New Phosphate Binders on the Horizon

Share this article:
Wajeh Qunibi, MD, FACP
Wajeh Qunibi, MD, FACP

Hyperphosphatemia is invariably present among patients with end-stage renal disease (ESRD) and may be independently associated with increased risk of all-cause mortality, accelerated cardiovascular calcification, and cardiovascular mortality (Kidney Int  Suppl. 2004;:S8-S12).

The National Kidney Foundation (NKF) Kidney Disease Outcomes Quality Initiative (KDOQI) guidelines recommend a target serum phosphorus of 4.6 mg/dL in CKD stages 3 and 4 and serum phosphorus 3.5-5.5 in stage 5 and in dialysis patients.

Dietary phosphorus restriction and removal of phosphorus by dialysis are usually inadequate for controlling serum levels. Consequently, it becomes necessary to prescribe phosphate binders for the majority of patients with ESRD in order to reduce the amount of dietary phosphorus absorbed from the intestine.

Currently available phosphate binders, while effective, are not considered optimal agents for treating hyperphosphatemia because they may lead to unacceptable adverse effects or because of concern about potential toxicities (e.g., aluminum toxicity).

Calcium carbonate and calcium acetate are suspected of contributing to cardiovascular calcification and adynamic bone disease, lanthanum carbonate is absorbed and deposited into tissues, including bone, liver, and brain; and sevelamer has the potential for intestinal obstruction and perforation.

Moreover, some binders are expensive (sevelamer and lanthanum carbonate) and may require patients to take large numbers of pills for good control of serum phosphorus (sevelamer).

For these reasons, there is a high degree of noncompliance with binder therapy among dialysis patients. This noncompliance may explain why fewer than 50% of patients with ESRD have achieved the recommended target for serum phosphorus.

Thus, there is a clear need for newer phosphate binders that tackle some of the shortfalls of current binder therapy. Efforts are under way to develop new and potentially more effective phosphate binders that may also have fewer adverse effects. The possibilities include exchange resins, iron-based binders, magnesium binders, and nicotinic acid derivatives.

Exchange resins

Sevelamer carbonate

Among the newer phosphate-binding agents is sevelamer carbonate (Renvela; Genzyme Corporation). This buffered form of sevelamer hydrochloride is an anion exchange resin in which carbonate replaces chloride as the anion. This change in the anion provides bicarbonate ions that may avoid the acidosis that is frequently reported with sevelamer hydrochloride. Sevelamer carbonate is apparently as effective as sevelamer hydrochloride and has a GI profile that is probably similar, but more experience is needed before any conclusions can be made.

AMG 223

This investigational drug is also an exchange resin and could pose a potential threat to sevelamer. A novel polymeric phosphate binder, AMG 223 was being developed by Amgen after its June 2007 acquisition of Ilypsa. However, a phase 2 randomized, double-blind, placebo-controlled clinical trial to assess the efficacy, safety, and tolerability of fixed doses of AMG 223 in hemodialysis patients with hyperphosphatemia was halted. Shortly thereafter, in January 2009, Amgen announced that it was ending development of AMG 223.

MCI-196


This compound, also known as colestimide or colestilan, is a nonabsorbable anion exchange resin manufactured by Mitsubishi Pharma Corporation. MCI-196 has dual effects similar to those of sevelamer, binding both bile salts and dietary phosphorus in the intestine and thus reducing both LDL and serum phosphorus (Thera Apher Dial. 2008;12:126-132). MCI-196 is widely used in Japan. Constipation and abdominal distension are the main side effects and are encountered in half of patients taking the medication. Currently, phase 3 trials are ongoing in the United States and Europe.

Iron-based binders

Polynuclear iron compounds are effective in binding dietary phosphorus because the solubility product of trivalent iron and phosphate is extremely low. These compounds are not absorbed and are apparently effective phosphate binders across a wide spectrum of pH. Systemic iron absorption is minimal and could generally be desirable in hemodialysis patients who are prone to developing iron deficiency because of chronic blood loss in the dialyzer. Two compounds are in the early stages of clinical development.

SBR759

Novartis' SBR759 is a complex compound consisting of iron (III) oxide-hydroxide, starch, and sucrose. In phase 1 and 2 trials funded by Novartis, this compound was found to be effective, safe, and well-tolerated at doses up to 15 g/day in dialysis patients, according to a report by Block and colleagues presented during The American Society of Nephrology's Renal Week 2008 (abstract no. F-PO1801; available at www.abstracts2view.com/asn/view.php?nu=ASN08L1_3701a, accessed May 21, 2009). A phase 3 trial is currently under way to compare SBR759 with sevelamer hydrochloride in terms of safety and efficacy.

PA21

The second iron-based phosphate binder is PA21, a new product currently under development by Vifor Pharma. PA21 is intended to be used particularly in hemodialysis patients. Regulatory filling is anticipated in 2011. In a phase 2 trial, PA21 was thought to be effective and have a good safety profile. Recruitment for another phase 2 trial is under way (ClinicalTrials.gov identifier: NCT00824460).
Page 1 of 2
Share this article:
You must be a registered member of RUN to post a comment.

More in News

'Fake' Drug Distribution Growing, FDA Warns

'Fake' Drug Distribution Growing, FDA Warns

Health care providers ordering meds should view 'too good to be true' offers with suspicion, agency says.

New iPhone 6 May Not Fit in Docs' White Coat Pockets

New iPhone 6 May Not Fit in Docs' ...

The latest model is longer than the previous version, such that it "awkwardly juts out" when stored in the breast pocket.

7 Common Physician Social Media Mistakes

7 Common Physician Social Media Mistakes

Author writes that doctors can and should take advantage of social media marketing opportunities.