Cynthia A. Smith, DNP, APRN, FNP-Bc

Q)  I am getting calls from patients saying they heard a “stomach medicine” would hurt their kidneys. What is the basis, and how should I respond?

Emerging evidence is suggestive of a causal association between proton pump inhibitor (PPI) use and acute kidney injury/interstitial nephritis. Acute kidney injury is defined as either a decrease in urine output to less than 0.5 mL/kg/h for six hours, a rise in serum creatinine of 0.3 mg/dL or more within 48 hours, or an increase in creatinine of 50% or more above baseline within a week. Acute interstitial nephritis is often definitively diagnosed by renal biopsy, with findings of acute inflammatory cells, interstitial edema, and infiltration. Medications are the most common etiology for acute interstitial nephritis and account for more than 75% of cases.⁵

According to results published in the American Journal of Kidney Diseases, a retrospective study of 133 biopsy-proven cases of acute interstitial nephritis found 70% were associated with medication use. Of these, 14% were linked to use of a PPI (other drug culprits included antibiotics and NSAIDs, responsible for 49% and 11% of cases, respectively). Overall, omeprazole was the top drug cause, at 12%.⁶

In a nested case-control study of 572,661 subjects (mean age, 65.4) taking either lansoprazole, omeprazole, or pantoprazole, 46 definite cases and 26 probable cases of first-time acute interstitial nephritis were identified. Omeprazole was the most commonly dispensed PPI in this study. The crude incidence rate per 100,000 person-years for current use of a PPI was 11.98 and for past use, 1.68.⁷

Another nested case-control study of 184,480 subjects (ages 18 and older) reported 854 ­cases of acute kidney injury, with a positive association between use of a PPI and development of renal disease, even after controlling for confounding factors (P < .0001). Of note, no significant relationship was found between acute renal injury and use of H₂ blocker therapy.⁸—CAS 

Cynthia A. Smith, DNP, APRN, FNP-BC
Renal Consultants PLLC, South Charleston, West Virginia

REFERENCES
1. Velazquez H, Perazella MA, Wright FS, Ellison DH. Renal mechanism of trimethoprim-induced hyperkalemia. Ann Intern Med. 1993;119:296-301.
2. Horn JR, Hansten PD. Trimethoprim and potassium-sparing drugs: a risk for hyperkalemia. www.pharmacytimes.com/publications/issue/2011/February2011/DrugInteractions-0211. Accessed August 24, 2015.
3. Medina I, Mills J, Leoung G, et al. Oral therapy for Pneumocystis carinii pneumonia in the acquired immunodeficiency syndrome: a controlled trial of trimethoprim-sulfamethoxazole versus trimethoprim-dapsone. N Engl J Med. 1990;323:776-782.
4. Fralick M, Macdonald EM, Gomes T, et al. Co-trimoxazole and sudden death in patients receiving inhibitors of renin-angiotensin system: population based study. BMJ. 2014;349:g6196.
5. Gilbert SJ, Weiner DE, Gipson DS, et al. National Kidney Foundation’s Primer on Kidney Diseases. Philadelphia, PA: Elsevier; 2014.
6. Muriithi AK, Leung N, Valeri AM, et al. Biopsy-proven acute interstitial nephritis, 1993-2011: a case series. Am J Kidney Dis. 2014;64(4):558-566.
7. Blank ML, Parkin L, Paul C, Herbison P. A nationwide nested case-control study indicates an increased risk of acute interstitial nephritis with proton pump inhibitor use. Kidney Int. 2014;86(4):837-844.
8. Klepser DG, Collier DS, Cochran GL. Proton pump inhibitors and acute kidney injury: a nested case-control study.  BMC Nephrology. 2013;14:150.

Q)  I am getting calls from patients saying they heard a “stomach medicine” would hurt their kidneys. What is the basis, and how should I respond?

Emerging evidence is suggestive of a causal association between proton pump inhibitor (PPI) use and acute kidney injury/interstitial nephritis. Acute kidney injury is defined as either a decrease in urine output to less than 0.5 mL/kg/h for six hours, a rise in serum creatinine of 0.3 mg/dL or more within 48 hours, or an increase in creatinine of 50% or more above baseline within a week. Acute interstitial nephritis is often definitively diagnosed by renal biopsy, with findings of acute inflammatory cells, interstitial edema, and infiltration. Medications are the most common etiology for acute interstitial nephritis and account for more than 75% of cases.⁵

According to results published in the American Journal of Kidney Diseases, a retrospective study of 133 biopsy-proven cases of acute interstitial nephritis found 70% were associated with medication use. Of these, 14% were linked to use of a PPI (other drug culprits included antibiotics and NSAIDs, responsible for 49% and 11% of cases, respectively). Overall, omeprazole was the top drug cause, at 12%.⁶

In a nested case-control study of 572,661 subjects (mean age, 65.4) taking either lansoprazole, omeprazole, or pantoprazole, 46 definite cases and 26 probable cases of first-time acute interstitial nephritis were identified. Omeprazole was the most commonly dispensed PPI in this study. The crude incidence rate per 100,000 person-years for current use of a PPI was 11.98 and for past use, 1.68.⁷

Another nested case-control study of 184,480 subjects (ages 18 and older) reported 854 ­cases of acute kidney injury, with a positive association between use of a PPI and development of renal disease, even after controlling for confounding factors (P < .0001). Of note, no significant relationship was found between acute renal injury and use of H₂ blocker therapy.⁸—CAS 

Cynthia A. Smith, DNP, APRN, FNP-BC
Renal Consultants PLLC, South Charleston, West Virginia

REFERENCES
1. Velazquez H, Perazella MA, Wright FS, Ellison DH. Renal mechanism of trimethoprim-induced hyperkalemia. Ann Intern Med. 1993;119:296-301.
2. Horn JR, Hansten PD. Trimethoprim and potassium-sparing drugs: a risk for hyperkalemia. www.pharmacytimes.com/publications/issue/2011/February2011/DrugInteractions-0211. Accessed August 24, 2015.
3. Medina I, Mills J, Leoung G, et al. Oral therapy for Pneumocystis carinii pneumonia in the acquired immunodeficiency syndrome: a controlled trial of trimethoprim-sulfamethoxazole versus trimethoprim-dapsone. N Engl J Med. 1990;323:776-782.
4. Fralick M, Macdonald EM, Gomes T, et al. Co-trimoxazole and sudden death in patients receiving inhibitors of renin-angiotensin system: population based study. BMJ. 2014;349:g6196.
5. Gilbert SJ, Weiner DE, Gipson DS, et al. National Kidney Foundation’s Primer on Kidney Diseases. Philadelphia, PA: Elsevier; 2014.
6. Muriithi AK, Leung N, Valeri AM, et al. Biopsy-proven acute interstitial nephritis, 1993-2011: a case series. Am J Kidney Dis. 2014;64(4):558-566.
7. Blank ML, Parkin L, Paul C, Herbison P. A nationwide nested case-control study indicates an increased risk of acute interstitial nephritis with proton pump inhibitor use. Kidney Int. 2014;86(4):837-844.
8. Klepser DG, Collier DS, Cochran GL. Proton pump inhibitors and acute kidney injury: a nested case-control study.  BMC Nephrology. 2013;14:150.

Q)  I am getting calls from patients saying they heard a “stomach medicine” would hurt their kidneys. What is the basis, and how should I respond?

Emerging evidence is suggestive of a causal association between proton pump inhibitor (PPI) use and acute kidney injury/interstitial nephritis. Acute kidney injury is defined as either a decrease in urine output to less than 0.5 mL/kg/h for six hours, a rise in serum creatinine of 0.3 mg/dL or more within 48 hours, or an increase in creatinine of 50% or more above baseline within a week. Acute interstitial nephritis is often definitively diagnosed by renal biopsy, with findings of acute inflammatory cells, interstitial edema, and infiltration. Medications are the most common etiology for acute interstitial nephritis and account for more than 75% of cases.⁵

According to results published in the American Journal of Kidney Diseases, a retrospective study of 133 biopsy-proven cases of acute interstitial nephritis found 70% were associated with medication use. Of these, 14% were linked to use of a PPI (other drug culprits included antibiotics and NSAIDs, responsible for 49% and 11% of cases, respectively). Overall, omeprazole was the top drug cause, at 12%.⁶

In a nested case-control study of 572,661 subjects (mean age, 65.4) taking either lansoprazole, omeprazole, or pantoprazole, 46 definite cases and 26 probable cases of first-time acute interstitial nephritis were identified. Omeprazole was the most commonly dispensed PPI in this study. The crude incidence rate per 100,000 person-years for current use of a PPI was 11.98 and for past use, 1.68.⁷

Another nested case-control study of 184,480 subjects (ages 18 and older) reported 854 ­cases of acute kidney injury, with a positive association between use of a PPI and development of renal disease, even after controlling for confounding factors (P < .0001). Of note, no significant relationship was found between acute renal injury and use of H₂ blocker therapy.⁸—CAS 

Cynthia A. Smith, DNP, APRN, FNP-BC
Renal Consultants PLLC, South Charleston, West Virginia

REFERENCES
1. Velazquez H, Perazella MA, Wright FS, Ellison DH. Renal mechanism of trimethoprim-induced hyperkalemia. Ann Intern Med. 1993;119:296-301.
2. Horn JR, Hansten PD. Trimethoprim and potassium-sparing drugs: a risk for hyperkalemia. www.pharmacytimes.com/publications/issue/2011/February2011/DrugInteractions-0211. Accessed August 24, 2015.
3. Medina I, Mills J, Leoung G, et al. Oral therapy for Pneumocystis carinii pneumonia in the acquired immunodeficiency syndrome: a controlled trial of trimethoprim-sulfamethoxazole versus trimethoprim-dapsone. N Engl J Med. 1990;323:776-782.
4. Fralick M, Macdonald EM, Gomes T, et al. Co-trimoxazole and sudden death in patients receiving inhibitors of renin-angiotensin system: population based study. BMJ. 2014;349:g6196.
5. Gilbert SJ, Weiner DE, Gipson DS, et al. National Kidney Foundation’s Primer on Kidney Diseases. Philadelphia, PA: Elsevier; 2014.
6. Muriithi AK, Leung N, Valeri AM, et al. Biopsy-proven acute interstitial nephritis, 1993-2011: a case series. Am J Kidney Dis. 2014;64(4):558-566.
7. Blank ML, Parkin L, Paul C, Herbison P. A nationwide nested case-control study indicates an increased risk of acute interstitial nephritis with proton pump inhibitor use. Kidney Int. 2014;86(4):837-844.
8. Klepser DG, Collier DS, Cochran GL. Proton pump inhibitors and acute kidney injury: a nested case-control study.  BMC Nephrology. 2013;14:150.

Q) One of my patients came in and said he had read that vitamin D supplementation will help with hypertension. Now he wants to quit his blood pressure meds and use vitamin D instead. Do you have any background on this?

Vitamin D is critical for utilization of calcium, a vital nutrient for multiple metabolic and cellular processes; deficiency is associated with worsening of autoimmune disorders, osteoporosis, and certain cardiovascular conditions, among others.⁷ An association between vitamin D level and blood pressure has been recognized for some time, but the pathophysiology is not well understood.

A literature review of studies from 1988 to 2013 found contradictory results regarding vitamin D deficiency and concurrent elevated blood pressure (systolic and/or diastolic), as well as the impact on blood pressure with restoration of vitamin D levels. The findings were limited by several factors, including differences in study design, variables evaluated, and type of vitamin D compound used. The results suggested a link between the renin-angiotensin-aldosterone system, fibroblast growth factor 23/klotho axis, and vitamin D level.⁸

A study of 158 subjects (98 with newly diagnosed essential hypertension, 60 with normal blood pressure) found significantly lower 25(OH)D3 serum levels in hypertensive patients. Furthermore, the 25(OH)D3 level was significantly correlated with both systolic (r = –0.33) and diastolic blood pressure (r = –0.26). Using multiple regression analysis, after adjustment for age, smoking status, and BMI, the impact of 25(OH)D3 level accounted for 10% of the variation in systolic blood pressure.⁹

In a mendelian randomization study of 108,173 subjects from 35 studies, an inverse association between vitamin D level and systolic blood pressure (P = .0003) was found. A reduced risk for essential hypertension with increased vitamin D level (P = .0003) was also noted. However, no association was found between increasing vitamin D level and a reduction in diastolic blood pressure
(P = .37).¹⁰

With the ever-increasing access to health information from sources such as “Doctor Google,” it can be difficult for a non–health care professional to separate hype from evidence-based recommendations. While current evidence suggests optimal vitamin D levels may be beneficial for improving blood pressure control and may be a useful adjunctive therapy, there is no evidence to support discontinuing antihypertensive therapy and replacing it with vitamin D therapy.

Cynthia A. Smith, DNP, APRN, FNP-BC
Renal Consultants, South Charleston, West Virginia

REFERENCES
1. Monfared A, Heidarzadeh A, Ghaffari M, Akbarpour M. Effect of megestrol acetate on serum albumin level in malnourished dialysis patients. J Renal Nutr. 2009;19(2):167-171.
2. Byham-Gray L, Stover J, Wiesen K. A clinical guide to nutrition care in kidney disease. Acad Nutr Diet. 2013.
3. White JV, Guenter P, Jensen G, Malone A, Schofield M; Academy of Nutrition and Dietetics Malnutrition Work Group; ASPEN Malnutrition Task Force; ASPEN Board of Directors. Consensus statement of the Academy of Nutrition and Dietetics/American Society for Parenteral and Enteral Nutrition: characteristics recommended for the identification and documentation of adult malnutrition (undernutrition)  [erratum appears in J Acad Nutr Diet. 2012 Nov;112(11):1899].
J Acad Nutr Diet. 2012;112(5):730-738.
4. Rammohan M, Kalantar-Zedeh K, Liang A, Ghossein C. Megestrol acetate in a moderate dose for the treatment of malnutrition-inflammation complex in maintenance dialysis patients. J Ren Nutr. 2005;15(3):345-355.
5. Yeh S, Marandi M, Thode H Jr, et al. Report of a pilot, double blind, placebo-controlled study of megestrol acetate in elderly dialysis patients with cachexia. J Ren Nutr. 2010; 20(1):52-62.
6. Golebiewska JE, Lichodziejewska-Niemierko M, Aleksandrowicz-Wrona E, et al. Megestrol acetate use in hypoalbuminemic dialysis patients [comment]. J Ren Nutr. 2011;21(2): 200-202.
7. Bendik I, Friedel A, Roos FF, et al. Vitamin D: a critical and necessary micronutrient for human health. Front Physiol. 2014;5:248.
8. Cabone F, Mach F, Vuilleumier N, Montecucco F. Potential pathophysiological role for the vitamin D deficiency in essential hypertension. World J Cardiol. 2014;6(5):260-276. 
9. Sypniewska G, Pollak J, Strozecki P, et al. 25-hydroxyvitamin D, biomarkers of endothelial dysfunction and subclinical organ damage in adults with hypertension. Am J Hypertens. 2014;27(1):114-121. 
10. Vimaleswaran KS, Cavadino A, Berry DJ, et al. Association of vitamin D status with arterial blood pressure and hypertension risk:  a mendelian randomisation study. Lancet Diabetes Endocrinol. 2014;2(9):719-729.

Q) One of my patients came in and said he had read that vitamin D supplementation will help with hypertension. Now he wants to quit his blood pressure meds and use vitamin D instead. Do you have any background on this?

Vitamin D is critical for utilization of calcium, a vital nutrient for multiple metabolic and cellular processes; deficiency is associated with worsening of autoimmune disorders, osteoporosis, and certain cardiovascular conditions, among others.⁷ An association between vitamin D level and blood pressure has been recognized for some time, but the pathophysiology is not well understood.

A literature review of studies from 1988 to 2013 found contradictory results regarding vitamin D deficiency and concurrent elevated blood pressure (systolic and/or diastolic), as well as the impact on blood pressure with restoration of vitamin D levels. The findings were limited by several factors, including differences in study design, variables evaluated, and type of vitamin D compound used. The results suggested a link between the renin-angiotensin-aldosterone system, fibroblast growth factor 23/klotho axis, and vitamin D level.⁸

A study of 158 subjects (98 with newly diagnosed essential hypertension, 60 with normal blood pressure) found significantly lower 25(OH)D3 serum levels in hypertensive patients. Furthermore, the 25(OH)D3 level was significantly correlated with both systolic (r = –0.33) and diastolic blood pressure (r = –0.26). Using multiple regression analysis, after adjustment for age, smoking status, and BMI, the impact of 25(OH)D3 level accounted for 10% of the variation in systolic blood pressure.⁹

In a mendelian randomization study of 108,173 subjects from 35 studies, an inverse association between vitamin D level and systolic blood pressure (P = .0003) was found. A reduced risk for essential hypertension with increased vitamin D level (P = .0003) was also noted. However, no association was found between increasing vitamin D level and a reduction in diastolic blood pressure
(P = .37).¹⁰

With the ever-increasing access to health information from sources such as “Doctor Google,” it can be difficult for a non–health care professional to separate hype from evidence-based recommendations. While current evidence suggests optimal vitamin D levels may be beneficial for improving blood pressure control and may be a useful adjunctive therapy, there is no evidence to support discontinuing antihypertensive therapy and replacing it with vitamin D therapy.

Cynthia A. Smith, DNP, APRN, FNP-BC
Renal Consultants, South Charleston, West Virginia

REFERENCES
1. Monfared A, Heidarzadeh A, Ghaffari M, Akbarpour M. Effect of megestrol acetate on serum albumin level in malnourished dialysis patients. J Renal Nutr. 2009;19(2):167-171.
2. Byham-Gray L, Stover J, Wiesen K. A clinical guide to nutrition care in kidney disease. Acad Nutr Diet. 2013.
3. White JV, Guenter P, Jensen G, Malone A, Schofield M; Academy of Nutrition and Dietetics Malnutrition Work Group; ASPEN Malnutrition Task Force; ASPEN Board of Directors. Consensus statement of the Academy of Nutrition and Dietetics/American Society for Parenteral and Enteral Nutrition: characteristics recommended for the identification and documentation of adult malnutrition (undernutrition)  [erratum appears in J Acad Nutr Diet. 2012 Nov;112(11):1899].
J Acad Nutr Diet. 2012;112(5):730-738.
4. Rammohan M, Kalantar-Zedeh K, Liang A, Ghossein C. Megestrol acetate in a moderate dose for the treatment of malnutrition-inflammation complex in maintenance dialysis patients. J Ren Nutr. 2005;15(3):345-355.
5. Yeh S, Marandi M, Thode H Jr, et al. Report of a pilot, double blind, placebo-controlled study of megestrol acetate in elderly dialysis patients with cachexia. J Ren Nutr. 2010; 20(1):52-62.
6. Golebiewska JE, Lichodziejewska-Niemierko M, Aleksandrowicz-Wrona E, et al. Megestrol acetate use in hypoalbuminemic dialysis patients [comment]. J Ren Nutr. 2011;21(2): 200-202.
7. Bendik I, Friedel A, Roos FF, et al. Vitamin D: a critical and necessary micronutrient for human health. Front Physiol. 2014;5:248.
8. Cabone F, Mach F, Vuilleumier N, Montecucco F. Potential pathophysiological role for the vitamin D deficiency in essential hypertension. World J Cardiol. 2014;6(5):260-276. 
9. Sypniewska G, Pollak J, Strozecki P, et al. 25-hydroxyvitamin D, biomarkers of endothelial dysfunction and subclinical organ damage in adults with hypertension. Am J Hypertens. 2014;27(1):114-121. 
10. Vimaleswaran KS, Cavadino A, Berry DJ, et al. Association of vitamin D status with arterial blood pressure and hypertension risk:  a mendelian randomisation study. Lancet Diabetes Endocrinol. 2014;2(9):719-729.

Q) One of my patients came in and said he had read that vitamin D supplementation will help with hypertension. Now he wants to quit his blood pressure meds and use vitamin D instead. Do you have any background on this?

Vitamin D is critical for utilization of calcium, a vital nutrient for multiple metabolic and cellular processes; deficiency is associated with worsening of autoimmune disorders, osteoporosis, and certain cardiovascular conditions, among others.⁷ An association between vitamin D level and blood pressure has been recognized for some time, but the pathophysiology is not well understood.

A literature review of studies from 1988 to 2013 found contradictory results regarding vitamin D deficiency and concurrent elevated blood pressure (systolic and/or diastolic), as well as the impact on blood pressure with restoration of vitamin D levels. The findings were limited by several factors, including differences in study design, variables evaluated, and type of vitamin D compound used. The results suggested a link between the renin-angiotensin-aldosterone system, fibroblast growth factor 23/klotho axis, and vitamin D level.⁸

A study of 158 subjects (98 with newly diagnosed essential hypertension, 60 with normal blood pressure) found significantly lower 25(OH)D3 serum levels in hypertensive patients. Furthermore, the 25(OH)D3 level was significantly correlated with both systolic (r = –0.33) and diastolic blood pressure (r = –0.26). Using multiple regression analysis, after adjustment for age, smoking status, and BMI, the impact of 25(OH)D3 level accounted for 10% of the variation in systolic blood pressure.⁹

In a mendelian randomization study of 108,173 subjects from 35 studies, an inverse association between vitamin D level and systolic blood pressure (P = .0003) was found. A reduced risk for essential hypertension with increased vitamin D level (P = .0003) was also noted. However, no association was found between increasing vitamin D level and a reduction in diastolic blood pressure
(P = .37).¹⁰

With the ever-increasing access to health information from sources such as “Doctor Google,” it can be difficult for a non–health care professional to separate hype from evidence-based recommendations. While current evidence suggests optimal vitamin D levels may be beneficial for improving blood pressure control and may be a useful adjunctive therapy, there is no evidence to support discontinuing antihypertensive therapy and replacing it with vitamin D therapy.

Cynthia A. Smith, DNP, APRN, FNP-BC
Renal Consultants, South Charleston, West Virginia

REFERENCES
1. Monfared A, Heidarzadeh A, Ghaffari M, Akbarpour M. Effect of megestrol acetate on serum albumin level in malnourished dialysis patients. J Renal Nutr. 2009;19(2):167-171.
2. Byham-Gray L, Stover J, Wiesen K. A clinical guide to nutrition care in kidney disease. Acad Nutr Diet. 2013.
3. White JV, Guenter P, Jensen G, Malone A, Schofield M; Academy of Nutrition and Dietetics Malnutrition Work Group; ASPEN Malnutrition Task Force; ASPEN Board of Directors. Consensus statement of the Academy of Nutrition and Dietetics/American Society for Parenteral and Enteral Nutrition: characteristics recommended for the identification and documentation of adult malnutrition (undernutrition)  [erratum appears in J Acad Nutr Diet. 2012 Nov;112(11):1899].
J Acad Nutr Diet. 2012;112(5):730-738.
4. Rammohan M, Kalantar-Zedeh K, Liang A, Ghossein C. Megestrol acetate in a moderate dose for the treatment of malnutrition-inflammation complex in maintenance dialysis patients. J Ren Nutr. 2005;15(3):345-355.
5. Yeh S, Marandi M, Thode H Jr, et al. Report of a pilot, double blind, placebo-controlled study of megestrol acetate in elderly dialysis patients with cachexia. J Ren Nutr. 2010; 20(1):52-62.
6. Golebiewska JE, Lichodziejewska-Niemierko M, Aleksandrowicz-Wrona E, et al. Megestrol acetate use in hypoalbuminemic dialysis patients [comment]. J Ren Nutr. 2011;21(2): 200-202.
7. Bendik I, Friedel A, Roos FF, et al. Vitamin D: a critical and necessary micronutrient for human health. Front Physiol. 2014;5:248.
8. Cabone F, Mach F, Vuilleumier N, Montecucco F. Potential pathophysiological role for the vitamin D deficiency in essential hypertension. World J Cardiol. 2014;6(5):260-276. 
9. Sypniewska G, Pollak J, Strozecki P, et al. 25-hydroxyvitamin D, biomarkers of endothelial dysfunction and subclinical organ damage in adults with hypertension. Am J Hypertens. 2014;27(1):114-121. 
10. Vimaleswaran KS, Cavadino A, Berry DJ, et al. Association of vitamin D status with arterial blood pressure and hypertension risk:  a mendelian randomisation study. Lancet Diabetes Endocrinol. 2014;2(9):719-729.