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Calcium metabolism Product details
| Productname |
FGF-23 Intact, Human |
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Fibroblast Growth Factor 23 Intact |
| Cat-No. |
60-6500 |
| Range |
6 200 pg/ml (can be extended to 650 pg/ml) |
| Sensitivity |
1.0 pg/ml |
| Incubation time |
3.5 hours |
| Sample volume |
150 µl |
| Sample type |
EDTA plasma, cell culture |
| Sample preparation |
It is recommended to collect the sample in the morning after a 12-hour fasting period. Intact FGF-23 is very instable. Therefore, collection and testing or storage should take place promptly. Store samples at -20°C or below. Avoid repeated freezing and thawing of specimens. |
| Reference values |
7 – 29.3 pg/ml |
| Species |
Human |
| Specificity |
Antibodies recognize FGF-23 amino acids 186-206 and 51-69. |
| Tests |
96 Tests |
| Method |
ELISA |
| Product informations |
- Kit Instructions (pdf-File 46 kb)
- Cross-reaction all species (pdf-File 71 kb)
- Bone & Cartilage Metabolism (pdf-File 2480 kb)
- Information: Laboratory Parameters Nephrology and Dialysis (pdf-File 199 kb)
- Information: FGF23 and Klotho (pdf-File 214 kb)
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| Intended use |
FGF-23 Fibroblast Growth Factor 23
FGF-23 is produced in osteoblast precursor cells and is a potent regulator of phosphate and vitamin D metabolism.
Phosphate plays an essential role in the stability of skeletal bones and energy metabolism as well as in DNA synthesis and intracellular signal cascades.
FGF-23 inhibits in combination with cofactor Klotho phosphate reabsorption in renal proximal tubular cells via FGF-23 receptors (increased phosphate loss, reduced serum phosphate) and decreases calcitriol synthesis by suppressing alpha-1-hydroxylase.
FGF-23 in Osteology
FGF-23 is involved in a variety of diseases accompanied by hypophosphatemia caused by renal phosphate loss. Moreover, the clinical pictures show distinctly reduced calcitriol synthesis and osteomalacia or vitamin D resistant rickets.
- Tumor-induced osteomalacia / hypophosphatemia (TIO; paraneoplastic overexpression of FGF-23)
- Autosomal dominant hypophosphatemic rickets (ADHR; due to mutation in FGF-23 protein, FGF-23 cannot be inactivated by endopeptidases)
- X-linked hypophosphatemia (XHL, mutation in degrading enzyme (PHEX))
- Craniofacial dysplasia with hypophosphatemia (increased FGF-23 levels caused by mutation of FGF receptor 1)
- Fibrous dysplasia of bone (overproduction of FGF-23 due to mutation in G-protein subunit G5a/GNAS1)
FGF-23 in Nephrology
- Elevated FGF-23 values are seen in chronic renal insufficiency and correlate negatively with GFR.
- Increased serum FGF-23 levels may help maintain normophosphatemia in early chronic renal insufficiency until creatinine clearance is reduced to approximately 30 mL/min and hyperphosphatemia develops due to exhausted regulatory mechanisms and concurrently decreased calcitriol and sHPT.
- Monitoring of FGF-23 and serum phosphate in early chronic renal insufficiency allows, if necessary, to institute phosphate reduction therapy at an earlier stage.
- Creatinine levels within the normal range do not exclude disorders of phosphate metabolism.
- In the ArMoRR study published by Guitierrez et al. in August 2008, it was demonstrated that the FGF-23 level at the beginning of hemodialysis therapy may be seen as an independent risk marker. Patients showing FGF-23 levels within the highest range developed a 5.7fold higher risk of death within one year.
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| Keywords product |
FGF 23 Intact, ELISA, Fibroblast Growing Factor 23, Regulator Phosphatehomoeostasis, Dialysis, Arteriosclerosis, Bone mineralizat, secundary Hyperparathyroidism |
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