Sevelamer

Sevelamer (rINN) (/sɛˈvɛləmər/ or /sɛˈvɛləmɪər/) is a phosphate binding drug used to treat hyperphosphatemia in patients with chronic kidney disease. When taken with meals, it binds to dietary phosphate and prevents its absorption. Sevelamer was invented and developed by GelTex Pharmaceuticals. Sevelamer is currently marketed by Sanofi under the trade names Renagel (sevelamer hydrochloride) and Renvela (sevelamer carbonate).

Sevelamer
Clinical data
Trade namesRenagel, Renvela
AHFS/Drugs.comMonograph
MedlinePlusa601248
License data
Pregnancy
category
  • AU: B3
  • US: C (Risk not ruled out)
    Routes of
    administration
    oral
    ATC code
    Legal status
    Legal status
    Pharmacokinetic data
    Bioavailability0%
    Excretionfaecal 100%
    Identifiers
    CAS Number
    PubChem CID
    DrugBank
    ChemSpider
    UNII
    KEGG
    ChEMBL
    CompTox Dashboard (EPA)
    Chemical and physical data
    Formula[(C3H7N)a+b.(C9H17N2O)c]m
    where a+b:c = 9:1
    Molar massvariable
     NY (what is this?)  (verify)

    Chemistry and pharmacology

    Sevelamer consists of polyallylamine that is crosslinked with epichlorohydrin.[1] The marketed form sevelamer hydrochloride is a partial hydrochloride salt being present as approximately 40% amine hydrochloride and 60% sevelamer base. The amine groups of sevelamer become partially protonated in the intestine and interact with phosphate ions through ionic and hydrogen bonding.

    Medical uses

    Sevelamer is used in the management of hyperphosphatemia in adult patients with stage 4 and 5 chronic kidney disease (CKD) on hemodialysis. Its efficacy at lowering phosphate levels is similar to that of calcium acetate, but without the accompanying risk of hypercalcemia and arterial calcification.[2][3] In patients with CKD, it has also been shown to reduce triglycerides and LDL, and increase HDL.[4]

    Contraindications

    Sevelamer therapy is contraindicated in hypophosphatemia or bowel obstruction. In hypophosphatemia, sevelamer could exacerbate the condition by further lowering phosphate levels in the blood, which could be fatal.[5]

    Adverse effects

    Common adverse drug reactions (ADRs) associated with the use of sevelamer include: hypotension, hypertension, nausea and vomiting, dyspepsia, diarrhea, flatulence, and/or constipation.

    Other effects

    Sevelamer can significantly reduce serum uric acid.[6] This reduction has no known detrimental effect and several beneficial effects, including reducing hyperuricemia, uric acid nephrolithiasis, and gout.

    Sevelamer is able to sequester advanced glycation end products (AGEs) in the gut, preventing their absorption into the blood. AGEs contribute to oxidative stress, which can damage cells (like beta cells, which produce insulin in the pancreas). As Vlassara and Uribarri explain in a 2014 review on AGEs, this may explain why sevelamer, but not calcium carbonate (a phosphate binder that does not sequester AGEs), has been shown to lower AGEs in the blood, as well as oxidative stress and inflammatory markers.[7]

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    References

    1. Ramsdell R (June 1999). "Renagel: a new and different phosphate binder". review. ANNA Journal. 26 (3): 346–7. PMID 10633608.
    2. Burke SK (September 2000). "Renagel: reducing serum phosphorus in haemodialysis patients". review. Hospital Medicine. 61 (9): 622–7. doi:10.12968/hosp.2000.61.9.1419. PMID 11048603.
    3. Habbous S, Przech S, Acedillo R, Sarma S, Garg AX, Martin J (January 2017). "The efficacy and safety of sevelamer and lanthanum versus calcium-containing and iron-based binders in treating hyperphosphatemia in patients with chronic kidney disease: a systematic review and meta-analysis". review. Nephrology, Dialysis, Transplantation. 32 (1): 111–125. doi:10.1093/ndt/gfw312. PMID 27651467.
    4. Patel L, Bernard LM, Elder GJ (February 2016). "Sevelamer Versus Calcium-Based Binders for Treatment of Hyperphosphatemia in CKD: A Meta-Analysis of Randomized Controlled Trials". review. Clinical Journal of the American Society of Nephrology. 11 (2): 232–44. doi:10.2215/CJN.06800615. PMC 4741042. PMID 26668024.
    5. Emmett M (September 2004). "A comparison of clinically useful phosphorus binders for patients with chronic kidney failure". review. Kidney International Supplements. 66 (90): S25–32. doi:10.1111/j.1523-1755.2004.09005.x. PMID 15296504.
    6. Locatelli F, Del Vecchio L (May 2015). "Cardiovascular mortality in chronic kidney disease patients: potential mechanisms and possibilities of inhibition by resin-based phosphate binders". review. Expert Review of Cardiovascular Therapy. 13 (5): 489–99. doi:10.1586/14779072.2015.1029456. PMID 25804298.
    7. Vlassara H, Uribarri J (January 2014). "Advanced glycation end products (AGE) and diabetes: cause, effect, or both?". review. Current Diabetes Reports. 14 (1): 453. doi:10.1007/s11892-013-0453-1. PMC 3903318. PMID 24292971.
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