Rickets.
Study Goal
The researchers aimed to evaluate the role of calcium in the prevention and treatment of rickets, including its effectiveness in combination with vitamin D or phosphate supplementation.
Results Summary
The study found that calcium supplementation, often combined with vitamin D, is effective in preventing and treating nutritional rickets, though phosphate repletion may occasionally be necessary. Heritable rickets types may require vitamin D metabolites or phosphate supplementation, depending on the underlying defect.
Population
Infants (particularly prematurely born or breastfed with dark skin types) and individuals with genetic defects affecting vitamin D metabolism, FGF23 production, or renal phosphate handling.
Effective Dosage
Not specified
Duration
Not specified
Interactions
None mentioned
| Intervention | Direction | Endpoint | Population | Dosage | Impact | Claim # |
|---|---|---|---|---|---|---|
supplementation or food fortification with calcium and vitamin D either alone or in combination with sunlight exposure | decrease | nutritional rickets | - | - | Prevention is possible only for nutritional rickets and includes | #1 |
calcium and/or vitamin D supplementation | decrease | nutritional rickets | - | - | Treatment of typical nutritional rickets includes | #2 |
phosphate repletion | neutral | instances infrequently occur | - | - | may be necessary | #3 |
administration of vitamin D metabolites | decrease | heritable types of rickets associated with defects in vitamin D metabolism or activation | - | - | Management of heritable types of rickets associated with defects in vitamin D metabolism or activation involves the | #4 |
Oral phosphate supplementation | decrease | FGF23-independent phosphopenic rickets | - | - | is usually indicated for | #5 |
combination of phosphate and activated vitamin D | decrease | FGF23-dependent types of rickets | - | - | the conventional treatment of FGF23-dependent types of rickets includes | #6 |
an anti-FGF23 antibody | decrease | FGF23-dependent types of rickets | - | - | has shown promising results | #7 |
Rickets is a bone disease associated with abnormal serum calcium and phosphate levels. The clinical presentation is heterogeneous and depends on the age of onset and pathogenesis but includes bowing deformities of the legs, short stature and widening of joints. The disorder can be caused by nutritional deficiencies or genetic defects. Mutations in genes encoding proteins involved in vitamin D metabolism or action, fibroblast growth factor 23 (FGF23) production or degradation, renal phosphate handling or bone mineralization have been identified. The prevalence of nutritional rickets has substantially declined compared with the prevalence 200 years ago, but the condition has been re-emerging even in some well-resourced countries; prematurely born infants or breastfed infants who have dark skin types are particularly at risk. Diagnosis is usually established by medical history, physical examination, biochemical tests and radiography. Prevention is possible only for nutritional rickets and includes supplementation or food fortification with calcium and vitamin D either alone or in combination with sunlight exposure. Treatment of typical nutritional rickets includes calcium and/or vitamin D supplementation, although instances infrequently occur in which phosphate repletion may be necessary. Management of heritable types of rickets associated with defects in vitamin D metabolism or activation involves the administration of vitamin D metabolites. Oral phosphate supplementation is usually indicated for FGF23-independent phosphopenic rickets, whereas the conventional treatment of FGF23-dependent types of rickets includes a combination of phosphate and activated vitamin D; an anti-FGF23 antibody has shown promising results and is under further study.