Renal Osteodystrophy: An Individual Management Approach
Status:
Active, not recruiting
Trial end date:
2023-06-30
Target enrollment:
Participant gender:
Summary
Renal osteodystrophy (ROD) represents the bone histologic abnormalities resulting from loss
of renal function. It starts early during the loss of kidney function and is seen in
virtually all chronic end stage kidney disease patients on dialysis (CKD-5D). A major
component of ROD is bone loss leading to chronic kidney disease (CKD) associated
osteoporosis. Debilitating hip fractures occur in patients with CKD at a rate 4.4 times
higher than in the general population, with associated high costs, morbidity and an annual
mortality of 64%. CKD osteoporosis is distinctly different from post-menopausal osteoporosis.
Presently, no uniformly accepted CKD osteoporosis treatment protocol exists because of
challenges related to racially specific bone turnover states. Therefore, most physicians are
reluctant to treat this disorder despite the profound impact on health and quality of life,
and its association with vascular calcifications. These vascular calcifications confer an
increased risk for cardiovascular events which are the major cause of the over 20% annual
mortality rate in CKD-5D patients.
The goal of the proposed controlled randomized study is to test the concept that CKD
osteoporosis can be successfully treated when treatment is individualized by patients'
turnover status. The study will demonstrate that reversal of bone loss can be achieved by
increasing bone formation in low turnover patients, and by reducing bone resorption in normal
or high turnover patients. A second aim of this study is to provide new information whether
these treatments will also retard progression of vascular calcifications. Blood tests
measuring FGF23, indicators of Wnt pathway activity, bone resorption and formation will be
followed to understand potential mechanisms and to evaluate their usefulness for prediction
of changes in bone mass and vascular calcifications.
CKD-5D patients with established osteoporosis will be enrolled into one of two treatment arms
based on bone turnover status. Each arm will be adaptively randomized by race, age and gender
into treatment or control groups. In the low turnover arm, teriparatide combined with
cinacalcet will be given, and in the normal or high turnover arm, alendronate will be
administered. Bone mineral density will be measured at baseline and after one year of
treatment by quantitative computed tomography. Calcifications of the coronaries, aorta and
heart valves will also be measured at the same times by multi-detector computed tomography.
If this proof-of-concept study is successful, it will offer a heretofore unavailable
treatment for osteoporosis in CKD-5D patients thus changing the prevailing clinical practice
paradigm. This will provide immediate benefit to CKD patients by reducing fracture risk, bone
pain, and cardiovascular risk, while greatly improving their quality of life. These
improvements will also convey major socioeconomic benefits by decreasing the high associated
treatment costs. The proposed study is highly relevant to the National Institute of Diabetes
and Digestive and Kidney Diseases' mission of disseminating science-based information to
improve the health and quality of life for patients with endocrine, metabolic and kidney
diseases.
Phase:
N/A
Details
Lead Sponsor:
Hartmut Malluche, MD
Collaborators:
National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK) Wright State University