Fosrenol
lanthanum carbonate
Treatment for Hyperphosphatemia of Renal FailureFosrenol: FDA Action Date Extended, US Launch Target Unaffected
BASINGSTOKE, England, July 20, 2004 -- Shire Pharmaceuticals Group plc announces a change in the date of the expected US approval for Fosrenol (lanthanum carbonate) but the Company expects no change to its targeted 2004 launch timing and is proceeding with all pre-launch activities.
This announcement follows the receipt of a letter from the United States Food & Drug Administration (FDA) indicating a 90 day extension to the review period to complete evaluation of new data relating to the formulation and dosage strengths, submitted this month by Shire at the request of FDA.
No concerns are raised in this letter about clinical safety or efficacy.
The original action date was to be July 26th 2004. The extension of the review moves the final action date and anticipated approval to October 26th 2004. Labelling discussions for the product will take place in parallel during this 90-day period.
The regulatory authorities in Sweden approved Fosrenol in March this year. Further European approvals are expected by the end of 2004.
Matthew Emmens, Shire's Chief Executive commented:
"Our constructive discussions and positive relationship with the
FDA give us confidence that this final stage of review and
concurrent labelling talks will mean we should be able to make this
product available, as planned, in the US in December this year. In
the FDA's letter there were no issues raised about clinical safety
or efficacy. We are proceeding with all pre-launch activities
including manufacturing; market preparation and sales force
readiness."
Dr Eliseo Salinas, Shire's Chief Scientific Officer said:
"Fosrenol has been extensively studied. Nearly 2,000 patients have
been involved in clinical trials, with some of these patients
followed for more than four years. In these trials, the drug
continued to demonstrate efficacy and good tolerability with
long-term use."
Fosrenol (lanthanum carbonate) is a novel phosphate binder that reduces high blood levels of phosphorus in End-Stage Renal Disease (ESRD) patients on dialysis.
Fosrenol works by binding to dietary phosphate in the GI tract; once bound, the Fosrenol/phosphate complex cannot pass through the intestinal lining into the blood stream and is eliminated from the body. As a consequence, overall phosphate absorption from the diet is decreased significantly. Shire has conducted an extensive clinical research programme for Fosrenol involving nearly 2000 patients, some of whom have been treated for more than four years. This programme has demonstrated that Fosrenol is an effective phosphate binder with a proven safety profile for long-term use.
Hyperphosphataemia and its consequences
Chronic kidney failure is complicated by hyperphosphataemia - high
phosphate levels in the blood - caused by the inability of the
kidneys (and dialysis) to filter out excess phosphate from food.
Even with a low-phosphate diet as many as 80% of Europe's 225,000
and the United States' 269,000 dialysis patients develop
hyperphosphataemia1,3 and need treatment with a
phosphate-binder. The most well-known consequences of
hyperphosphataemia are a range of bone diseases which can cause
bone pain, skeletal deformities and fractures. Hyperphosphataemia
is also associated with the development of cardiovascular disease,
which accounts for nearly 50% of all deaths in dialysis
patients2. Ironically, currently available phosphate
binders - although they help control phosphate levels - can worsen
these complications. Aluminium-based phosphate binders are
associated with severe bone toxicity while calcium-based binders
contribute to cardiovascular disease by promoting the deposition of
hard calcium deposits (calcification) in the heart and blood
vessels.
References:
Numbers of patients on dialysis broadly equates to patients with
end stage kidney disease.
Source: Market Research, Insight International, Dec 01/Jan 02
1.3. USRDS 2002 Annual Data Report: Atlas of End-Stage Renal
Disease in the United States, National Institutes of Health,
National Institute of Diabetes and Digestive and Kidney Diseases,
Bethesda, MD, 2002, page 44.
2. Davies MR, Hruska K. Pathophysiological mechanisms of vascular
calcification in end-stage renal disease. Kidney Int. 2001 Aug;
60(2): 472-9
For further information on Shire, please visit the Company's website: www.shire.com
Related Articles:
Fosrenol Shire Pharmaceuticals Group plc - Treatment for Hyperphosphataemia in ESRD Patients - October 26, 2004
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