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CKD: Latest on Screening
Q) suPAR, a new screening tool for chronic kidney disease, has gotten a lot of press recently. My practice is interested in implementing it, but we can’t find information on how to obtain it. Is it commercially available yet? How can we order it? And importantly for our patients, do insurance plans cover it?
Research has been ongoing regarding biomarkers that could identify those at risk for chronic kidney disease (CKD) long before loss of renal function is apparent. A recently published study suggests that the circulating protein, soluble urokinase-type plasminogen activator receptor (suPAR), may be such a biomarker.
In a study of 3,683 subjects (ages 20 to 90) undergoing cardiac catheterization, and a further evaluation of 347 subjects in the Women’s Interagency HIV Study, Hayek et al found that elevated levels of suPAR were independently associated with CKD and with accelerated loss of renal function. At five-year follow-up, 24% of the 1,335 subjects with an initial estimated glomerular filtration rate (eGFR) ≥ 60 mL/min/1.73 m2 had developed CKD. Risk for progression to CKD was about 41% in those with a baseline suPAR level ≥ 3,040 ng/mL, compared to 12% in those with lower baseline suPAR levels.1 Thus, the cutoff for high versus low risk appears to be 3,040 ng/mL.
Hayek and associates are not the first or the only investigators studying the connection between suPAR and kidney disease. Evolving research has suggested suPAR may be an initiating factor in the development of focal segmental glomerulosclerosis (FSGS).2 However, a recent study did not support this association.3
Currently, in the United States, laboratory testing for suPAR is available only for research purposes and has not been approved by the FDA for direct patient care.4 While more research is needed with different cohorts, there is much excitement in the field of nephrology regarding the potential role of suPAR as a biomarker for predicting CKD. —CS
Cindy Smith, DNP, APRN, CNN-NP, FNP-BC
Renal Consultants, PLLC, South Charleston, West Virgina
References
1. Hayek SS, Sever S, Ko Y-A, et al. Soluble urokinase receptor and chronic kidney disease. N Engl J Med. 2015;373:1916-1925.
2. Spinale JM, Mariani LH, Kapoor S, et al. A reassessment of soluble urokinase-type plasminogen activator receptor in glomerular disease. Kidney Int. 2015;87(3):564-574.
3. Wei C, El Hindi S, Li J, et al. Circulating urokinase receptor as a cause of focal segmental glomerulosclerosis.Nature Med. 2011;17: 952-960.
4. Rush University Medical Center. Early warning found for chronic kidney disease: common protein in blood rises months or years before disease develops [news release]. November 5, 2015. www.rush.edu/news/press-releases/early-warning-found-chronic-kidney-disease. Accessed April 11, 2016.
Q) suPAR, a new screening tool for chronic kidney disease, has gotten a lot of press recently. My practice is interested in implementing it, but we can’t find information on how to obtain it. Is it commercially available yet? How can we order it? And importantly for our patients, do insurance plans cover it?
Research has been ongoing regarding biomarkers that could identify those at risk for chronic kidney disease (CKD) long before loss of renal function is apparent. A recently published study suggests that the circulating protein, soluble urokinase-type plasminogen activator receptor (suPAR), may be such a biomarker.
In a study of 3,683 subjects (ages 20 to 90) undergoing cardiac catheterization, and a further evaluation of 347 subjects in the Women’s Interagency HIV Study, Hayek et al found that elevated levels of suPAR were independently associated with CKD and with accelerated loss of renal function. At five-year follow-up, 24% of the 1,335 subjects with an initial estimated glomerular filtration rate (eGFR) ≥ 60 mL/min/1.73 m2 had developed CKD. Risk for progression to CKD was about 41% in those with a baseline suPAR level ≥ 3,040 ng/mL, compared to 12% in those with lower baseline suPAR levels.1 Thus, the cutoff for high versus low risk appears to be 3,040 ng/mL.
Hayek and associates are not the first or the only investigators studying the connection between suPAR and kidney disease. Evolving research has suggested suPAR may be an initiating factor in the development of focal segmental glomerulosclerosis (FSGS).2 However, a recent study did not support this association.3
Currently, in the United States, laboratory testing for suPAR is available only for research purposes and has not been approved by the FDA for direct patient care.4 While more research is needed with different cohorts, there is much excitement in the field of nephrology regarding the potential role of suPAR as a biomarker for predicting CKD. —CS
Cindy Smith, DNP, APRN, CNN-NP, FNP-BC
Renal Consultants, PLLC, South Charleston, West Virgina
References
1. Hayek SS, Sever S, Ko Y-A, et al. Soluble urokinase receptor and chronic kidney disease. N Engl J Med. 2015;373:1916-1925.
2. Spinale JM, Mariani LH, Kapoor S, et al. A reassessment of soluble urokinase-type plasminogen activator receptor in glomerular disease. Kidney Int. 2015;87(3):564-574.
3. Wei C, El Hindi S, Li J, et al. Circulating urokinase receptor as a cause of focal segmental glomerulosclerosis.Nature Med. 2011;17: 952-960.
4. Rush University Medical Center. Early warning found for chronic kidney disease: common protein in blood rises months or years before disease develops [news release]. November 5, 2015. www.rush.edu/news/press-releases/early-warning-found-chronic-kidney-disease. Accessed April 11, 2016.
Q) suPAR, a new screening tool for chronic kidney disease, has gotten a lot of press recently. My practice is interested in implementing it, but we can’t find information on how to obtain it. Is it commercially available yet? How can we order it? And importantly for our patients, do insurance plans cover it?
Research has been ongoing regarding biomarkers that could identify those at risk for chronic kidney disease (CKD) long before loss of renal function is apparent. A recently published study suggests that the circulating protein, soluble urokinase-type plasminogen activator receptor (suPAR), may be such a biomarker.
In a study of 3,683 subjects (ages 20 to 90) undergoing cardiac catheterization, and a further evaluation of 347 subjects in the Women’s Interagency HIV Study, Hayek et al found that elevated levels of suPAR were independently associated with CKD and with accelerated loss of renal function. At five-year follow-up, 24% of the 1,335 subjects with an initial estimated glomerular filtration rate (eGFR) ≥ 60 mL/min/1.73 m2 had developed CKD. Risk for progression to CKD was about 41% in those with a baseline suPAR level ≥ 3,040 ng/mL, compared to 12% in those with lower baseline suPAR levels.1 Thus, the cutoff for high versus low risk appears to be 3,040 ng/mL.
Hayek and associates are not the first or the only investigators studying the connection between suPAR and kidney disease. Evolving research has suggested suPAR may be an initiating factor in the development of focal segmental glomerulosclerosis (FSGS).2 However, a recent study did not support this association.3
Currently, in the United States, laboratory testing for suPAR is available only for research purposes and has not been approved by the FDA for direct patient care.4 While more research is needed with different cohorts, there is much excitement in the field of nephrology regarding the potential role of suPAR as a biomarker for predicting CKD. —CS
Cindy Smith, DNP, APRN, CNN-NP, FNP-BC
Renal Consultants, PLLC, South Charleston, West Virgina
References
1. Hayek SS, Sever S, Ko Y-A, et al. Soluble urokinase receptor and chronic kidney disease. N Engl J Med. 2015;373:1916-1925.
2. Spinale JM, Mariani LH, Kapoor S, et al. A reassessment of soluble urokinase-type plasminogen activator receptor in glomerular disease. Kidney Int. 2015;87(3):564-574.
3. Wei C, El Hindi S, Li J, et al. Circulating urokinase receptor as a cause of focal segmental glomerulosclerosis.Nature Med. 2011;17: 952-960.
4. Rush University Medical Center. Early warning found for chronic kidney disease: common protein in blood rises months or years before disease develops [news release]. November 5, 2015. www.rush.edu/news/press-releases/early-warning-found-chronic-kidney-disease. Accessed April 11, 2016.
Kidney Disease: Unexpected Consequences
Q) We were operating on a 58-year-old woman for a subcapital fracture of her right hip. The orthopedist mentioned that the patient had kidney disease and that it probably caused her hip fracture. I didn’t know kidney disease causes hip fractures. Is this true?
Evolving evidence suggests an association between diminishing renal function and increased risk for fracture. Here’s a look at the available data:
Atherosclerosis Risk in Communities (ARIC) Study. During a median 13 years’ follow-up of 10,955 community-based older adults, investigators identified higher albuminuria level and decreased creatinine-based estimated glomerular filtration rate (eGFR) as significant risk factors for fracture. Other risk factors included older age, race (Caucasians had the highest incidence), and sex (women were more likely than men to sustain a fracture). A nonlinear relationship was observed between eGFR and fracture diagnosis, with a graded association between fracture and albuminuria level.7
Cardiovascular Health Study. In this study of 4,699 older community-based adults, kidney function was assessed by measurement of serum cystatin C. During a mean follow-up of 7.1 years, higher cystatin C levels correlated to a higher risk for hip fracture in both sexes. In women, there was a significant association between diminishing renal function and hip fracture status: Those with lower eGFRs had a higher incidence of fractures. There was a similar magnitude of association among men, but it was not significant.8
Health, Aging and Body Composite Study. In 2,754 older adults, an association was noted between decreased femoral neck bone mineral density (BMD) and increased risk for fracture in those with and without CKD stage 3 to 5. With a concurrent diagnosis of osteoporosis, there was a 110% increased risk for nonspinal fracture in those with CKD and a 63% increased risk for those without CKD.9 In a study of 485 adult hemodialysis patients, decreased total hip and femoral neck BMD was associated with an increased risk for fractures in women with parathyroid hormone levels on the lower range of acceptable in this population (intact parathyroid hormone level [IPTH] < 204 pg/mL) and for spinal fractures in both genders.10
Bone changes associated with deterioration of renal function are complex and multifactorial. Human bone is a composite of protein fused to mineral crystals, primarily calcium and phosphate. Bone is dynamic, being broken down and rebuilt throughout adulthood, with the skeleton almost completely rebuilt every 10 years.11
CKD–mineral and bone disorder (CKD–MBD) is a systemic disorder seen in those with kidney disease that affects bone and mineral metabolism. Its manifestations include abnormalities in the bone, calcifications of vascular and/or soft tissues, abnormal vitamin D metabolism, and disruptions in the phosphorus, calcium, and parathyroid hormone levels. These components, and the severity of the condition, vary by stage of CKD. One component of CKD–MBD, renal osteodystrophy, is associated with changes in bone morphology and is definitively diagnosed by bone biopsy.12
Care of these patients is complex and can be compounded by osteoporosis and/or loss of bone strength. Osteoporosis, like CKD, increases in incidence with age and is associated with fracture risk.11
While useful for diagnosing osteoporosis and predicting fracture risk in the general population, dual-energy X-ray densitometry (DXA) has not been recommended in those with CKD due to the type of bone changes that occur with diminished renal function.12 However, evolving evidence regarding use of DXA in these patients prompted a Kidney Disease: Improving Global Outcomes (KDIGO) “controversies” conference to recommend reexamination of the evidence regarding this recommendation.13 KDIGO’s 2009 clinical practice guideline on CKD–MBD (http://kdigo.org/home/mineral-bone-disorder/) can be of benefit in the assessment and care of affected patients. —CS
Cindy Smith, DNP, APRN, CNN-NP, FNP-BC
Renal Consultants, PLLC, South Charleston, West Virgina
References
7. Daya NR, Voskertchian A, Schneider ALC, et al. Kidney function and fracture risk: the Atherosclerosis Risk in Communities (ARIC) study. Am J Kidney Dis. 2016;67(2):218-226.
8. Fried LF, Biggs ML, Shlipak MG, et al. Association of kidney function with incident hip fracture in older adults. J Am Soc Nephrol. 2007;18:282-286.
9. Yenchek RH, Ix JH, Shlipak MG, et al. Bone mineral density and fracture risk in older individuals with CKD. Clin J Am Soc Nephrol. 2012;7(7):1130-1136.
10. Iimori S, Mori Y, Akita W, et al. Diagnostic usefulness of bone mineral density and biochemical markers of bone turnover in predicting fracture in CKD stage 5D patients—a single-center cohort study. Nephrol Dial Transplant. 2012;27:345-351.
11. Office of the Surgeon General (US). Bone Health and Osteoporosis: a Report of the Surgeon General. Rockville, MD: Office of the Surgeon General; 2004.
12. Kidney Disease: Improving Global Outcomes (KDIGO) CKD-MBD Work Group. KDIGO clinical practice guideline for the diagnosis, evaluation, prevention and treatment of chronic kidney disease-mineral and bone disorder (CKD-MBD). Kidney Int Suppl. 2009;113:S1-S130.
13. Ketteler M, Elder GJ, Evenepoel P, et al. Revisiting KDIGO clinical practice guideline on chronic kidney disease-mineral and bone disorder: a commentary from a Kidney Disease: Improving Global Outcomes controversies conference. Kidney Int. 2015;87(3):502-528.
Q) We were operating on a 58-year-old woman for a subcapital fracture of her right hip. The orthopedist mentioned that the patient had kidney disease and that it probably caused her hip fracture. I didn’t know kidney disease causes hip fractures. Is this true?
Evolving evidence suggests an association between diminishing renal function and increased risk for fracture. Here’s a look at the available data:
Atherosclerosis Risk in Communities (ARIC) Study. During a median 13 years’ follow-up of 10,955 community-based older adults, investigators identified higher albuminuria level and decreased creatinine-based estimated glomerular filtration rate (eGFR) as significant risk factors for fracture. Other risk factors included older age, race (Caucasians had the highest incidence), and sex (women were more likely than men to sustain a fracture). A nonlinear relationship was observed between eGFR and fracture diagnosis, with a graded association between fracture and albuminuria level.7
Cardiovascular Health Study. In this study of 4,699 older community-based adults, kidney function was assessed by measurement of serum cystatin C. During a mean follow-up of 7.1 years, higher cystatin C levels correlated to a higher risk for hip fracture in both sexes. In women, there was a significant association between diminishing renal function and hip fracture status: Those with lower eGFRs had a higher incidence of fractures. There was a similar magnitude of association among men, but it was not significant.8
Health, Aging and Body Composite Study. In 2,754 older adults, an association was noted between decreased femoral neck bone mineral density (BMD) and increased risk for fracture in those with and without CKD stage 3 to 5. With a concurrent diagnosis of osteoporosis, there was a 110% increased risk for nonspinal fracture in those with CKD and a 63% increased risk for those without CKD.9 In a study of 485 adult hemodialysis patients, decreased total hip and femoral neck BMD was associated with an increased risk for fractures in women with parathyroid hormone levels on the lower range of acceptable in this population (intact parathyroid hormone level [IPTH] < 204 pg/mL) and for spinal fractures in both genders.10
Bone changes associated with deterioration of renal function are complex and multifactorial. Human bone is a composite of protein fused to mineral crystals, primarily calcium and phosphate. Bone is dynamic, being broken down and rebuilt throughout adulthood, with the skeleton almost completely rebuilt every 10 years.11
CKD–mineral and bone disorder (CKD–MBD) is a systemic disorder seen in those with kidney disease that affects bone and mineral metabolism. Its manifestations include abnormalities in the bone, calcifications of vascular and/or soft tissues, abnormal vitamin D metabolism, and disruptions in the phosphorus, calcium, and parathyroid hormone levels. These components, and the severity of the condition, vary by stage of CKD. One component of CKD–MBD, renal osteodystrophy, is associated with changes in bone morphology and is definitively diagnosed by bone biopsy.12
Care of these patients is complex and can be compounded by osteoporosis and/or loss of bone strength. Osteoporosis, like CKD, increases in incidence with age and is associated with fracture risk.11
While useful for diagnosing osteoporosis and predicting fracture risk in the general population, dual-energy X-ray densitometry (DXA) has not been recommended in those with CKD due to the type of bone changes that occur with diminished renal function.12 However, evolving evidence regarding use of DXA in these patients prompted a Kidney Disease: Improving Global Outcomes (KDIGO) “controversies” conference to recommend reexamination of the evidence regarding this recommendation.13 KDIGO’s 2009 clinical practice guideline on CKD–MBD (http://kdigo.org/home/mineral-bone-disorder/) can be of benefit in the assessment and care of affected patients. —CS
Cindy Smith, DNP, APRN, CNN-NP, FNP-BC
Renal Consultants, PLLC, South Charleston, West Virgina
References
7. Daya NR, Voskertchian A, Schneider ALC, et al. Kidney function and fracture risk: the Atherosclerosis Risk in Communities (ARIC) study. Am J Kidney Dis. 2016;67(2):218-226.
8. Fried LF, Biggs ML, Shlipak MG, et al. Association of kidney function with incident hip fracture in older adults. J Am Soc Nephrol. 2007;18:282-286.
9. Yenchek RH, Ix JH, Shlipak MG, et al. Bone mineral density and fracture risk in older individuals with CKD. Clin J Am Soc Nephrol. 2012;7(7):1130-1136.
10. Iimori S, Mori Y, Akita W, et al. Diagnostic usefulness of bone mineral density and biochemical markers of bone turnover in predicting fracture in CKD stage 5D patients—a single-center cohort study. Nephrol Dial Transplant. 2012;27:345-351.
11. Office of the Surgeon General (US). Bone Health and Osteoporosis: a Report of the Surgeon General. Rockville, MD: Office of the Surgeon General; 2004.
12. Kidney Disease: Improving Global Outcomes (KDIGO) CKD-MBD Work Group. KDIGO clinical practice guideline for the diagnosis, evaluation, prevention and treatment of chronic kidney disease-mineral and bone disorder (CKD-MBD). Kidney Int Suppl. 2009;113:S1-S130.
13. Ketteler M, Elder GJ, Evenepoel P, et al. Revisiting KDIGO clinical practice guideline on chronic kidney disease-mineral and bone disorder: a commentary from a Kidney Disease: Improving Global Outcomes controversies conference. Kidney Int. 2015;87(3):502-528.
Q) We were operating on a 58-year-old woman for a subcapital fracture of her right hip. The orthopedist mentioned that the patient had kidney disease and that it probably caused her hip fracture. I didn’t know kidney disease causes hip fractures. Is this true?
Evolving evidence suggests an association between diminishing renal function and increased risk for fracture. Here’s a look at the available data:
Atherosclerosis Risk in Communities (ARIC) Study. During a median 13 years’ follow-up of 10,955 community-based older adults, investigators identified higher albuminuria level and decreased creatinine-based estimated glomerular filtration rate (eGFR) as significant risk factors for fracture. Other risk factors included older age, race (Caucasians had the highest incidence), and sex (women were more likely than men to sustain a fracture). A nonlinear relationship was observed between eGFR and fracture diagnosis, with a graded association between fracture and albuminuria level.7
Cardiovascular Health Study. In this study of 4,699 older community-based adults, kidney function was assessed by measurement of serum cystatin C. During a mean follow-up of 7.1 years, higher cystatin C levels correlated to a higher risk for hip fracture in both sexes. In women, there was a significant association between diminishing renal function and hip fracture status: Those with lower eGFRs had a higher incidence of fractures. There was a similar magnitude of association among men, but it was not significant.8
Health, Aging and Body Composite Study. In 2,754 older adults, an association was noted between decreased femoral neck bone mineral density (BMD) and increased risk for fracture in those with and without CKD stage 3 to 5. With a concurrent diagnosis of osteoporosis, there was a 110% increased risk for nonspinal fracture in those with CKD and a 63% increased risk for those without CKD.9 In a study of 485 adult hemodialysis patients, decreased total hip and femoral neck BMD was associated with an increased risk for fractures in women with parathyroid hormone levels on the lower range of acceptable in this population (intact parathyroid hormone level [IPTH] < 204 pg/mL) and for spinal fractures in both genders.10
Bone changes associated with deterioration of renal function are complex and multifactorial. Human bone is a composite of protein fused to mineral crystals, primarily calcium and phosphate. Bone is dynamic, being broken down and rebuilt throughout adulthood, with the skeleton almost completely rebuilt every 10 years.11
CKD–mineral and bone disorder (CKD–MBD) is a systemic disorder seen in those with kidney disease that affects bone and mineral metabolism. Its manifestations include abnormalities in the bone, calcifications of vascular and/or soft tissues, abnormal vitamin D metabolism, and disruptions in the phosphorus, calcium, and parathyroid hormone levels. These components, and the severity of the condition, vary by stage of CKD. One component of CKD–MBD, renal osteodystrophy, is associated with changes in bone morphology and is definitively diagnosed by bone biopsy.12
Care of these patients is complex and can be compounded by osteoporosis and/or loss of bone strength. Osteoporosis, like CKD, increases in incidence with age and is associated with fracture risk.11
While useful for diagnosing osteoporosis and predicting fracture risk in the general population, dual-energy X-ray densitometry (DXA) has not been recommended in those with CKD due to the type of bone changes that occur with diminished renal function.12 However, evolving evidence regarding use of DXA in these patients prompted a Kidney Disease: Improving Global Outcomes (KDIGO) “controversies” conference to recommend reexamination of the evidence regarding this recommendation.13 KDIGO’s 2009 clinical practice guideline on CKD–MBD (http://kdigo.org/home/mineral-bone-disorder/) can be of benefit in the assessment and care of affected patients. —CS
Cindy Smith, DNP, APRN, CNN-NP, FNP-BC
Renal Consultants, PLLC, South Charleston, West Virgina
References
7. Daya NR, Voskertchian A, Schneider ALC, et al. Kidney function and fracture risk: the Atherosclerosis Risk in Communities (ARIC) study. Am J Kidney Dis. 2016;67(2):218-226.
8. Fried LF, Biggs ML, Shlipak MG, et al. Association of kidney function with incident hip fracture in older adults. J Am Soc Nephrol. 2007;18:282-286.
9. Yenchek RH, Ix JH, Shlipak MG, et al. Bone mineral density and fracture risk in older individuals with CKD. Clin J Am Soc Nephrol. 2012;7(7):1130-1136.
10. Iimori S, Mori Y, Akita W, et al. Diagnostic usefulness of bone mineral density and biochemical markers of bone turnover in predicting fracture in CKD stage 5D patients—a single-center cohort study. Nephrol Dial Transplant. 2012;27:345-351.
11. Office of the Surgeon General (US). Bone Health and Osteoporosis: a Report of the Surgeon General. Rockville, MD: Office of the Surgeon General; 2004.
12. Kidney Disease: Improving Global Outcomes (KDIGO) CKD-MBD Work Group. KDIGO clinical practice guideline for the diagnosis, evaluation, prevention and treatment of chronic kidney disease-mineral and bone disorder (CKD-MBD). Kidney Int Suppl. 2009;113:S1-S130.
13. Ketteler M, Elder GJ, Evenepoel P, et al. Revisiting KDIGO clinical practice guideline on chronic kidney disease-mineral and bone disorder: a commentary from a Kidney Disease: Improving Global Outcomes controversies conference. Kidney Int. 2015;87(3):502-528.