Differential diagnosis of vitamin D-related hypercalcemia using serum vitamin D metabolite profiling
J Bone Miner Res. 2021 Apr 15. doi: 10.1002/jbmr.4306
Martin Kaufmann 1 2, Karl-Peter Schlingmann 3, Linor Berezin 1, Arnaud Molin 4, Jesse Sheftel 1, Melanie Vig 1, John C Gallagher 5, Akiko Nagata 6, Shadi Sedghi Masoud 6, Ryota Sakamoto 6, Kazuo Nagasawa 6, Motonari Uesugi 7, Marie Laure Kottler 4, Martin Konrad 3, Glenville Jones 1
Note: Alternate solution used by many high-dose protocols: reduce Calcium intake, increase Magnesium and water.
Overview Calcium bioavailability and how much to take has the following
- All items with Calcium in Vitamin D Life
202 items - Calcium from food or supplements associated with more deaths (US Cohort of 31,000 people) – April 2019
- More Calcium absorbed with more vitamin D – 6.7% more with 4000 IU – RCT March 2014
- Decrease Calcium and Increase Magnesium when increasing vitamin D
- Calcium supplements proven to NOT reduce fractures, but are proven to INCREASE heart problems – July 2015
- More than 1.4 grams of Calcium increased male death rate by 1.4 X – Sept 2018
- 10,000 IU of Vitamin D is too much if you also take Calcium supplements – RCT Sept 2018
- Calcium Essential to Limit Osteoporosis but Avoid Excess, Say Europeans - Nov 2017
- Hypercalcemia can result from excess Vitamin D (if not reduce Ca or increase water) Oct 2016
- Must balance co-factors when increasing vitamin D 500 Ca, 500 Mg - which has the following concept graph
Comparing High-dose vitamin D therapies contains the following
Genetic causes of vitamin D-related hypercalcemia are known to involve mutation of 25-hydroxyvitamin D-24-hydroxylase CYP24A1 or the sodium phosphate co-transporter SLC34A1; which result in excessive 1,25-(OH)2 D hormonal action.
However, at least 20% of idiopathic hypercalcemia (IH) cases remain unresolved. In this case-control study, we used precision vitamin D metabolite profiling based on LC-MS/MS of an expanded range of vitamin D metabolites - to screen German and French cohorts of hypercalcemia patients, to identify patients with altered vitamin D metabolism where involvement of CYP24A1 or SLC34A1 mutation had been ruled out, and possessed normal 25-OH-D3 :24,25-(OH)2 D3 ratios. Profiles were compared to those of hypercalcemia patients with hypervitaminosis D, Williams-Beuren syndrome (WBS), CYP24A1 mutation, and normal subjects with a range of 25-OH-D levels. We observed that certain IH and WBS patients exhibited a unique profile comprising 8-10-fold higher serum 23,25,26-(OH)3 D3 and 25-OH-D3 -26,23-lactone than normals; as well as very low serum 1,25-(OH)2 D3 (2-5 pg/mL) and elevated 1,24,25-(OH)3 D3 , which we interpret implies hypersensitive expression of vitamin D-dependent genes, including CYP24A1, as a general underlying mechanism of hypercalcemia in these patients. As serum 25-OH-D3 and 24,25-(OH)2 D3 remained normal, we excluded the possibility that the aberrant profile was caused by hypervitaminosis D, but instead points to an underlying genetic cause that parallels the effect of Williams Syndrome Transcription Factor deficiency in WBS. Furthermore, we observed normalization of serum calcium and vitamin D metabolite profiles at follow up of an IH patient where 25-OH-D was reduced to 9 ng/mL, suggesting that symptomatic IH may depend on vitamin D nutritional status. Other hypercalcemic patients with complex conditions exhibited distinct vitamin D metabolite profiles. Our work points to the importance of serum vitamin D metabolite profiling in the differential diagnosis of vitamin D-related hypercalcemia that can rationalize expensive genetic testing, and assist healthcare providers in selecting appropriate treatment.Very rarely vitamin D can cause excess Calcium – a simple diagnostic - April 2021Printer Friendly PDF this page! Follow this page for updates642 visitors, last modified 16 Apr, 2021,