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Vitamin D deficiency or resistance and hypophosphatemia.

Best practice & research. Clinical endocrinology & metabolism
March 1, 2024
Vijaya Sarathi et al. (4 authors)
Journal ArticleReviewHuman Study
Study Details

Study Goal

The researchers aimed to explore the role of vitamin D metabolism and calcium absorption in the development of rickets and osteomalacia, including inherited disorders.

Results Summary

The study found that impaired dietary calcium absorption leads to hypophosphatemia and bone hypomineralization, with vitamin D supplementation improving hypophosphatemia in nutritional rickets/osteomalacia. Inherited disorders of vitamin D metabolism require further evaluation if standard supplementation fails.

Population

Individuals with vitamin D deficiency, rickets, osteomalacia, or inherited disorders of vitamin D metabolism.

Effective Dosage

Not specified

Duration

Not specified

Interactions

None mentioned

Extracted Claims (2)
InterventionDirectionEndpointPopulationDosageImpactClaim #
vitamin D supplementation
decrease
nutritional vitamin D deficiency
patients with rickets and osteomalacia
-
responds well to
#1
vitamin D supplementation
increase
hypophosphatemia
patients with nutritional rickets/osteomalacia
-
Improvement in
#2
Abstract

Vitamin D is mainly produced in the skin (cholecalciferol) by sun exposure while a fraction of it is obtained from dietary sources (ergocalciferol). Vitamin D is further processed to 25-hydroxyvitamin D and 1,25-dihydroxy vitamin D (calcitriol) in the liver and kidneys, respectively. Calcitriol is the active form which mediates the actions of vitamin D via vitamin D receptor (VDR) which is present ubiquitously. Defect at any level in this pathway leads to vitamin D deficient or resistant rickets. Nutritional vitamin D deficiency is the leading cause of rickets and osteomalacia worldwide and responds well to vitamin D supplementation. Inherited disorders of vitamin D metabolism (vitamin D-dependent rickets, VDDR) account for a small proportion of calcipenic rickets/osteomalacia. Defective 1α hydroxylation of vitamin D, 25 hydroxylation of vitamin D, and vitamin D receptor result in VDDR1A, VDDR1B and VDDR2A, respectively whereas defective binding of vitamin D to vitamin D response element due to overexpression of heterogeneous nuclear ribonucleoprotein and accelerated vitamin D metabolism cause VDDR2B and VDDR3, respectively. Impaired dietary calcium absorption and consequent calcium deficiency increases parathyroid hormone in these disorders resulting in phosphaturia and hypophosphatemia. Hypophosphatemia is a common feature of all these disorders, though not a sine-qua-non and leads to hypomineralisation of the bone and myopathy. Improvement in hypophosphatemia is one of the earliest markers of response to vitamin D supplementation in nutritional rickets/osteomalacia and the lack of such a response should prompt evaluation for inherited forms of rickets/osteomalacia.

Medical Subject Headings (MeSH)
HumansCalcitriolReceptors, CalcitriolOsteomalaciaVitamin D DeficiencyFamilial Hypophosphatemic RicketsRicketsVitamin DVitamins
Study Links
Quality Scores
SafetyNot Assessed
Efficacy75/10
Quality80/10
Citation Metrics
Total Citations6
Citations/Year6.0
Relative Citation Ratio2.49
Research Impact Scores
APT Score0.75
Weight Score2.91
Normalized Score0.66
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