int J Rheum Dis. 2015;18(7):761-7.

4. Rivera TL et al. Annals Rheum Dis. 2009;68(6):828-35.

5. Li L et al. Zhonghua er ke za zhi 2011;49(2):146-50.

6. Izmirly PM et al. Clin Rheumatol. 2011;30(12):1641-5.

7. Toledo-Alberola F and Betlloch-Mas I. Actas Dermosifiliogr. 2010 Jul;101(6):473-84.

8. Izmirly PM et al. Circulation. 2012;126(1):76-82.

9. Martinez-Sanchez N et al. Autoimmun Rev. 2015;14(5):423-8.

A punch biopsy from one of the lesions on the feet showed subtle basal vacuolar interface inflammation on the epidermis and rare apoptotic keratinocytes. There was an underlying dermal lymphocytic inflammatory infiltrate around the vascular plexus. Dermal mucin appeared slightly increased. The histologic findings are consistent with pernio. He had a negative direct immunofluorescence study.

Laboratory work-up showed an elevated antinuclear antibody (ANA) of 1:620; positive anticardiolipin IgM was at 15.2. A complete blood count showed no anemia or lymphopenia, he had normal complement C3 and C4 levels, normal urinalysis, negative cryoglobulins and cold agglutinins, and a normal protein electrophoresis.

Given the chronicity of his lesions, the lack of improvement with weather changes, the histopathologic findings of a vacuolar interface dermatitis and the positive ANA titer he was diagnosed with chilblain lupus.

Chilblain lupus erythematosus (CLE) is an uncommon form of chronic cutaneous lupus erythematosus that presents with tender pink to violaceous macules, papules, and/or nodules that sometimes can ulcerate and are present on the fingers, toes, and sometimes the nose and ears. The lesions are usually triggered by cold exposure.¹ These patients also have clinical and laboratory findings consistent with lupus erythematosus.

Even though more studies are needed to clarify the clinical and histopathologic features of chilblain lupus, compared with idiopathic pernio, some authors suggest several characteristics: CLE lesions tend to persist in summer months, as occurred in our patient, and histopathologic evaluation usually shows vacuolar and interface inflammation on the basal cell layer and may also have a positive lupus band on direct immunofluorescence.² About 20% of patient with CLE may later develop systemic lupus erythematosus.³

There is also a familial form of CLE which is usually inherited as an autosomal-dominant trait. Mutations in TREX1, SAMHD1, and STING have been described in these patients.⁴ Affected children present with skin lesions at a young age and those with TREX1 mutations are at a higher risk to develop systemic lupus erythematosus.

The differential diagnosis of chilblain lupus includes idiopathic pernio or pernio secondary to other conditions. Other conditions that are thought to be associated with pernio, besides lupus erythematosus, include infectious causes (hepatitis B, COVID-19 infection),⁵ autoimmune conditions, malignancy and hematologic disorders (paraproteinemia).⁶ In histopathology, pernio lesions present with dermal edema and superficial and deep lymphocytic infiltrate.

The pathogenesis of pernio is not fully understood but is thought be related to vasospasm with secondary poor perfusion and ischemia and type I interferon (INF1) immune response. A recent review of the published studies trying to explain the causality between COVID 19 and pernio-like lesions, from January 2020 to December 2020, speculate several possible mechanisms: an increase in the vasoconstrictive, prothrombotic, and proinflammatory effects of the angiotensin II pathway through activation of the ACE2 by the virus; COVID-19 triggers a robust INF1 immune response in predisposed patients; pernio as a sign of mild disease, may be explained by genetic and hormonal differences in the patients affected.⁷

Another condition that can be confused with CLE is Raynaud phenomenon, were patients present with white to purple to red patches on the fingers and toes after exposure to cold, but in comparison with pernio, the lesions improve within minutes to hours after rewarming. Secondary Raynaud phenomenon can be seen in patients with systemic lupus erythematosus and in patients with other connective tissue disorders. The skin lesions in our patient were persistent and were not triggered by cold exposure, making Raynaud phenomenon less likely. Children with vasculitis can present with painful red, violaceous, or necrotic lesions on the extremities, which can mimic pernio. Vasculitis lesions tend to be more purpuric and angulated, compared with pernio lesions, though in severe cases of pernio with ulceration it may be difficult to distinguish between the two entities and a skin biopsy may be needed.

Sweet syndrome, also known as acute febrile neutrophilic dermatosis, is a rare skin condition in which children present with edematous tender nodules on the hands and with less frequency in other parts of the body with associated fever, malaise, conjunctivitis, or joint pain and it is usually associated with infection or malignancy. Our patient denied any systemic symptoms and had no conjunctivitis nor arthritis.

Most patients with idiopathic pernio do not require a biopsy or further laboratory evaluation unless the lesions are atypical, chronic, or there is a suspected associated condition. The workup for patients with prolonged or atypical pernio-like lesions include a skin biopsy with direct immunofluorescence, ANA, complete blood count, complement levels, antiphospholipid antibodies, cold agglutinins, and cryoglobulins.

Treatment of mild CLE is with moderate- to high-potency topical corticosteroids. In those patients not responding to topical measures and keeping the extremities warm, the use of hydroxychloroquine has been reported to be beneficial in some patients as well as the use of calcium-channel blockers.

Dr. Matiz is a pediatric dermatologist at Southern California Permanente Medical Group, San Diego.

References

1. Su WP et al. Cutis. 1994 Dec;54(6):395-9.

2. Boada A et al. Am J Dermatopathol. 2010 Feb;32(1):19-23.

3. Patel et al. SBMJ Case Rep. 2013;2013:bcr2013201165.

4. Genes Yi et al. BMC. 2020 Apr 15;18(1):32.

5. Battesti G et al. J Am Acad Dermatol. 2020;83(4):1219-22.

6. Cappel JA et al. Mayo Clin Proc. 2014 Feb;89(2):207-15.

7. Cappel MA et al. Mayo Clin Proc. 2021;96(4):989-1005.

A punch biopsy from one of the lesions on the feet showed subtle basal vacuolar interface inflammation on the epidermis and rare apoptotic keratinocytes. There was an underlying dermal lymphocytic inflammatory infiltrate around the vascular plexus. Dermal mucin appeared slightly increased. The histologic findings are consistent with pernio. He had a negative direct immunofluorescence study.

Laboratory work-up showed an elevated antinuclear antibody (ANA) of 1:620; positive anticardiolipin IgM was at 15.2. A complete blood count showed no anemia or lymphopenia, he had normal complement C3 and C4 levels, normal urinalysis, negative cryoglobulins and cold agglutinins, and a normal protein electrophoresis.

Given the chronicity of his lesions, the lack of improvement with weather changes, the histopathologic findings of a vacuolar interface dermatitis and the positive ANA titer he was diagnosed with chilblain lupus.

Chilblain lupus erythematosus (CLE) is an uncommon form of chronic cutaneous lupus erythematosus that presents with tender pink to violaceous macules, papules, and/or nodules that sometimes can ulcerate and are present on the fingers, toes, and sometimes the nose and ears. The lesions are usually triggered by cold exposure.¹ These patients also have clinical and laboratory findings consistent with lupus erythematosus.

Even though more studies are needed to clarify the clinical and histopathologic features of chilblain lupus, compared with idiopathic pernio, some authors suggest several characteristics: CLE lesions tend to persist in summer months, as occurred in our patient, and histopathologic evaluation usually shows vacuolar and interface inflammation on the basal cell layer and may also have a positive lupus band on direct immunofluorescence.² About 20% of patient with CLE may later develop systemic lupus erythematosus.³

There is also a familial form of CLE which is usually inherited as an autosomal-dominant trait. Mutations in TREX1, SAMHD1, and STING have been described in these patients.⁴ Affected children present with skin lesions at a young age and those with TREX1 mutations are at a higher risk to develop systemic lupus erythematosus.

The differential diagnosis of chilblain lupus includes idiopathic pernio or pernio secondary to other conditions. Other conditions that are thought to be associated with pernio, besides lupus erythematosus, include infectious causes (hepatitis B, COVID-19 infection),⁵ autoimmune conditions, malignancy and hematologic disorders (paraproteinemia).⁶ In histopathology, pernio lesions present with dermal edema and superficial and deep lymphocytic infiltrate.

The pathogenesis of pernio is not fully understood but is thought be related to vasospasm with secondary poor perfusion and ischemia and type I interferon (INF1) immune response. A recent review of the published studies trying to explain the causality between COVID 19 and pernio-like lesions, from January 2020 to December 2020, speculate several possible mechanisms: an increase in the vasoconstrictive, prothrombotic, and proinflammatory effects of the angiotensin II pathway through activation of the ACE2 by the virus; COVID-19 triggers a robust INF1 immune response in predisposed patients; pernio as a sign of mild disease, may be explained by genetic and hormonal differences in the patients affected.⁷

Another condition that can be confused with CLE is Raynaud phenomenon, were patients present with white to purple to red patches on the fingers and toes after exposure to cold, but in comparison with pernio, the lesions improve within minutes to hours after rewarming. Secondary Raynaud phenomenon can be seen in patients with systemic lupus erythematosus and in patients with other connective tissue disorders. The skin lesions in our patient were persistent and were not triggered by cold exposure, making Raynaud phenomenon less likely. Children with vasculitis can present with painful red, violaceous, or necrotic lesions on the extremities, which can mimic pernio. Vasculitis lesions tend to be more purpuric and angulated, compared with pernio lesions, though in severe cases of pernio with ulceration it may be difficult to distinguish between the two entities and a skin biopsy may be needed.

Sweet syndrome, also known as acute febrile neutrophilic dermatosis, is a rare skin condition in which children present with edematous tender nodules on the hands and with less frequency in other parts of the body with associated fever, malaise, conjunctivitis, or joint pain and it is usually associated with infection or malignancy. Our patient denied any systemic symptoms and had no conjunctivitis nor arthritis.

Most patients with idiopathic pernio do not require a biopsy or further laboratory evaluation unless the lesions are atypical, chronic, or there is a suspected associated condition. The workup for patients with prolonged or atypical pernio-like lesions include a skin biopsy with direct immunofluorescence, ANA, complete blood count, complement levels, antiphospholipid antibodies, cold agglutinins, and cryoglobulins.

Treatment of mild CLE is with moderate- to high-potency topical corticosteroids. In those patients not responding to topical measures and keeping the extremities warm, the use of hydroxychloroquine has been reported to be beneficial in some patients as well as the use of calcium-channel blockers.

Dr. Matiz is a pediatric dermatologist at Southern California Permanente Medical Group, San Diego.

References

1. Su WP et al. Cutis. 1994 Dec;54(6):395-9.

2. Boada A et al. Am J Dermatopathol. 2010 Feb;32(1):19-23.

3. Patel et al. SBMJ Case Rep. 2013;2013:bcr2013201165.

4. Genes Yi et al. BMC. 2020 Apr 15;18(1):32.

5. Battesti G et al. J Am Acad Dermatol. 2020;83(4):1219-22.

6. Cappel JA et al. Mayo Clin Proc. 2014 Feb;89(2):207-15.

7. Cappel MA et al. Mayo Clin Proc. 2021;96(4):989-1005.

A punch biopsy from one of the lesions on the feet showed subtle basal vacuolar interface inflammation on the epidermis and rare apoptotic keratinocytes. There was an underlying dermal lymphocytic inflammatory infiltrate around the vascular plexus. Dermal mucin appeared slightly increased. The histologic findings are consistent with pernio. He had a negative direct immunofluorescence study.

Laboratory work-up showed an elevated antinuclear antibody (ANA) of 1:620; positive anticardiolipin IgM was at 15.2. A complete blood count showed no anemia or lymphopenia, he had normal complement C3 and C4 levels, normal urinalysis, negative cryoglobulins and cold agglutinins, and a normal protein electrophoresis.

Given the chronicity of his lesions, the lack of improvement with weather changes, the histopathologic findings of a vacuolar interface dermatitis and the positive ANA titer he was diagnosed with chilblain lupus.

Chilblain lupus erythematosus (CLE) is an uncommon form of chronic cutaneous lupus erythematosus that presents with tender pink to violaceous macules, papules, and/or nodules that sometimes can ulcerate and are present on the fingers, toes, and sometimes the nose and ears. The lesions are usually triggered by cold exposure.¹ These patients also have clinical and laboratory findings consistent with lupus erythematosus.

Even though more studies are needed to clarify the clinical and histopathologic features of chilblain lupus, compared with idiopathic pernio, some authors suggest several characteristics: CLE lesions tend to persist in summer months, as occurred in our patient, and histopathologic evaluation usually shows vacuolar and interface inflammation on the basal cell layer and may also have a positive lupus band on direct immunofluorescence.² About 20% of patient with CLE may later develop systemic lupus erythematosus.³

There is also a familial form of CLE which is usually inherited as an autosomal-dominant trait. Mutations in TREX1, SAMHD1, and STING have been described in these patients.⁴ Affected children present with skin lesions at a young age and those with TREX1 mutations are at a higher risk to develop systemic lupus erythematosus.

The differential diagnosis of chilblain lupus includes idiopathic pernio or pernio secondary to other conditions. Other conditions that are thought to be associated with pernio, besides lupus erythematosus, include infectious causes (hepatitis B, COVID-19 infection),⁵ autoimmune conditions, malignancy and hematologic disorders (paraproteinemia).⁶ In histopathology, pernio lesions present with dermal edema and superficial and deep lymphocytic infiltrate.

The pathogenesis of pernio is not fully understood but is thought be related to vasospasm with secondary poor perfusion and ischemia and type I interferon (INF1) immune response. A recent review of the published studies trying to explain the causality between COVID 19 and pernio-like lesions, from January 2020 to December 2020, speculate several possible mechanisms: an increase in the vasoconstrictive, prothrombotic, and proinflammatory effects of the angiotensin II pathway through activation of the ACE2 by the virus; COVID-19 triggers a robust INF1 immune response in predisposed patients; pernio as a sign of mild disease, may be explained by genetic and hormonal differences in the patients affected.⁷

Another condition that can be confused with CLE is Raynaud phenomenon, were patients present with white to purple to red patches on the fingers and toes after exposure to cold, but in comparison with pernio, the lesions improve within minutes to hours after rewarming. Secondary Raynaud phenomenon can be seen in patients with systemic lupus erythematosus and in patients with other connective tissue disorders. The skin lesions in our patient were persistent and were not triggered by cold exposure, making Raynaud phenomenon less likely. Children with vasculitis can present with painful red, violaceous, or necrotic lesions on the extremities, which can mimic pernio. Vasculitis lesions tend to be more purpuric and angulated, compared with pernio lesions, though in severe cases of pernio with ulceration it may be difficult to distinguish between the two entities and a skin biopsy may be needed.

Sweet syndrome, also known as acute febrile neutrophilic dermatosis, is a rare skin condition in which children present with edematous tender nodules on the hands and with less frequency in other parts of the body with associated fever, malaise, conjunctivitis, or joint pain and it is usually associated with infection or malignancy. Our patient denied any systemic symptoms and had no conjunctivitis nor arthritis.

Most patients with idiopathic pernio do not require a biopsy or further laboratory evaluation unless the lesions are atypical, chronic, or there is a suspected associated condition. The workup for patients with prolonged or atypical pernio-like lesions include a skin biopsy with direct immunofluorescence, ANA, complete blood count, complement levels, antiphospholipid antibodies, cold agglutinins, and cryoglobulins.

Treatment of mild CLE is with moderate- to high-potency topical corticosteroids. In those patients not responding to topical measures and keeping the extremities warm, the use of hydroxychloroquine has been reported to be beneficial in some patients as well as the use of calcium-channel blockers.

Dr. Matiz is a pediatric dermatologist at Southern California Permanente Medical Group, San Diego.

References

1. Su WP et al. Cutis. 1994 Dec;54(6):395-9.

2. Boada A et al. Am J Dermatopathol. 2010 Feb;32(1):19-23.

3. Patel et al. SBMJ Case Rep. 2013;2013:bcr2013201165.

4. Genes Yi et al. BMC. 2020 Apr 15;18(1):32.

5. Battesti G et al. J Am Acad Dermatol. 2020;83(4):1219-22.

6. Cappel JA et al. Mayo Clin Proc. 2014 Feb;89(2):207-15.

7. Cappel MA et al. Mayo Clin Proc. 2021;96(4):989-1005.

Because of the lack of improvement with topical corticosteroids, a skin biopsy was performed from a lesion on the lower back which showed an epidermis with compact hyperkeratosis and a thickened granular layer. Within the dermis, there was a lichenoid infiltrate of lymphocytes with a prominent interface change and rare dyskeratotic keratinocytes consistent with lichen planus.

Dr. Catalina Matiz

Lichen planus is an inflammatory condition of the skin seen mainly in the adult population and is rare in children. This condition affects 0.5%-1% of the population, with maybe a higher prevalence in woman with no racial predilection in the adult or pediatric population. Most patients diagnosed are described to be over 40 years of age, but in children, the mean age for presentation is reported between the ages of 7 and 11.8 years.¹ Interestingly, most of the published larger studies of lichen planus in children originate from India. In a U.K. study, about 80% of the cases reported were from children of Indian descent, as is our patient; so it is possible that lichen planus may be more prevalent in India.¹ In a study based in the United States, cases were more prevalent in African American children.²

The exact cause of this condition is not known but studies have suggested that activated T cells, particularly CD8+, attack and cause apoptosis of the basal keratinocytes.³ There appears to be an up-regulation of Th1 cytokines such as interferon‐gamma, tumor necrosis factor–alpha, interleukin‐1 alpha, IL‐6, and IL‐8, as well as other apoptosis-related molecules.³

Lichen planus has been associated with other systemic conditions especially liver disease (chronic active hepatitis C and primary biliary cirrhosis). Children and adults may also have coexistence of other autoimmune diseases such as autoimmune polyendocrinopathy, myasthenia gravis, autoimmune thyroid disease, vitiligo, and thymoma. Some reports have also found a higher prevalence of atopic dermatitis in children with lichen planus.⁴

The lesions are typically described as the four “Ps” for pruritic, polygonal, purpuric flat-topped papules, and plaques. The papules of lichen planus have characteristically dry fine white streaks known as Wickham’s striae. The lesions can occur anywhere on the body, but they tend to occur more commonly on the flexures of the forearms, the wrists, ankles, shins, knees, and the torso. The face is rarely affected. In some patients oral, scalp (lichen planopilaris), nails, and rarely conjunctival, genital, and esophageal involvement can occur.²

In histopathology, the lesions are characterized by a wedge-shaped hypergranulosis, marked hyperkeratosis, and irregular sawtooth-like acanthosis of rete ridges on the epidermis. The dermal-epidermal junction typically shows an interstitial dermatitis. Civatte bodies may also be seen. On direct immunofluorescence, IgM-staining of the cytoid bodies in the dermal papilla or peribasilar areas are suggestive of lichen planus.¹

The differential diagnosis of lichen planus includes severe lichenified atopic dermatitis, drug-induced lichen planus, graft-versus-host disease, psoriasis, pityriasis rosea, subacute cutaneous lupus, discoid lupus, secondary syphilis, and lichen simplex chronicus. Interestingly, our patient presented with lesions that were not pruritic and more generalized. Compared with eczema, were flexures are commonly affected, our patient’s lesions were localized to the ankles, wrists, extensor knees, and elbows, and no pruritus was reported. Lichenification of skin lesions occurs as a response to chronic scratching as it occurs in atopic dermatitis and lichen simplex chronicus, was considered in our patient, but the lack of pruritus and the more acute presentation made it unlikely.

Lichen planus is considered a self-limiting disease, so treatment is focused on the control of pruritus and to accelerate resolution. The first-line therapy for classic cutaneous lichen planus is the use of potent or superpotent topical corticosteroids for localized disease on the body and extremities and mild to mid-potency for intertriginous areas and the face. Clinical response should be assessed after 2-3 weeks of treatment. For patients with more generalized or recalcitrant disease like our patient, other treatment modalities like phototherapy (narrow-band UVB), a 4- to 6-week course of oral glucocorticoids, or acitretin may be considered. Our patient recently started narrow-band UVB. Other medications that have been reported beneficial for more severe cases include methotrexate, cyclosporine, griseofulvin, hydroxychloroquine, metronidazole, dapsone, and mycophenolate. Recent studies in the adult population have shown apremilast, a phosphodiesterase inhibitor, to be a promising medication for patients with cutaneous lichen planus, though this medication has not been approved yet for use in the pediatric population.⁵

Dr. Matiz is a pediatric dermatologist at Southern California Permanente Medical Group, San Diego.
 

References

1. Payette MJ et al. Clin Dermatol. 2015 Nov-Dec;33(6):631-43.

2. Walton KE et al. Pediatr Dermatol. 2010;27:34-8.

3. Lehman JS et al. Int J Dermatol. 2009 Jul;48(7):682-94.

4. Laughter D et al. J Am Acad Dermatol. 2000;43:649-55.

5. Paul J et al. J Am Acad Dermatol. 2013 Feb;68(2):255-61.

Because of the lack of improvement with topical corticosteroids, a skin biopsy was performed from a lesion on the lower back which showed an epidermis with compact hyperkeratosis and a thickened granular layer. Within the dermis, there was a lichenoid infiltrate of lymphocytes with a prominent interface change and rare dyskeratotic keratinocytes consistent with lichen planus.

Dr. Catalina Matiz

Lichen planus is an inflammatory condition of the skin seen mainly in the adult population and is rare in children. This condition affects 0.5%-1% of the population, with maybe a higher prevalence in woman with no racial predilection in the adult or pediatric population. Most patients diagnosed are described to be over 40 years of age, but in children, the mean age for presentation is reported between the ages of 7 and 11.8 years.¹ Interestingly, most of the published larger studies of lichen planus in children originate from India. In a U.K. study, about 80% of the cases reported were from children of Indian descent, as is our patient; so it is possible that lichen planus may be more prevalent in India.¹ In a study based in the United States, cases were more prevalent in African American children.²

The exact cause of this condition is not known but studies have suggested that activated T cells, particularly CD8+, attack and cause apoptosis of the basal keratinocytes.³ There appears to be an up-regulation of Th1 cytokines such as interferon‐gamma, tumor necrosis factor–alpha, interleukin‐1 alpha, IL‐6, and IL‐8, as well as other apoptosis-related molecules.³

Lichen planus has been associated with other systemic conditions especially liver disease (chronic active hepatitis C and primary biliary cirrhosis). Children and adults may also have coexistence of other autoimmune diseases such as autoimmune polyendocrinopathy, myasthenia gravis, autoimmune thyroid disease, vitiligo, and thymoma. Some reports have also found a higher prevalence of atopic dermatitis in children with lichen planus.⁴

The lesions are typically described as the four “Ps” for pruritic, polygonal, purpuric flat-topped papules, and plaques. The papules of lichen planus have characteristically dry fine white streaks known as Wickham’s striae. The lesions can occur anywhere on the body, but they tend to occur more commonly on the flexures of the forearms, the wrists, ankles, shins, knees, and the torso. The face is rarely affected. In some patients oral, scalp (lichen planopilaris), nails, and rarely conjunctival, genital, and esophageal involvement can occur.²

In histopathology, the lesions are characterized by a wedge-shaped hypergranulosis, marked hyperkeratosis, and irregular sawtooth-like acanthosis of rete ridges on the epidermis. The dermal-epidermal junction typically shows an interstitial dermatitis. Civatte bodies may also be seen. On direct immunofluorescence, IgM-staining of the cytoid bodies in the dermal papilla or peribasilar areas are suggestive of lichen planus.¹

The differential diagnosis of lichen planus includes severe lichenified atopic dermatitis, drug-induced lichen planus, graft-versus-host disease, psoriasis, pityriasis rosea, subacute cutaneous lupus, discoid lupus, secondary syphilis, and lichen simplex chronicus. Interestingly, our patient presented with lesions that were not pruritic and more generalized. Compared with eczema, were flexures are commonly affected, our patient’s lesions were localized to the ankles, wrists, extensor knees, and elbows, and no pruritus was reported. Lichenification of skin lesions occurs as a response to chronic scratching as it occurs in atopic dermatitis and lichen simplex chronicus, was considered in our patient, but the lack of pruritus and the more acute presentation made it unlikely.

Lichen planus is considered a self-limiting disease, so treatment is focused on the control of pruritus and to accelerate resolution. The first-line therapy for classic cutaneous lichen planus is the use of potent or superpotent topical corticosteroids for localized disease on the body and extremities and mild to mid-potency for intertriginous areas and the face. Clinical response should be assessed after 2-3 weeks of treatment. For patients with more generalized or recalcitrant disease like our patient, other treatment modalities like phototherapy (narrow-band UVB), a 4- to 6-week course of oral glucocorticoids, or acitretin may be considered. Our patient recently started narrow-band UVB. Other medications that have been reported beneficial for more severe cases include methotrexate, cyclosporine, griseofulvin, hydroxychloroquine, metronidazole, dapsone, and mycophenolate. Recent studies in the adult population have shown apremilast, a phosphodiesterase inhibitor, to be a promising medication for patients with cutaneous lichen planus, though this medication has not been approved yet for use in the pediatric population.⁵

Dr. Matiz is a pediatric dermatologist at Southern California Permanente Medical Group, San Diego.
 

References

1. Payette MJ et al. Clin Dermatol. 2015 Nov-Dec;33(6):631-43.

2. Walton KE et al. Pediatr Dermatol. 2010;27:34-8.

3. Lehman JS et al. Int J Dermatol. 2009 Jul;48(7):682-94.

4. Laughter D et al. J Am Acad Dermatol. 2000;43:649-55.

5. Paul J et al. J Am Acad Dermatol. 2013 Feb;68(2):255-61.

Because of the lack of improvement with topical corticosteroids, a skin biopsy was performed from a lesion on the lower back which showed an epidermis with compact hyperkeratosis and a thickened granular layer. Within the dermis, there was a lichenoid infiltrate of lymphocytes with a prominent interface change and rare dyskeratotic keratinocytes consistent with lichen planus.

Dr. Catalina Matiz

Lichen planus is an inflammatory condition of the skin seen mainly in the adult population and is rare in children. This condition affects 0.5%-1% of the population, with maybe a higher prevalence in woman with no racial predilection in the adult or pediatric population. Most patients diagnosed are described to be over 40 years of age, but in children, the mean age for presentation is reported between the ages of 7 and 11.8 years.¹ Interestingly, most of the published larger studies of lichen planus in children originate from India. In a U.K. study, about 80% of the cases reported were from children of Indian descent, as is our patient; so it is possible that lichen planus may be more prevalent in India.¹ In a study based in the United States, cases were more prevalent in African American children.²

The exact cause of this condition is not known but studies have suggested that activated T cells, particularly CD8+, attack and cause apoptosis of the basal keratinocytes.³ There appears to be an up-regulation of Th1 cytokines such as interferon‐gamma, tumor necrosis factor–alpha, interleukin‐1 alpha, IL‐6, and IL‐8, as well as other apoptosis-related molecules.³

Lichen planus has been associated with other systemic conditions especially liver disease (chronic active hepatitis C and primary biliary cirrhosis). Children and adults may also have coexistence of other autoimmune diseases such as autoimmune polyendocrinopathy, myasthenia gravis, autoimmune thyroid disease, vitiligo, and thymoma. Some reports have also found a higher prevalence of atopic dermatitis in children with lichen planus.⁴

The lesions are typically described as the four “Ps” for pruritic, polygonal, purpuric flat-topped papules, and plaques. The papules of lichen planus have characteristically dry fine white streaks known as Wickham’s striae. The lesions can occur anywhere on the body, but they tend to occur more commonly on the flexures of the forearms, the wrists, ankles, shins, knees, and the torso. The face is rarely affected. In some patients oral, scalp (lichen planopilaris), nails, and rarely conjunctival, genital, and esophageal involvement can occur.²

In histopathology, the lesions are characterized by a wedge-shaped hypergranulosis, marked hyperkeratosis, and irregular sawtooth-like acanthosis of rete ridges on the epidermis. The dermal-epidermal junction typically shows an interstitial dermatitis. Civatte bodies may also be seen. On direct immunofluorescence, IgM-staining of the cytoid bodies in the dermal papilla or peribasilar areas are suggestive of lichen planus.¹

The differential diagnosis of lichen planus includes severe lichenified atopic dermatitis, drug-induced lichen planus, graft-versus-host disease, psoriasis, pityriasis rosea, subacute cutaneous lupus, discoid lupus, secondary syphilis, and lichen simplex chronicus. Interestingly, our patient presented with lesions that were not pruritic and more generalized. Compared with eczema, were flexures are commonly affected, our patient’s lesions were localized to the ankles, wrists, extensor knees, and elbows, and no pruritus was reported. Lichenification of skin lesions occurs as a response to chronic scratching as it occurs in atopic dermatitis and lichen simplex chronicus, was considered in our patient, but the lack of pruritus and the more acute presentation made it unlikely.

Lichen planus is considered a self-limiting disease, so treatment is focused on the control of pruritus and to accelerate resolution. The first-line therapy for classic cutaneous lichen planus is the use of potent or superpotent topical corticosteroids for localized disease on the body and extremities and mild to mid-potency for intertriginous areas and the face. Clinical response should be assessed after 2-3 weeks of treatment. For patients with more generalized or recalcitrant disease like our patient, other treatment modalities like phototherapy (narrow-band UVB), a 4- to 6-week course of oral glucocorticoids, or acitretin may be considered. Our patient recently started narrow-band UVB. Other medications that have been reported beneficial for more severe cases include methotrexate, cyclosporine, griseofulvin, hydroxychloroquine, metronidazole, dapsone, and mycophenolate. Recent studies in the adult population have shown apremilast, a phosphodiesterase inhibitor, to be a promising medication for patients with cutaneous lichen planus, though this medication has not been approved yet for use in the pediatric population.⁵

Dr. Matiz is a pediatric dermatologist at Southern California Permanente Medical Group, San Diego.
 

References

1. Payette MJ et al. Clin Dermatol. 2015 Nov-Dec;33(6):631-43.

2. Walton KE et al. Pediatr Dermatol. 2010;27:34-8.

3. Lehman JS et al. Int J Dermatol. 2009 Jul;48(7):682-94.

4. Laughter D et al. J Am Acad Dermatol. 2000;43:649-55.

5. Paul J et al. J Am Acad Dermatol. 2013 Feb;68(2):255-61.

On close evaluation of the picture on her chest, she has pale macules and patches surrounded by erythematous ill-defined patches consistent with nevus anemicus. She also has several brown macules and light brown patches on the neck suggestive of café au lait macules. The findings of the picture raise the suspicion for neurofibromatosis, and it was recommended for her to be evaluated in person.

She comes several days later to the clinic. The caretaker, who is her aunt, reports she does not know much of the girl’s medical history as she recently moved from South America to live with her. The girl is a very nice and pleasant 8-year-old. She reports noticing the spots on her chest for about a year and that they seem to get a little itchier and more noticeable when she is hot or when she is running. She also reports increasing headaches for several months. She is being home schooled, and according to her aunt she is at par with her cousins who are about the same age. There is no history of seizures. She has had back surgery in the past. There is no history of hypertension. There is no family history of any genetic disorder or similar lesions.

On physical exam, her vital signs are normal, but her head circumference is over the 90th percentile. She is pleasant and interactive. On skin examination, she has slightly noticeable pale macules and patches on the chest and back that become more apparent after rubbing her skin. She has multiple light brown macules and oval patches on the chest, back, and neck. She has no axillary or inguinal freckling. She has scars on the back from her prior surgery.

As she was having worsening headaches, an MRI of the brain was ordered, which showed a left optic glioma. She was then referred to ophthalmology, neurology, and genetics.

Neurofibromatosis type 1 (NF1) is a common genetic autosomal dominant disorder cause by mutations on the NF1 gene on chromosome 17, which encodes for the protein neurofibromin. This protein works in the Ras-mitogen–activated protein kinase pathway as a negative regulator. Based on the National Institute of Health criteria, children need two or more of the following to be diagnosed with NF1: more than six café au lait macules larger than 5 mm in prepubescent children and 2.5 cm after puberty; axillary or inguinal freckling; two or more Lisch nodules; optic gliomas; two or more neurofibromas or one plexiform neurofibroma; or a first degree relative with a diagnosis of NF1. With these criteria, about 70% of the children can be diagnosed before the age of 1 year.¹

Nevus anemicus is an uncommon birthmark, sometimes overlooked, that is characterized by pale, hypopigmented, well-defined macules and patches that do not turn red after trauma or changes in temperature. Nevus anemicus is usually localized on the torso but can be seen on the face, neck, and extremities. These lesions are present in 1%-2% of the general population. They are thought to occur because of increased sensitivity of the affected blood vessels to catecholamines, which causes permanent vasoconstriction, which leads to hypopigmentation on the area.² These lesions are usually present at birth and have been described in patients with tuberous sclerosis, neurofibromatosis, and phakomatosis pigmentovascularis.

Recent studies of patients with neurofibromatosis and other RASopathies have noticed that nevus anemicus is present in about 8.8%-51% of the patients studied with a diagnosis NF1, compared with only 2% of the controls.^3,4 The studies failed to report any cases of nevus anemicus in patients with other RASopathies associated with café au lait macules. Bulteel and colleagues recently reported two cases of non-NF1 RASopathies also associated with nevus anemicus in a patient with Legius syndrome and a patient with Noonan syndrome with multiple lentigines.⁵ The nevus anemicus was reported to occur most commonly on the anterior chest and be multiple, as seen in our patient.

The authors of the published studies advocate for the introduction of nevus anemicus as part of the diagnostic criteria for NF1, especially because it can be an early finding seen in babies, which can aid in early diagnosis of NF1.

Dr. Matiz is a pediatric dermatologist at Southern California Permanente Medical Group, San Diego. She has no relevant financial disclosures. Email Dr. Matiz at pdnews@mdedge.com.

References

1. Pediatrics. 2000 Mar. doi: 10.1542/peds.105.3.608.

2. Nevus Anemicus. StatPearls [Internet] (Treasure Island, Fla.: StatPearls Publishing; 2020 Jan).

3. J Am Acad Dermatol. 2013 Nov. doi: 10.1016/j.jaad.2013.06.039.

4. Pediatr Dermatol. 2015 May-Jun. doi: 10.1111/pde.12525.

5. JAAD Case Rep. 2018 Apr 5. doi: 10.1016/j.jdcr.2017.09.037.
 

On close evaluation of the picture on her chest, she has pale macules and patches surrounded by erythematous ill-defined patches consistent with nevus anemicus. She also has several brown macules and light brown patches on the neck suggestive of café au lait macules. The findings of the picture raise the suspicion for neurofibromatosis, and it was recommended for her to be evaluated in person.

She comes several days later to the clinic. The caretaker, who is her aunt, reports she does not know much of the girl’s medical history as she recently moved from South America to live with her. The girl is a very nice and pleasant 8-year-old. She reports noticing the spots on her chest for about a year and that they seem to get a little itchier and more noticeable when she is hot or when she is running. She also reports increasing headaches for several months. She is being home schooled, and according to her aunt she is at par with her cousins who are about the same age. There is no history of seizures. She has had back surgery in the past. There is no history of hypertension. There is no family history of any genetic disorder or similar lesions.

On physical exam, her vital signs are normal, but her head circumference is over the 90th percentile. She is pleasant and interactive. On skin examination, she has slightly noticeable pale macules and patches on the chest and back that become more apparent after rubbing her skin. She has multiple light brown macules and oval patches on the chest, back, and neck. She has no axillary or inguinal freckling. She has scars on the back from her prior surgery.

As she was having worsening headaches, an MRI of the brain was ordered, which showed a left optic glioma. She was then referred to ophthalmology, neurology, and genetics.

Neurofibromatosis type 1 (NF1) is a common genetic autosomal dominant disorder cause by mutations on the NF1 gene on chromosome 17, which encodes for the protein neurofibromin. This protein works in the Ras-mitogen–activated protein kinase pathway as a negative regulator. Based on the National Institute of Health criteria, children need two or more of the following to be diagnosed with NF1: more than six café au lait macules larger than 5 mm in prepubescent children and 2.5 cm after puberty; axillary or inguinal freckling; two or more Lisch nodules; optic gliomas; two or more neurofibromas or one plexiform neurofibroma; or a first degree relative with a diagnosis of NF1. With these criteria, about 70% of the children can be diagnosed before the age of 1 year.¹

Nevus anemicus is an uncommon birthmark, sometimes overlooked, that is characterized by pale, hypopigmented, well-defined macules and patches that do not turn red after trauma or changes in temperature. Nevus anemicus is usually localized on the torso but can be seen on the face, neck, and extremities. These lesions are present in 1%-2% of the general population. They are thought to occur because of increased sensitivity of the affected blood vessels to catecholamines, which causes permanent vasoconstriction, which leads to hypopigmentation on the area.² These lesions are usually present at birth and have been described in patients with tuberous sclerosis, neurofibromatosis, and phakomatosis pigmentovascularis.

Recent studies of patients with neurofibromatosis and other RASopathies have noticed that nevus anemicus is present in about 8.8%-51% of the patients studied with a diagnosis NF1, compared with only 2% of the controls.^3,4 The studies failed to report any cases of nevus anemicus in patients with other RASopathies associated with café au lait macules. Bulteel and colleagues recently reported two cases of non-NF1 RASopathies also associated with nevus anemicus in a patient with Legius syndrome and a patient with Noonan syndrome with multiple lentigines.⁵ The nevus anemicus was reported to occur most commonly on the anterior chest and be multiple, as seen in our patient.

The authors of the published studies advocate for the introduction of nevus anemicus as part of the diagnostic criteria for NF1, especially because it can be an early finding seen in babies, which can aid in early diagnosis of NF1.

Dr. Matiz is a pediatric dermatologist at Southern California Permanente Medical Group, San Diego. She has no relevant financial disclosures. Email Dr. Matiz at pdnews@mdedge.com.

References

1. Pediatrics. 2000 Mar. doi: 10.1542/peds.105.3.608.

2. Nevus Anemicus. StatPearls [Internet] (Treasure Island, Fla.: StatPearls Publishing; 2020 Jan).

3. J Am Acad Dermatol. 2013 Nov. doi: 10.1016/j.jaad.2013.06.039.

4. Pediatr Dermatol. 2015 May-Jun. doi: 10.1111/pde.12525.

5. JAAD Case Rep. 2018 Apr 5. doi: 10.1016/j.jdcr.2017.09.037.
 

On close evaluation of the picture on her chest, she has pale macules and patches surrounded by erythematous ill-defined patches consistent with nevus anemicus. She also has several brown macules and light brown patches on the neck suggestive of café au lait macules. The findings of the picture raise the suspicion for neurofibromatosis, and it was recommended for her to be evaluated in person.

She comes several days later to the clinic. The caretaker, who is her aunt, reports she does not know much of the girl’s medical history as she recently moved from South America to live with her. The girl is a very nice and pleasant 8-year-old. She reports noticing the spots on her chest for about a year and that they seem to get a little itchier and more noticeable when she is hot or when she is running. She also reports increasing headaches for several months. She is being home schooled, and according to her aunt she is at par with her cousins who are about the same age. There is no history of seizures. She has had back surgery in the past. There is no history of hypertension. There is no family history of any genetic disorder or similar lesions.

On physical exam, her vital signs are normal, but her head circumference is over the 90th percentile. She is pleasant and interactive. On skin examination, she has slightly noticeable pale macules and patches on the chest and back that become more apparent after rubbing her skin. She has multiple light brown macules and oval patches on the chest, back, and neck. She has no axillary or inguinal freckling. She has scars on the back from her prior surgery.

As she was having worsening headaches, an MRI of the brain was ordered, which showed a left optic glioma. She was then referred to ophthalmology, neurology, and genetics.

Neurofibromatosis type 1 (NF1) is a common genetic autosomal dominant disorder cause by mutations on the NF1 gene on chromosome 17, which encodes for the protein neurofibromin. This protein works in the Ras-mitogen–activated protein kinase pathway as a negative regulator. Based on the National Institute of Health criteria, children need two or more of the following to be diagnosed with NF1: more than six café au lait macules larger than 5 mm in prepubescent children and 2.5 cm after puberty; axillary or inguinal freckling; two or more Lisch nodules; optic gliomas; two or more neurofibromas or one plexiform neurofibroma; or a first degree relative with a diagnosis of NF1. With these criteria, about 70% of the children can be diagnosed before the age of 1 year.¹

Nevus anemicus is an uncommon birthmark, sometimes overlooked, that is characterized by pale, hypopigmented, well-defined macules and patches that do not turn red after trauma or changes in temperature. Nevus anemicus is usually localized on the torso but can be seen on the face, neck, and extremities. These lesions are present in 1%-2% of the general population. They are thought to occur because of increased sensitivity of the affected blood vessels to catecholamines, which causes permanent vasoconstriction, which leads to hypopigmentation on the area.² These lesions are usually present at birth and have been described in patients with tuberous sclerosis, neurofibromatosis, and phakomatosis pigmentovascularis.

Recent studies of patients with neurofibromatosis and other RASopathies have noticed that nevus anemicus is present in about 8.8%-51% of the patients studied with a diagnosis NF1, compared with only 2% of the controls.^3,4 The studies failed to report any cases of nevus anemicus in patients with other RASopathies associated with café au lait macules. Bulteel and colleagues recently reported two cases of non-NF1 RASopathies also associated with nevus anemicus in a patient with Legius syndrome and a patient with Noonan syndrome with multiple lentigines.⁵ The nevus anemicus was reported to occur most commonly on the anterior chest and be multiple, as seen in our patient.

The authors of the published studies advocate for the introduction of nevus anemicus as part of the diagnostic criteria for NF1, especially because it can be an early finding seen in babies, which can aid in early diagnosis of NF1.

Dr. Matiz is a pediatric dermatologist at Southern California Permanente Medical Group, San Diego. She has no relevant financial disclosures. Email Dr. Matiz at pdnews@mdedge.com.

References

1. Pediatrics. 2000 Mar. doi: 10.1542/peds.105.3.608.

2. Nevus Anemicus. StatPearls [Internet] (Treasure Island, Fla.: StatPearls Publishing; 2020 Jan).

3. J Am Acad Dermatol. 2013 Nov. doi: 10.1016/j.jaad.2013.06.039.

4. Pediatr Dermatol. 2015 May-Jun. doi: 10.1111/pde.12525.

5. JAAD Case Rep. 2018 Apr 5. doi: 10.1016/j.jdcr.2017.09.037.
 

“There’s rue for you, and here’s some for me; we may call it herb of grace o’ Sundays. O, you must wear your rue with a difference.”

— Ophelia in Hamlet by William Shakespeare

The patient was admitted to the hospital for IV fluids, pain control, and observation. The following day she admitted using the leaves of a plant on the trail as a bug repellent, as one time was taught by her grandfather. She rubbed some of the leaves on the brother as well. The grandfather shared some pictures of the bushes, and the plant was identified as Ruta graveolens.

The blisters were deroofed, cleaned with saline, and wrapped with triamcinolone ointment and petrolatum. The patient was also started on a prednisone taper and received analgesics for the severe pain.

Ruta graveolens also known as common rue or herb of grace, is an ornamental plant from the Rutaceae family. This plant is also used as a medicinal herb, condiment, and as an insect repellent. If ingested in large doses, it can cause severe abdominal pain and vomiting. It also can be hepatotoxic.

When applied to the skin and then exposed to the sun, it can cause severe phytophotodermatitis which can mimic a severe second-degree burn. The herb contains furocumarines, such as 8-methoxypsoralen and 5-methoxypsoralen and furoquinoline alkaloids. These chemicals when exposed to UVA radiation cause cell injury and inflammation of the skin. This is considered a phototoxic reaction of the skin, compared with allergic reactions, such as poison ivy dermatitis, which need a prior sensitization to the allergen for the T cells to be activated and cause injury in the skin. Other common plants and fruits that can cause phytophotodermatitis include citrus fruits, figs, carrots, celery, parsnips, parsley, and other wildflowers like hogweed.

Depending on the degree of injury, the patients can be treated with topical corticosteroids, petrolatum wraps, and pain control. In severe cases like our patient, systemic prednisone may help stop the progression of the lesions and help with the inflammation. Skin hyperpigmentation after the initial injury may take months to clear, and some patient can develop scars.

The differential diagnosis should include severe bullous contact dermatitis like exposure to urushiol in poison ivy; second- and third-degree burns; severe medications reactions such Stevens-Johnson syndrome or toxic epidermal necrolysis, and inmunobullous diseases such as bullous lupus erythematosus, pemphigus vulgaris, or bullous pemphigoid. If there is no history of exposure or there are any other systemic symptoms, consider performing a skin biopsy of one of the lesions.

In this patient’s case, the history of exposure and skin findings helped the dermatologist on call make the right diagnosis.
 

Dr. Matiz is a pediatric dermatologist at Southern California Permanente Medical Group, San Diego. Email her at pdnews@mdedge.com.

References

J Burn Care Res. 2018 Oct 23;39(6):1064-6.

Dermatitis. 2007 Mar;18(1):52-5.

BMJ Case Rep. 2015 Dec 23;2015:bcr2015213388.

“There’s rue for you, and here’s some for me; we may call it herb of grace o’ Sundays. O, you must wear your rue with a difference.”

— Ophelia in Hamlet by William Shakespeare

The patient was admitted to the hospital for IV fluids, pain control, and observation. The following day she admitted using the leaves of a plant on the trail as a bug repellent, as one time was taught by her grandfather. She rubbed some of the leaves on the brother as well. The grandfather shared some pictures of the bushes, and the plant was identified as Ruta graveolens.

The blisters were deroofed, cleaned with saline, and wrapped with triamcinolone ointment and petrolatum. The patient was also started on a prednisone taper and received analgesics for the severe pain.

Ruta graveolens also known as common rue or herb of grace, is an ornamental plant from the Rutaceae family. This plant is also used as a medicinal herb, condiment, and as an insect repellent. If ingested in large doses, it can cause severe abdominal pain and vomiting. It also can be hepatotoxic.

When applied to the skin and then exposed to the sun, it can cause severe phytophotodermatitis which can mimic a severe second-degree burn. The herb contains furocumarines, such as 8-methoxypsoralen and 5-methoxypsoralen and furoquinoline alkaloids. These chemicals when exposed to UVA radiation cause cell injury and inflammation of the skin. This is considered a phototoxic reaction of the skin, compared with allergic reactions, such as poison ivy dermatitis, which need a prior sensitization to the allergen for the T cells to be activated and cause injury in the skin. Other common plants and fruits that can cause phytophotodermatitis include citrus fruits, figs, carrots, celery, parsnips, parsley, and other wildflowers like hogweed.

Depending on the degree of injury, the patients can be treated with topical corticosteroids, petrolatum wraps, and pain control. In severe cases like our patient, systemic prednisone may help stop the progression of the lesions and help with the inflammation. Skin hyperpigmentation after the initial injury may take months to clear, and some patient can develop scars.

The differential diagnosis should include severe bullous contact dermatitis like exposure to urushiol in poison ivy; second- and third-degree burns; severe medications reactions such Stevens-Johnson syndrome or toxic epidermal necrolysis, and inmunobullous diseases such as bullous lupus erythematosus, pemphigus vulgaris, or bullous pemphigoid. If there is no history of exposure or there are any other systemic symptoms, consider performing a skin biopsy of one of the lesions.

In this patient’s case, the history of exposure and skin findings helped the dermatologist on call make the right diagnosis.
 

Dr. Matiz is a pediatric dermatologist at Southern California Permanente Medical Group, San Diego. Email her at pdnews@mdedge.com.

References

J Burn Care Res. 2018 Oct 23;39(6):1064-6.

Dermatitis. 2007 Mar;18(1):52-5.

BMJ Case Rep. 2015 Dec 23;2015:bcr2015213388.

“There’s rue for you, and here’s some for me; we may call it herb of grace o’ Sundays. O, you must wear your rue with a difference.”

— Ophelia in Hamlet by William Shakespeare

The patient was admitted to the hospital for IV fluids, pain control, and observation. The following day she admitted using the leaves of a plant on the trail as a bug repellent, as one time was taught by her grandfather. She rubbed some of the leaves on the brother as well. The grandfather shared some pictures of the bushes, and the plant was identified as Ruta graveolens.

The blisters were deroofed, cleaned with saline, and wrapped with triamcinolone ointment and petrolatum. The patient was also started on a prednisone taper and received analgesics for the severe pain.

Ruta graveolens also known as common rue or herb of grace, is an ornamental plant from the Rutaceae family. This plant is also used as a medicinal herb, condiment, and as an insect repellent. If ingested in large doses, it can cause severe abdominal pain and vomiting. It also can be hepatotoxic.

When applied to the skin and then exposed to the sun, it can cause severe phytophotodermatitis which can mimic a severe second-degree burn. The herb contains furocumarines, such as 8-methoxypsoralen and 5-methoxypsoralen and furoquinoline alkaloids. These chemicals when exposed to UVA radiation cause cell injury and inflammation of the skin. This is considered a phototoxic reaction of the skin, compared with allergic reactions, such as poison ivy dermatitis, which need a prior sensitization to the allergen for the T cells to be activated and cause injury in the skin. Other common plants and fruits that can cause phytophotodermatitis include citrus fruits, figs, carrots, celery, parsnips, parsley, and other wildflowers like hogweed.

Depending on the degree of injury, the patients can be treated with topical corticosteroids, petrolatum wraps, and pain control. In severe cases like our patient, systemic prednisone may help stop the progression of the lesions and help with the inflammation. Skin hyperpigmentation after the initial injury may take months to clear, and some patient can develop scars.

The differential diagnosis should include severe bullous contact dermatitis like exposure to urushiol in poison ivy; second- and third-degree burns; severe medications reactions such Stevens-Johnson syndrome or toxic epidermal necrolysis, and inmunobullous diseases such as bullous lupus erythematosus, pemphigus vulgaris, or bullous pemphigoid. If there is no history of exposure or there are any other systemic symptoms, consider performing a skin biopsy of one of the lesions.

In this patient’s case, the history of exposure and skin findings helped the dermatologist on call make the right diagnosis.
 

Dr. Matiz is a pediatric dermatologist at Southern California Permanente Medical Group, San Diego. Email her at pdnews@mdedge.com.

References

J Burn Care Res. 2018 Oct 23;39(6):1064-6.

Dermatitis. 2007 Mar;18(1):52-5.

BMJ Case Rep. 2015 Dec 23;2015:bcr2015213388.

The patient was diagnosed with idiopathic facial aseptic granuloma (IFAG) based on the clinical findings, as well as the associated history of chalazia and erythematous papules seen in childhood rosacea.

She was treated with several months of azithromycin, sulfur wash, and metronidazole cream with improvement of some of the smaller lesions but no change on the larger nodules. Later she was treated with oral and topical ivermectin with no improvement. Some of the nodules slowly resolved except for the larger lesion on the right cheek. She was later treated with a 6-week course of clarithromycin with partial improvement of the nodule. The lesion resolved after 2 months of stopping clarithromycin.

IFAG is a rare condition seen in prepubescent children. The etiology of this condition is not well understood and is thought to be on the spectrum of childhood rosacea.¹ From several recent reports, IFAG usually is seen in children with associated conditions including chalazia, conjunctivitis, blepharitis, and telangiectasias, which can be seen in patients with rosacea. These associated findings suggest the possibility of IFAG being a form of granulomatous rosacea in children. Our patient presented with several lesions on the cheek and had a previous history of recurrent chalazia.

This condition presents in childhood between the ages of 8 months and 13 years. Most of the cases occur in toddlers, and girls appear to be more affected than boys. The lesions appear as pink, rubbery, nontender, nonfluctuant nodules on the cheeks, which can be single or multiple. A large prospective study in 30 children demonstrated that more 70% of the lesions cultured were negative for bacteria. Histologic analysis of some of the lesions showed a chronic dermal lymphohistiocytic granulomatous perifollicular infiltrate with numerous foreign body–type giant cells.²

The differential diagnosis of these lesions should include infectious pyodermas such as mycobacterial infections, cutaneous leishmaniasis, and botryomycosis; deep fungal infections such as sporotrichosis, coccidioidomycosis, and cryptococcosis; childhood nodulocystic acne; pilomatrixoma; epidermoid cyst; vascular tumors or malformations; and leukemia cutis.³

The diagnosis is usually clinical but in atypical cases a skin biopsy with tissue cultures should be performed. The decision to biopsy these lesions will need to be done in a one by one basis, as a biopsy may leave scaring on the area affected.

It has been postulated that a color Doppler ultrasound of the lesion may be a helpful ancillary study. Echographic findings show a well demarcated solid-cystic, hypoechoic dermal lesion, the largest axis of which lies parallel to the skin surface. The lesion lacks calcium deposits. Other findings include increased echogenicity of the underlaying hypodermis. The findings may vary depending on the stage of the lesion.⁴

The course of the condition may last on average months to years. Some lesions resolve spontaneously and others may respond to courses of oral antibiotics such as clarithromycin, azithromycin, or ivermectin. In our patient, several lesions improved with oral antibiotics, but the larger lesions were more persistent and resolved after a year.

The lesions usually resolve without scarring. In those patients with associated rosacea, maintenance topical treatments may be warranted and also may need follow-up with ophthalmology because they tend to commonly have ocular rosacea as well.
 

Dr. Matiz is a pediatric dermatologist at Southern California Permanente Medical Group, San Diego. She said she had no relevant financial disclosures. Email her at pdnews@mdedge.com.

References

1. Pediatr Dermatol. 2013 Jan-Feb;30(1):109-11.

2. Br J Dermatol. 2007 Apr;156(4):705-8.

3. Pediatr Dermatol. 2018 Jul;35(4):490-3.

4. Actas Dermosifiliogr. 2019 Oct;110(8):637-41.

The patient was diagnosed with idiopathic facial aseptic granuloma (IFAG) based on the clinical findings, as well as the associated history of chalazia and erythematous papules seen in childhood rosacea.

She was treated with several months of azithromycin, sulfur wash, and metronidazole cream with improvement of some of the smaller lesions but no change on the larger nodules. Later she was treated with oral and topical ivermectin with no improvement. Some of the nodules slowly resolved except for the larger lesion on the right cheek. She was later treated with a 6-week course of clarithromycin with partial improvement of the nodule. The lesion resolved after 2 months of stopping clarithromycin.

IFAG is a rare condition seen in prepubescent children. The etiology of this condition is not well understood and is thought to be on the spectrum of childhood rosacea.¹ From several recent reports, IFAG usually is seen in children with associated conditions including chalazia, conjunctivitis, blepharitis, and telangiectasias, which can be seen in patients with rosacea. These associated findings suggest the possibility of IFAG being a form of granulomatous rosacea in children. Our patient presented with several lesions on the cheek and had a previous history of recurrent chalazia.

This condition presents in childhood between the ages of 8 months and 13 years. Most of the cases occur in toddlers, and girls appear to be more affected than boys. The lesions appear as pink, rubbery, nontender, nonfluctuant nodules on the cheeks, which can be single or multiple. A large prospective study in 30 children demonstrated that more 70% of the lesions cultured were negative for bacteria. Histologic analysis of some of the lesions showed a chronic dermal lymphohistiocytic granulomatous perifollicular infiltrate with numerous foreign body–type giant cells.²

The differential diagnosis of these lesions should include infectious pyodermas such as mycobacterial infections, cutaneous leishmaniasis, and botryomycosis; deep fungal infections such as sporotrichosis, coccidioidomycosis, and cryptococcosis; childhood nodulocystic acne; pilomatrixoma; epidermoid cyst; vascular tumors or malformations; and leukemia cutis.³

The diagnosis is usually clinical but in atypical cases a skin biopsy with tissue cultures should be performed. The decision to biopsy these lesions will need to be done in a one by one basis, as a biopsy may leave scaring on the area affected.

It has been postulated that a color Doppler ultrasound of the lesion may be a helpful ancillary study. Echographic findings show a well demarcated solid-cystic, hypoechoic dermal lesion, the largest axis of which lies parallel to the skin surface. The lesion lacks calcium deposits. Other findings include increased echogenicity of the underlaying hypodermis. The findings may vary depending on the stage of the lesion.⁴

The course of the condition may last on average months to years. Some lesions resolve spontaneously and others may respond to courses of oral antibiotics such as clarithromycin, azithromycin, or ivermectin. In our patient, several lesions improved with oral antibiotics, but the larger lesions were more persistent and resolved after a year.

The lesions usually resolve without scarring. In those patients with associated rosacea, maintenance topical treatments may be warranted and also may need follow-up with ophthalmology because they tend to commonly have ocular rosacea as well.
 

Dr. Matiz is a pediatric dermatologist at Southern California Permanente Medical Group, San Diego. She said she had no relevant financial disclosures. Email her at pdnews@mdedge.com.

References

1. Pediatr Dermatol. 2013 Jan-Feb;30(1):109-11.

2. Br J Dermatol. 2007 Apr;156(4):705-8.

3. Pediatr Dermatol. 2018 Jul;35(4):490-3.

4. Actas Dermosifiliogr. 2019 Oct;110(8):637-41.

The patient was diagnosed with idiopathic facial aseptic granuloma (IFAG) based on the clinical findings, as well as the associated history of chalazia and erythematous papules seen in childhood rosacea.

She was treated with several months of azithromycin, sulfur wash, and metronidazole cream with improvement of some of the smaller lesions but no change on the larger nodules. Later she was treated with oral and topical ivermectin with no improvement. Some of the nodules slowly resolved except for the larger lesion on the right cheek. She was later treated with a 6-week course of clarithromycin with partial improvement of the nodule. The lesion resolved after 2 months of stopping clarithromycin.

IFAG is a rare condition seen in prepubescent children. The etiology of this condition is not well understood and is thought to be on the spectrum of childhood rosacea.¹ From several recent reports, IFAG usually is seen in children with associated conditions including chalazia, conjunctivitis, blepharitis, and telangiectasias, which can be seen in patients with rosacea. These associated findings suggest the possibility of IFAG being a form of granulomatous rosacea in children. Our patient presented with several lesions on the cheek and had a previous history of recurrent chalazia.

This condition presents in childhood between the ages of 8 months and 13 years. Most of the cases occur in toddlers, and girls appear to be more affected than boys. The lesions appear as pink, rubbery, nontender, nonfluctuant nodules on the cheeks, which can be single or multiple. A large prospective study in 30 children demonstrated that more 70% of the lesions cultured were negative for bacteria. Histologic analysis of some of the lesions showed a chronic dermal lymphohistiocytic granulomatous perifollicular infiltrate with numerous foreign body–type giant cells.²

The differential diagnosis of these lesions should include infectious pyodermas such as mycobacterial infections, cutaneous leishmaniasis, and botryomycosis; deep fungal infections such as sporotrichosis, coccidioidomycosis, and cryptococcosis; childhood nodulocystic acne; pilomatrixoma; epidermoid cyst; vascular tumors or malformations; and leukemia cutis.³

The diagnosis is usually clinical but in atypical cases a skin biopsy with tissue cultures should be performed. The decision to biopsy these lesions will need to be done in a one by one basis, as a biopsy may leave scaring on the area affected.

It has been postulated that a color Doppler ultrasound of the lesion may be a helpful ancillary study. Echographic findings show a well demarcated solid-cystic, hypoechoic dermal lesion, the largest axis of which lies parallel to the skin surface. The lesion lacks calcium deposits. Other findings include increased echogenicity of the underlaying hypodermis. The findings may vary depending on the stage of the lesion.⁴

The course of the condition may last on average months to years. Some lesions resolve spontaneously and others may respond to courses of oral antibiotics such as clarithromycin, azithromycin, or ivermectin. In our patient, several lesions improved with oral antibiotics, but the larger lesions were more persistent and resolved after a year.

The lesions usually resolve without scarring. In those patients with associated rosacea, maintenance topical treatments may be warranted and also may need follow-up with ophthalmology because they tend to commonly have ocular rosacea as well.
 

Dr. Matiz is a pediatric dermatologist at Southern California Permanente Medical Group, San Diego. She said she had no relevant financial disclosures. Email her at pdnews@mdedge.com.

References

1. Pediatr Dermatol. 2013 Jan-Feb;30(1):109-11.

2. Br J Dermatol. 2007 Apr;156(4):705-8.

3. Pediatr Dermatol. 2018 Jul;35(4):490-3.

4. Actas Dermosifiliogr. 2019 Oct;110(8):637-41.

Scrapings of the child’s rash were analyzed with potassium hydroxide (KOH) under microscopy which revealed multiple septate hyphae.

She was diagnosed with Majocchi’s granuloma. The fungal culture was positive for Trichophyton rubrum.

The differential diagnosis for these lesions in children includes other granulomatous conditions such as granulomatous rosacea, sarcoidosis, and granuloma faciale, as well as bacterial or atypical mycobacterial infections, cutaneous leishmaniasis, and eosinophilic pustular folliculitis.

Treatment of MG requires systemic treatment with griseofulvin, itraconazole, or terbinafine for at least 4-8 weeks or until all the lesions have resolved. Our patient was treated with 6 weeks of high-dose griseofulvin with resolution of her lesions.

Dr. Matiz is a pediatric dermatologist at Southern California Permanente Medical Group, San Diego. She said she had no relevant financial disclosures. Email her at pdnews@mdedge.com.

References

1. Dermatol Online J. 2018 Dec 15;24(12):13030/qt89k4t6wj.

2. Med Mycol. 2012 Jul;50(5):449-57.

3. Clin Microbiol Rev. 2011 Apr;24(2):247-80.

Scrapings of the child’s rash were analyzed with potassium hydroxide (KOH) under microscopy which revealed multiple septate hyphae.

She was diagnosed with Majocchi’s granuloma. The fungal culture was positive for Trichophyton rubrum.

The differential diagnosis for these lesions in children includes other granulomatous conditions such as granulomatous rosacea, sarcoidosis, and granuloma faciale, as well as bacterial or atypical mycobacterial infections, cutaneous leishmaniasis, and eosinophilic pustular folliculitis.

Treatment of MG requires systemic treatment with griseofulvin, itraconazole, or terbinafine for at least 4-8 weeks or until all the lesions have resolved. Our patient was treated with 6 weeks of high-dose griseofulvin with resolution of her lesions.

Dr. Matiz is a pediatric dermatologist at Southern California Permanente Medical Group, San Diego. She said she had no relevant financial disclosures. Email her at pdnews@mdedge.com.

References

1. Dermatol Online J. 2018 Dec 15;24(12):13030/qt89k4t6wj.

2. Med Mycol. 2012 Jul;50(5):449-57.

3. Clin Microbiol Rev. 2011 Apr;24(2):247-80.

Scrapings of the child’s rash were analyzed with potassium hydroxide (KOH) under microscopy which revealed multiple septate hyphae.

She was diagnosed with Majocchi’s granuloma. The fungal culture was positive for Trichophyton rubrum.

The differential diagnosis for these lesions in children includes other granulomatous conditions such as granulomatous rosacea, sarcoidosis, and granuloma faciale, as well as bacterial or atypical mycobacterial infections, cutaneous leishmaniasis, and eosinophilic pustular folliculitis.

Treatment of MG requires systemic treatment with griseofulvin, itraconazole, or terbinafine for at least 4-8 weeks or until all the lesions have resolved. Our patient was treated with 6 weeks of high-dose griseofulvin with resolution of her lesions.

Dr. Matiz is a pediatric dermatologist at Southern California Permanente Medical Group, San Diego. She said she had no relevant financial disclosures. Email her at pdnews@mdedge.com.

References

1. Dermatol Online J. 2018 Dec 15;24(12):13030/qt89k4t6wj.

2. Med Mycol. 2012 Jul;50(5):449-57.

3. Clin Microbiol Rev. 2011 Apr;24(2):247-80.

A punch biopsy of one of the lesions showed a superficial and deep mixed inflammatory cell infiltrate, including neutrophils and eosinophils. There was also vasculitis, karyorrhexis and extravasated red blood cells. The findings are those of leukocytoclastic vasculitis, suggestive of acute hemorrhagic edema of infancy. Direct immunofluorescence was positive for IgM, C3, and fibrinogen, but negative for IgA.

Acute hemorrhagic edema of infancy (AHEI), also known as Finkelstein disease, is form of leukocytoclastic vasculitis that occurs in infants and toddlers aged between4 months and 3 years.

The lesions start as petechiae or edematous, erythematous to violaceous nodules that later coalesce and form “cockade”-like plaques with a central clearing on the face and extremities. Fever and edema accompany the vasculitic lesions, but children do not appear severely ill. Gastrointestinal, renal, and joint involvement are rare.¹ AHEI follows a benign course with resolution of the lesions and symptoms within days to weeks. The etiology of this condition is not known but infection triggers have been reported including coronavirus infections, coxsackie virus infections, Escherichia coli urinary tract infections, herpes simplex virus stomatitis, and pneumococcal bacteremia.^2,3 Our patient had a prior history of pneumococcal pneumonia and metapneumovirus infection. MMR vaccine also has been reported as a possible trigger, as well as some medications.

Laboratory results are usually normal, but some patients may have elevated inflammatory markers (C-reactive protein and erythrocyte sedimentation rate), as noted in our patient, and leukocytosis, thrombocytosis, and eosinophilia. Microscopic analysis demonstrates leukocytoclastic vasculitis of small vessels with associated karyorrhexis and extravasated red blood cells.

The differential diagnosis includes other vasculitic conditions, primarily Henoch-Schönlein purpura (HSP). Patients with HSP tend to be older in age and the lesions described as palpable purpura commonly affect the lower extremities and buttocks. These patients can present with abdominal pain and arthritis; renal compromise also can occur. Direct immunofluorescence can commonly be positive for IgA, which was negative in our patient.

AHEI and HSP are considered different entities, but both present with leukocytoclastic vasculitis.¹ Another condition to consider in patients with fever, rash, and edema is Kawasaki disease, also a form of vasculitis, that affects small- and medium-size muscular vessels with predilection for the coronary arteries. Patients with Kawasaki disease present with fever (usually longer than 5 days), facial and extremity edema (similar to AHEI), skin lesions (which may have multiple presentations, the most common being macular, papular and erythematous, and urticarial eruptions), but also lymphadenopathy and conjunctivitis. These patients appear sicker than children with AHEI. Their laboratory results show leukocytosis, thrombocytosis or thrombocytopenia, elevated inflammatory markers, and sterile pyuria.⁴

Patients with erythema nodosum present with tender erythematous nodules, which can look like early AHEI lesions. The most common location is the lower extremities, but in children erythema nodosum can occur on the face, trunk, and arms. The lesions can occur secondary to infections such as streptococcus, mycoplasma, tuberculosis, coccidioidomycosis, and sarcoidosis, as well as to malignancy or medications. These patients do not appear sick, are not febrile, and are rarely seen under 2 years of age.⁵

Acute febrile neutrophilic dermatosis – Sweets’ syndrome – also should be considered in a patient with tender nodules, fever, and leukocytosis. The skin lesions in Sweets’ syndrome, compared with those in AHEI, are painful and can present as papules, nodules, and bullae on the face and extremities. A prior history of an upper respiratory infection is commonly described in children with Sweets’ syndrome. These patients present with fever, which may start days to weeks prior to the lesions starting. Children with Sweets’ syndrome also can have conjunctivitis, myalgias, polyarthritis, and in severe cases septic shock and multiorgan dysfunction. Sweets’ syndrome can be seen in patients with inflammatory bowel disease, systemic lupus erythematosus, chronic multifocal osteomyelitis, and malignancy; it also may be induced by certain medications.⁶

As mentioned above, the course of AHEI is benign, and the condition resolves within days to weeks. Treatment is supportive.

Dr. Matiz is a pediatric dermatologist at Southern California Permanente Medical Group, San Diego. She had no relevant financial disclosures. Email Dr. Matiz at pdnews@mdedge.com.

References

1. F1000Res. 2019;8:1771.

2. Pediatr Dermatol. 2006 Jul-Aug;23(4):361-4.

3. Pediatr Dermatol. 2015 Nov-Dec;32(6):e309-11.

4. Clin Dermatol. 2017 Nov-Dec;35(6):530-40.

5. Yonsei Med J. 2019 Mar;60(3):312-4.

6. Pediatr Dermatol. 2015 Jul-Aug;32(4):437-46.

A punch biopsy of one of the lesions showed a superficial and deep mixed inflammatory cell infiltrate, including neutrophils and eosinophils. There was also vasculitis, karyorrhexis and extravasated red blood cells. The findings are those of leukocytoclastic vasculitis, suggestive of acute hemorrhagic edema of infancy. Direct immunofluorescence was positive for IgM, C3, and fibrinogen, but negative for IgA.

Acute hemorrhagic edema of infancy (AHEI), also known as Finkelstein disease, is form of leukocytoclastic vasculitis that occurs in infants and toddlers aged between4 months and 3 years.

The lesions start as petechiae or edematous, erythematous to violaceous nodules that later coalesce and form “cockade”-like plaques with a central clearing on the face and extremities. Fever and edema accompany the vasculitic lesions, but children do not appear severely ill. Gastrointestinal, renal, and joint involvement are rare.¹ AHEI follows a benign course with resolution of the lesions and symptoms within days to weeks. The etiology of this condition is not known but infection triggers have been reported including coronavirus infections, coxsackie virus infections, Escherichia coli urinary tract infections, herpes simplex virus stomatitis, and pneumococcal bacteremia.^2,3 Our patient had a prior history of pneumococcal pneumonia and metapneumovirus infection. MMR vaccine also has been reported as a possible trigger, as well as some medications.

Laboratory results are usually normal, but some patients may have elevated inflammatory markers (C-reactive protein and erythrocyte sedimentation rate), as noted in our patient, and leukocytosis, thrombocytosis, and eosinophilia. Microscopic analysis demonstrates leukocytoclastic vasculitis of small vessels with associated karyorrhexis and extravasated red blood cells.

The differential diagnosis includes other vasculitic conditions, primarily Henoch-Schönlein purpura (HSP). Patients with HSP tend to be older in age and the lesions described as palpable purpura commonly affect the lower extremities and buttocks. These patients can present with abdominal pain and arthritis; renal compromise also can occur. Direct immunofluorescence can commonly be positive for IgA, which was negative in our patient.

AHEI and HSP are considered different entities, but both present with leukocytoclastic vasculitis.¹ Another condition to consider in patients with fever, rash, and edema is Kawasaki disease, also a form of vasculitis, that affects small- and medium-size muscular vessels with predilection for the coronary arteries. Patients with Kawasaki disease present with fever (usually longer than 5 days), facial and extremity edema (similar to AHEI), skin lesions (which may have multiple presentations, the most common being macular, papular and erythematous, and urticarial eruptions), but also lymphadenopathy and conjunctivitis. These patients appear sicker than children with AHEI. Their laboratory results show leukocytosis, thrombocytosis or thrombocytopenia, elevated inflammatory markers, and sterile pyuria.⁴

Patients with erythema nodosum present with tender erythematous nodules, which can look like early AHEI lesions. The most common location is the lower extremities, but in children erythema nodosum can occur on the face, trunk, and arms. The lesions can occur secondary to infections such as streptococcus, mycoplasma, tuberculosis, coccidioidomycosis, and sarcoidosis, as well as to malignancy or medications. These patients do not appear sick, are not febrile, and are rarely seen under 2 years of age.⁵

Acute febrile neutrophilic dermatosis – Sweets’ syndrome – also should be considered in a patient with tender nodules, fever, and leukocytosis. The skin lesions in Sweets’ syndrome, compared with those in AHEI, are painful and can present as papules, nodules, and bullae on the face and extremities. A prior history of an upper respiratory infection is commonly described in children with Sweets’ syndrome. These patients present with fever, which may start days to weeks prior to the lesions starting. Children with Sweets’ syndrome also can have conjunctivitis, myalgias, polyarthritis, and in severe cases septic shock and multiorgan dysfunction. Sweets’ syndrome can be seen in patients with inflammatory bowel disease, systemic lupus erythematosus, chronic multifocal osteomyelitis, and malignancy; it also may be induced by certain medications.⁶

As mentioned above, the course of AHEI is benign, and the condition resolves within days to weeks. Treatment is supportive.

Dr. Matiz is a pediatric dermatologist at Southern California Permanente Medical Group, San Diego. She had no relevant financial disclosures. Email Dr. Matiz at pdnews@mdedge.com.

References

1. F1000Res. 2019;8:1771.

2. Pediatr Dermatol. 2006 Jul-Aug;23(4):361-4.

3. Pediatr Dermatol. 2015 Nov-Dec;32(6):e309-11.

4. Clin Dermatol. 2017 Nov-Dec;35(6):530-40.

5. Yonsei Med J. 2019 Mar;60(3):312-4.

6. Pediatr Dermatol. 2015 Jul-Aug;32(4):437-46.

A punch biopsy of one of the lesions showed a superficial and deep mixed inflammatory cell infiltrate, including neutrophils and eosinophils. There was also vasculitis, karyorrhexis and extravasated red blood cells. The findings are those of leukocytoclastic vasculitis, suggestive of acute hemorrhagic edema of infancy. Direct immunofluorescence was positive for IgM, C3, and fibrinogen, but negative for IgA.

Acute hemorrhagic edema of infancy (AHEI), also known as Finkelstein disease, is form of leukocytoclastic vasculitis that occurs in infants and toddlers aged between4 months and 3 years.

The lesions start as petechiae or edematous, erythematous to violaceous nodules that later coalesce and form “cockade”-like plaques with a central clearing on the face and extremities. Fever and edema accompany the vasculitic lesions, but children do not appear severely ill. Gastrointestinal, renal, and joint involvement are rare.¹ AHEI follows a benign course with resolution of the lesions and symptoms within days to weeks. The etiology of this condition is not known but infection triggers have been reported including coronavirus infections, coxsackie virus infections, Escherichia coli urinary tract infections, herpes simplex virus stomatitis, and pneumococcal bacteremia.^2,3 Our patient had a prior history of pneumococcal pneumonia and metapneumovirus infection. MMR vaccine also has been reported as a possible trigger, as well as some medications.

Laboratory results are usually normal, but some patients may have elevated inflammatory markers (C-reactive protein and erythrocyte sedimentation rate), as noted in our patient, and leukocytosis, thrombocytosis, and eosinophilia. Microscopic analysis demonstrates leukocytoclastic vasculitis of small vessels with associated karyorrhexis and extravasated red blood cells.

The differential diagnosis includes other vasculitic conditions, primarily Henoch-Schönlein purpura (HSP). Patients with HSP tend to be older in age and the lesions described as palpable purpura commonly affect the lower extremities and buttocks. These patients can present with abdominal pain and arthritis; renal compromise also can occur. Direct immunofluorescence can commonly be positive for IgA, which was negative in our patient.

AHEI and HSP are considered different entities, but both present with leukocytoclastic vasculitis.¹ Another condition to consider in patients with fever, rash, and edema is Kawasaki disease, also a form of vasculitis, that affects small- and medium-size muscular vessels with predilection for the coronary arteries. Patients with Kawasaki disease present with fever (usually longer than 5 days), facial and extremity edema (similar to AHEI), skin lesions (which may have multiple presentations, the most common being macular, papular and erythematous, and urticarial eruptions), but also lymphadenopathy and conjunctivitis. These patients appear sicker than children with AHEI. Their laboratory results show leukocytosis, thrombocytosis or thrombocytopenia, elevated inflammatory markers, and sterile pyuria.⁴

Patients with erythema nodosum present with tender erythematous nodules, which can look like early AHEI lesions. The most common location is the lower extremities, but in children erythema nodosum can occur on the face, trunk, and arms. The lesions can occur secondary to infections such as streptococcus, mycoplasma, tuberculosis, coccidioidomycosis, and sarcoidosis, as well as to malignancy or medications. These patients do not appear sick, are not febrile, and are rarely seen under 2 years of age.⁵

Acute febrile neutrophilic dermatosis – Sweets’ syndrome – also should be considered in a patient with tender nodules, fever, and leukocytosis. The skin lesions in Sweets’ syndrome, compared with those in AHEI, are painful and can present as papules, nodules, and bullae on the face and extremities. A prior history of an upper respiratory infection is commonly described in children with Sweets’ syndrome. These patients present with fever, which may start days to weeks prior to the lesions starting. Children with Sweets’ syndrome also can have conjunctivitis, myalgias, polyarthritis, and in severe cases septic shock and multiorgan dysfunction. Sweets’ syndrome can be seen in patients with inflammatory bowel disease, systemic lupus erythematosus, chronic multifocal osteomyelitis, and malignancy; it also may be induced by certain medications.⁶

As mentioned above, the course of AHEI is benign, and the condition resolves within days to weeks. Treatment is supportive.

Dr. Matiz is a pediatric dermatologist at Southern California Permanente Medical Group, San Diego. She had no relevant financial disclosures. Email Dr. Matiz at pdnews@mdedge.com.

References

1. F1000Res. 2019;8:1771.

2. Pediatr Dermatol. 2006 Jul-Aug;23(4):361-4.

3. Pediatr Dermatol. 2015 Nov-Dec;32(6):e309-11.

4. Clin Dermatol. 2017 Nov-Dec;35(6):530-40.

5. Yonsei Med J. 2019 Mar;60(3):312-4.

6. Pediatr Dermatol. 2015 Jul-Aug;32(4):437-46.

At a follow-up visit, a biopsy of the skin on the fingertips was performed, which showed lichenoid lymphocytic inflammatory infiltrate with associated hyperkeratosis, hypergranulosis, and acanthosis.

No fungal elements were seen. The findings were consistent with lichen planus.

Courtesy Dr. Catalina Matiz

Nail lichen planus (NLP) in children is not a common condition.¹ In a recent series from Chiheb et al., NLP was reported in 90 patients, of which 40% were children; a quarter of the patients reported having extracutaneous involvement as well.² In another childhood LP series,14 % of the children presented with nail disease.³ It can be a severe disease that, if not treated aggressively, may lead to destruction of the nail bed. This condition seems to be more prevalent in boys than girls and more prevalent in African American children.³ Unfortunately, in this patient’s case, the mother was hesitant to use systemic therapy and aggressive treatment was delayed.

Possible but not clear associations with autoimmune conditions such as vitiligo, autoimmune thyroiditis, myasthenia gravis, alopecia areata, thymoma, autoimmune polyendocrinopathy, atopic dermatitis, and lichen nitidus have been described in children with LP.

The clinical characteristics of NLP include nail plate thinning with longitudinal ridging and fissuring, with or without pterygium; trachyonychia; and erythema of the lunula when the nail matrix is involved. When the nail bed is affected, the patient can present with onycholysis with or without subungual hyperkeratosis and violaceous hue of the nail bed.⁴ NLP can have three different clinical presentations described by Tosti et al., which include typical NLP, 20‐nail dystrophy (trachyonychia), and idiopathic nail atrophy. Idiopathic nail atrophy is described solely in children as an acute and rapid progression that leads to destruction of the nail within months, which appears to be the clinical presentation in our patient.

The differential diagnosis of nail dystrophy in children includes infectious processes such as onychomycosis, especially when children present with onycholysis and subungual hyperkeratosis. Because of this, it is recommended to perform a nail culture or submit a sample of nail clippings for microscopic evaluation to confirm the diagnosis of onychomycosis prior to starting systemic therapy in children. Fingernail involvement without toenail involvement is an unusual presentation of onychomycosis.

Twenty-nail dystrophy – also known as trachyonychia – can be caused by several inflammatory skin conditions such as lichen planus, psoriasis, eczema, pemphigus vulgaris, and alopecia areata. Clinically, there is uniformly monomorphic thinning of the nail plate with longitudinal ridging without splitting or pterygium.¹ This is a benign condition and should not cause scarring. About 10% of the cases of 20-nail dystrophy are caused by lichen planus.

Nail psoriasis is characterized by nail pitting, oil spots on the nail plate, leukonychia, subungual hyperkeratosis, and onycholysis, as well as nail crumbling, which were not seen in our patient. Although her initial presentation was of 20-nail dystrophy, which also can be a presentation of nail psoriasis, its rapid evolution with associated nail atrophy and pterygium make it unlikely to be psoriasis in this particular patient.

Patients with pachyonychia congenita – which is a genetic disorder or keratinization caused by mutations on several genes encoding keratin such as K6a, K16, K17, K6b, and possibly K6c – present with nail thickening (pachyonychia) and discoloration of the nails, as well as pincer nails. These patients also present with oral leukokeratosis and focal palmoplantar keratoderma.

The main treatment of lichen planus is potent topical corticosteroids.

For nail disease, topical treatment may not be effective and systemic treatment may be necessary. Systemic corticosteroids have been used in several pediatric series varying from a short course given at a dose of 1- 2 mg/kg per day for 2 weeks to a longer 3-month course followed by tapering.³ There are several protocols of intramuscular triamcinolone at a dose of 0.5 mg/kg in children in once a month injections for about 3 months that have been reported successful with minimal side effects.¹ Other medications reported useful in patients with NLP include dapsone and acitretin. Other treatment options include narrow-band UVB and PUVA.³

Dr. Matiz is a pediatric dermatologist at Southern California Permanente Medical Group, San Diego. Email her at pdnews@mdedge.com.

References

1. Arch Dermatol. 2001 Aug;137(8):1027-32.

2. Ann Dermatol Venereol. 2015 Jan;142(1):21-5.

3. Pediatr Dermatol. 2014 Jan-Feb;31(1):59-67.

4. Dermatological diseases, in “Nails: Diagnosis, Therapy, and Surgery,” 3rd ed. (Oxford: Elsevier Saunders, 2005, p. 105).

At a follow-up visit, a biopsy of the skin on the fingertips was performed, which showed lichenoid lymphocytic inflammatory infiltrate with associated hyperkeratosis, hypergranulosis, and acanthosis.

No fungal elements were seen. The findings were consistent with lichen planus.

Courtesy Dr. Catalina Matiz

Nail lichen planus (NLP) in children is not a common condition.¹ In a recent series from Chiheb et al., NLP was reported in 90 patients, of which 40% were children; a quarter of the patients reported having extracutaneous involvement as well.² In another childhood LP series,14 % of the children presented with nail disease.³ It can be a severe disease that, if not treated aggressively, may lead to destruction of the nail bed. This condition seems to be more prevalent in boys than girls and more prevalent in African American children.³ Unfortunately, in this patient’s case, the mother was hesitant to use systemic therapy and aggressive treatment was delayed.

Possible but not clear associations with autoimmune conditions such as vitiligo, autoimmune thyroiditis, myasthenia gravis, alopecia areata, thymoma, autoimmune polyendocrinopathy, atopic dermatitis, and lichen nitidus have been described in children with LP.

The clinical characteristics of NLP include nail plate thinning with longitudinal ridging and fissuring, with or without pterygium; trachyonychia; and erythema of the lunula when the nail matrix is involved. When the nail bed is affected, the patient can present with onycholysis with or without subungual hyperkeratosis and violaceous hue of the nail bed.⁴ NLP can have three different clinical presentations described by Tosti et al., which include typical NLP, 20‐nail dystrophy (trachyonychia), and idiopathic nail atrophy. Idiopathic nail atrophy is described solely in children as an acute and rapid progression that leads to destruction of the nail within months, which appears to be the clinical presentation in our patient.

The differential diagnosis of nail dystrophy in children includes infectious processes such as onychomycosis, especially when children present with onycholysis and subungual hyperkeratosis. Because of this, it is recommended to perform a nail culture or submit a sample of nail clippings for microscopic evaluation to confirm the diagnosis of onychomycosis prior to starting systemic therapy in children. Fingernail involvement without toenail involvement is an unusual presentation of onychomycosis.

Twenty-nail dystrophy – also known as trachyonychia – can be caused by several inflammatory skin conditions such as lichen planus, psoriasis, eczema, pemphigus vulgaris, and alopecia areata. Clinically, there is uniformly monomorphic thinning of the nail plate with longitudinal ridging without splitting or pterygium.¹ This is a benign condition and should not cause scarring. About 10% of the cases of 20-nail dystrophy are caused by lichen planus.

Nail psoriasis is characterized by nail pitting, oil spots on the nail plate, leukonychia, subungual hyperkeratosis, and onycholysis, as well as nail crumbling, which were not seen in our patient. Although her initial presentation was of 20-nail dystrophy, which also can be a presentation of nail psoriasis, its rapid evolution with associated nail atrophy and pterygium make it unlikely to be psoriasis in this particular patient.

Patients with pachyonychia congenita – which is a genetic disorder or keratinization caused by mutations on several genes encoding keratin such as K6a, K16, K17, K6b, and possibly K6c – present with nail thickening (pachyonychia) and discoloration of the nails, as well as pincer nails. These patients also present with oral leukokeratosis and focal palmoplantar keratoderma.

The main treatment of lichen planus is potent topical corticosteroids.

For nail disease, topical treatment may not be effective and systemic treatment may be necessary. Systemic corticosteroids have been used in several pediatric series varying from a short course given at a dose of 1- 2 mg/kg per day for 2 weeks to a longer 3-month course followed by tapering.³ There are several protocols of intramuscular triamcinolone at a dose of 0.5 mg/kg in children in once a month injections for about 3 months that have been reported successful with minimal side effects.¹ Other medications reported useful in patients with NLP include dapsone and acitretin. Other treatment options include narrow-band UVB and PUVA.³

Dr. Matiz is a pediatric dermatologist at Southern California Permanente Medical Group, San Diego. Email her at pdnews@mdedge.com.

References

1. Arch Dermatol. 2001 Aug;137(8):1027-32.

2. Ann Dermatol Venereol. 2015 Jan;142(1):21-5.

3. Pediatr Dermatol. 2014 Jan-Feb;31(1):59-67.

4. Dermatological diseases, in “Nails: Diagnosis, Therapy, and Surgery,” 3rd ed. (Oxford: Elsevier Saunders, 2005, p. 105).

At a follow-up visit, a biopsy of the skin on the fingertips was performed, which showed lichenoid lymphocytic inflammatory infiltrate with associated hyperkeratosis, hypergranulosis, and acanthosis.

No fungal elements were seen. The findings were consistent with lichen planus.

Courtesy Dr. Catalina Matiz

Nail lichen planus (NLP) in children is not a common condition.¹ In a recent series from Chiheb et al., NLP was reported in 90 patients, of which 40% were children; a quarter of the patients reported having extracutaneous involvement as well.² In another childhood LP series,14 % of the children presented with nail disease.³ It can be a severe disease that, if not treated aggressively, may lead to destruction of the nail bed. This condition seems to be more prevalent in boys than girls and more prevalent in African American children.³ Unfortunately, in this patient’s case, the mother was hesitant to use systemic therapy and aggressive treatment was delayed.

Possible but not clear associations with autoimmune conditions such as vitiligo, autoimmune thyroiditis, myasthenia gravis, alopecia areata, thymoma, autoimmune polyendocrinopathy, atopic dermatitis, and lichen nitidus have been described in children with LP.

The clinical characteristics of NLP include nail plate thinning with longitudinal ridging and fissuring, with or without pterygium; trachyonychia; and erythema of the lunula when the nail matrix is involved. When the nail bed is affected, the patient can present with onycholysis with or without subungual hyperkeratosis and violaceous hue of the nail bed.⁴ NLP can have three different clinical presentations described by Tosti et al., which include typical NLP, 20‐nail dystrophy (trachyonychia), and idiopathic nail atrophy. Idiopathic nail atrophy is described solely in children as an acute and rapid progression that leads to destruction of the nail within months, which appears to be the clinical presentation in our patient.

The differential diagnosis of nail dystrophy in children includes infectious processes such as onychomycosis, especially when children present with onycholysis and subungual hyperkeratosis. Because of this, it is recommended to perform a nail culture or submit a sample of nail clippings for microscopic evaluation to confirm the diagnosis of onychomycosis prior to starting systemic therapy in children. Fingernail involvement without toenail involvement is an unusual presentation of onychomycosis.

Twenty-nail dystrophy – also known as trachyonychia – can be caused by several inflammatory skin conditions such as lichen planus, psoriasis, eczema, pemphigus vulgaris, and alopecia areata. Clinically, there is uniformly monomorphic thinning of the nail plate with longitudinal ridging without splitting or pterygium.¹ This is a benign condition and should not cause scarring. About 10% of the cases of 20-nail dystrophy are caused by lichen planus.

Nail psoriasis is characterized by nail pitting, oil spots on the nail plate, leukonychia, subungual hyperkeratosis, and onycholysis, as well as nail crumbling, which were not seen in our patient. Although her initial presentation was of 20-nail dystrophy, which also can be a presentation of nail psoriasis, its rapid evolution with associated nail atrophy and pterygium make it unlikely to be psoriasis in this particular patient.

Patients with pachyonychia congenita – which is a genetic disorder or keratinization caused by mutations on several genes encoding keratin such as K6a, K16, K17, K6b, and possibly K6c – present with nail thickening (pachyonychia) and discoloration of the nails, as well as pincer nails. These patients also present with oral leukokeratosis and focal palmoplantar keratoderma.

The main treatment of lichen planus is potent topical corticosteroids.

For nail disease, topical treatment may not be effective and systemic treatment may be necessary. Systemic corticosteroids have been used in several pediatric series varying from a short course given at a dose of 1- 2 mg/kg per day for 2 weeks to a longer 3-month course followed by tapering.³ There are several protocols of intramuscular triamcinolone at a dose of 0.5 mg/kg in children in once a month injections for about 3 months that have been reported successful with minimal side effects.¹ Other medications reported useful in patients with NLP include dapsone and acitretin. Other treatment options include narrow-band UVB and PUVA.³

Dr. Matiz is a pediatric dermatologist at Southern California Permanente Medical Group, San Diego. Email her at pdnews@mdedge.com.

References

1. Arch Dermatol. 2001 Aug;137(8):1027-32.

2. Ann Dermatol Venereol. 2015 Jan;142(1):21-5.

3. Pediatr Dermatol. 2014 Jan-Feb;31(1):59-67.

4. Dermatological diseases, in “Nails: Diagnosis, Therapy, and Surgery,” 3rd ed. (Oxford: Elsevier Saunders, 2005, p. 105).

A skin biopsy of one of the lesions showed granulomatous inflammation composed of lymphocytes, macrophages, and giant cells around hair follicles with negative mycobacterium stains and fungal stains, consistent with granulomatous periorificial dermatitis. Tissue cultures from a skin biopsy for aerobic bacteria, mycobacteria, and fungus all were negative.

The patient initially was treated with erythromycin, but after 2 weeks, he reported abdominal pain and nausea and was unable to tolerate the medication. He was switched to clarithromycin, which he took for 6 weeks with clearance of the lesions.

A year later, some of the lesions recurred. He was treated again with clarithromycin and the lesions resolved.

Childhood granulomatous periorificial dermatitis (CGPD) is a benign skin eruption that occurs in prepubertal children. It also has been called facial Afro-Caribbean childhood eruption (FACE), and it tends to occur most commonly in children of darker skin types.¹CGPD is characterized by dome shape, monomorphous papules ranging from skin color to pink around the eyes, nose, and mouth, but there are some cases reported of extra facial involvement.² The lesions usually are not symptomatic, and they are more common in boys. The cause of this condition is not known, but possible triggers could include prior exposure to topical and systemic corticosteroids, as well as exposure to certain allergens such as formaldehyde.¹

In histopathology, the lesions are characterized by granulomatous infiltrates around the hair follicles and the upper dermis. The granulomas are formed of macrophages, lymphocytes, and giant cell, as were seen in our patient.³

Several conditions can look very similar to CGPD; these include sarcoidosis, lupus miliaris disseminatus faciei (LMDF), and granulomatous rosacea.

Sarcoidosis is a rare condition in children, and the lesions can be similar to the ones seen in our patient. Patients with sarcoidosis usually present with other systemic symptoms including fever, weight loss, respiratory symptoms, and fatigue; none of these were seen in our patient. Under the microscope, the lesions are characterized by “naked granulomas” instead of the inflammatory granulomas seen on our patient.

Lupus miliaris disseminatus faciei is a rare inflammatory skin condition commonly seen in young adults and is thought to be a variant of rosacea. It is characterized by skin-color to pink to yellow dome-shaped papules on the central face. Histologically, the lesions present as dermal epithelioid cell granulomas with central necrosis and surrounding lymphocytic infiltrate with multinucleate giant cells.⁴

Granulomatous rosacea and CGPD are considered two separate entities. Granulomatous rosacea tends to have a more chronic course, is not that common in children, and clinically presents with pustules, papules, and cysts around the eyes and cheeks.

Infectious processes like tuberculosis and fungal infections were ruled out in our patient with cultures and histopathology. Allergic contact dermatitis on the face can present with skin-color to pink papules, but they usually are very pruritic and improve with topical corticosteroids, while these medications can worsen CGPD.

CGPD can be a self-limiting condition. When mild, it can be treated with topical metronidazole, topical erythromycin, topical clindamycin solution, or pimecrolimus. Our patient failed treatment with pimecrolimus. For severe presentations, oral tetracyclines, erythromycin, and other macrolides, metronidazole, and oral isotretinoin can help clear the lesions.⁵
 

Dr. Matiz is a pediatric dermatologist at Southern California Permanente Medical Group, San Diego. She said she had no relevant financial disclosures. Email her at pdnews@mdedge.com.

References

1. Ann Dermatol. 2011 Aug;23(3):386-8.

2. Int J Dermatol. 2007 Feb;46(2):143-5.

3. J Cutan Med Surg. 2009 Feb 28;13(2):115-8.

4. An Bras Dermatol. 2017 Nov-Dec;92(6):851-3.

5. Indian Dermatol Online J. 2018 Jan-Feb; 9(1):68-70.

A skin biopsy of one of the lesions showed granulomatous inflammation composed of lymphocytes, macrophages, and giant cells around hair follicles with negative mycobacterium stains and fungal stains, consistent with granulomatous periorificial dermatitis. Tissue cultures from a skin biopsy for aerobic bacteria, mycobacteria, and fungus all were negative.

The patient initially was treated with erythromycin, but after 2 weeks, he reported abdominal pain and nausea and was unable to tolerate the medication. He was switched to clarithromycin, which he took for 6 weeks with clearance of the lesions.

A year later, some of the lesions recurred. He was treated again with clarithromycin and the lesions resolved.

Childhood granulomatous periorificial dermatitis (CGPD) is a benign skin eruption that occurs in prepubertal children. It also has been called facial Afro-Caribbean childhood eruption (FACE), and it tends to occur most commonly in children of darker skin types.¹CGPD is characterized by dome shape, monomorphous papules ranging from skin color to pink around the eyes, nose, and mouth, but there are some cases reported of extra facial involvement.² The lesions usually are not symptomatic, and they are more common in boys. The cause of this condition is not known, but possible triggers could include prior exposure to topical and systemic corticosteroids, as well as exposure to certain allergens such as formaldehyde.¹

In histopathology, the lesions are characterized by granulomatous infiltrates around the hair follicles and the upper dermis. The granulomas are formed of macrophages, lymphocytes, and giant cell, as were seen in our patient.³

Several conditions can look very similar to CGPD; these include sarcoidosis, lupus miliaris disseminatus faciei (LMDF), and granulomatous rosacea.

Sarcoidosis is a rare condition in children, and the lesions can be similar to the ones seen in our patient. Patients with sarcoidosis usually present with other systemic symptoms including fever, weight loss, respiratory symptoms, and fatigue; none of these were seen in our patient. Under the microscope, the lesions are characterized by “naked granulomas” instead of the inflammatory granulomas seen on our patient.

Lupus miliaris disseminatus faciei is a rare inflammatory skin condition commonly seen in young adults and is thought to be a variant of rosacea. It is characterized by skin-color to pink to yellow dome-shaped papules on the central face. Histologically, the lesions present as dermal epithelioid cell granulomas with central necrosis and surrounding lymphocytic infiltrate with multinucleate giant cells.⁴

Granulomatous rosacea and CGPD are considered two separate entities. Granulomatous rosacea tends to have a more chronic course, is not that common in children, and clinically presents with pustules, papules, and cysts around the eyes and cheeks.

Infectious processes like tuberculosis and fungal infections were ruled out in our patient with cultures and histopathology. Allergic contact dermatitis on the face can present with skin-color to pink papules, but they usually are very pruritic and improve with topical corticosteroids, while these medications can worsen CGPD.

CGPD can be a self-limiting condition. When mild, it can be treated with topical metronidazole, topical erythromycin, topical clindamycin solution, or pimecrolimus. Our patient failed treatment with pimecrolimus. For severe presentations, oral tetracyclines, erythromycin, and other macrolides, metronidazole, and oral isotretinoin can help clear the lesions.⁵
 

Dr. Matiz is a pediatric dermatologist at Southern California Permanente Medical Group, San Diego. She said she had no relevant financial disclosures. Email her at pdnews@mdedge.com.

References

1. Ann Dermatol. 2011 Aug;23(3):386-8.

2. Int J Dermatol. 2007 Feb;46(2):143-5.

3. J Cutan Med Surg. 2009 Feb 28;13(2):115-8.

4. An Bras Dermatol. 2017 Nov-Dec;92(6):851-3.

5. Indian Dermatol Online J. 2018 Jan-Feb; 9(1):68-70.

A skin biopsy of one of the lesions showed granulomatous inflammation composed of lymphocytes, macrophages, and giant cells around hair follicles with negative mycobacterium stains and fungal stains, consistent with granulomatous periorificial dermatitis. Tissue cultures from a skin biopsy for aerobic bacteria, mycobacteria, and fungus all were negative.

The patient initially was treated with erythromycin, but after 2 weeks, he reported abdominal pain and nausea and was unable to tolerate the medication. He was switched to clarithromycin, which he took for 6 weeks with clearance of the lesions.

A year later, some of the lesions recurred. He was treated again with clarithromycin and the lesions resolved.

Childhood granulomatous periorificial dermatitis (CGPD) is a benign skin eruption that occurs in prepubertal children. It also has been called facial Afro-Caribbean childhood eruption (FACE), and it tends to occur most commonly in children of darker skin types.¹CGPD is characterized by dome shape, monomorphous papules ranging from skin color to pink around the eyes, nose, and mouth, but there are some cases reported of extra facial involvement.² The lesions usually are not symptomatic, and they are more common in boys. The cause of this condition is not known, but possible triggers could include prior exposure to topical and systemic corticosteroids, as well as exposure to certain allergens such as formaldehyde.¹

In histopathology, the lesions are characterized by granulomatous infiltrates around the hair follicles and the upper dermis. The granulomas are formed of macrophages, lymphocytes, and giant cell, as were seen in our patient.³

Several conditions can look very similar to CGPD; these include sarcoidosis, lupus miliaris disseminatus faciei (LMDF), and granulomatous rosacea.

Sarcoidosis is a rare condition in children, and the lesions can be similar to the ones seen in our patient. Patients with sarcoidosis usually present with other systemic symptoms including fever, weight loss, respiratory symptoms, and fatigue; none of these were seen in our patient. Under the microscope, the lesions are characterized by “naked granulomas” instead of the inflammatory granulomas seen on our patient.

Lupus miliaris disseminatus faciei is a rare inflammatory skin condition commonly seen in young adults and is thought to be a variant of rosacea. It is characterized by skin-color to pink to yellow dome-shaped papules on the central face. Histologically, the lesions present as dermal epithelioid cell granulomas with central necrosis and surrounding lymphocytic infiltrate with multinucleate giant cells.⁴

Granulomatous rosacea and CGPD are considered two separate entities. Granulomatous rosacea tends to have a more chronic course, is not that common in children, and clinically presents with pustules, papules, and cysts around the eyes and cheeks.

Infectious processes like tuberculosis and fungal infections were ruled out in our patient with cultures and histopathology. Allergic contact dermatitis on the face can present with skin-color to pink papules, but they usually are very pruritic and improve with topical corticosteroids, while these medications can worsen CGPD.

CGPD can be a self-limiting condition. When mild, it can be treated with topical metronidazole, topical erythromycin, topical clindamycin solution, or pimecrolimus. Our patient failed treatment with pimecrolimus. For severe presentations, oral tetracyclines, erythromycin, and other macrolides, metronidazole, and oral isotretinoin can help clear the lesions.⁵
 

Dr. Matiz is a pediatric dermatologist at Southern California Permanente Medical Group, San Diego. She said she had no relevant financial disclosures. Email her at pdnews@mdedge.com.

References

1. Ann Dermatol. 2011 Aug;23(3):386-8.

2. Int J Dermatol. 2007 Feb;46(2):143-5.

3. J Cutan Med Surg. 2009 Feb 28;13(2):115-8.

4. An Bras Dermatol. 2017 Nov-Dec;92(6):851-3.

5. Indian Dermatol Online J. 2018 Jan-Feb; 9(1):68-70.