|
|
For Immediate Release |
15 OCTOBER 2009 |
OXFORD BIOMEDICA ANNOUNCES UPDATE ON PROSAVIN® PHASE I/II TRIAL IN PARKINSON'S DISEASE AND PUBLICATION OF PRECLINICAL RESULTS
Oxford, UK - 15 October 2009: Oxford BioMedica (LSE: OXB), a leading gene therapy company, announced today new data from the ongoing Phase I/II trial of ProSavin, its novel gene therapy for the treatment of Parkinson's disease. All patients treated at the second dose level have completed their six-month assessments and have shown further improvement in motor function (UPDRS III 'OFF' score). The maximum improvement was 53% and the average was 34% relative to patients' pre-treatment motor function. The Principal Investigator, Professor Stéphane Palfi of the Henri Mondor Hospital in Paris, will present interim results from the trial at the European Society of Gene & Cell Therapy Annual Congress, being held in Hannover, Germany, on 21-25 November 2009.
Also announced today is the publication of pivotal preclinical studies of ProSavin, which were conducted with collaborators from the CEA/Inserm Molecular Imaging Research Centre (MIRCen), the University of Paris XII and the Henri Mondor Hospital, a member of the Assistance Publique Hôpitaux de Paris (APHP), in France. The findings were published in the 14 October issue of the interdisciplinary journal, Science Translational Medicine (http://www.sciencemag.org/). The preclinical model used for these studies simulated severe Parkinson's disease by inducing selective degeneration of dopamine-producing neurons, which decreased dopamine to 27% of normal concentrations. The results showed that:
Overall, these preclinical data suggest that ProSavin may offer significant benefit in the clinical setting, treating the primary symptoms of Parkinson's disease as well as reducing the severe side-effects of long-term L-DOPA therapy. These conclusions are supported by initial data from human clinical trials.
In December 2007, Oxford BioMedica initiated a dose-escalating Phase I/II study of ProSavin in Parkinson's disease patients experiencing reduced benefit on L-DOPA or equivalent therapies. This first-in-man study employed a similar neurosurgical technique to the preclinical studies for administering ProSavin directly into a region of the brain called the putamen. Two dose levels have been evaluated to-date in cohorts of three patients per dose. The initial dose level (1x) was based on the safe and efficacious preclinical dose, although it was not scaled for the larger volume of the human putamen. The second dose level represented a cautious, small increment in dose at two-fold higher (2x) than the first dose. At both dose levels, ProSavin was safe and well tolerated with no serious adverse events and no evidence of immunotoxicity. All patients have shown improved motor function and quality of life, and have maintained or reduced their L-DOPA or equivalent medication, whereas daily doses would normally be expected to increase over this period as the disease progresses.
Recent data from the second cohort have shown further improvement in patients' motor function at six months. The maximum improvement was 53% and the average was 34% relative to baseline, which would be broadly equivalent to Deep Brain Stimulation (DBS) if confirmed in placebo-controlled studies. Even with comparable efficacy to DBS, ProSavin would represent a significant advance, given its simpler administration with no hardware, and its potential to enhance patients' quality of life and suppress the complications caused by oral L-DOPA therapy.
Despite these promising results, the excellent safety profile of ProSavin justifies further dose escalation. Allometric scaling of the highly efficacious preclinical dose approximates to a human dose that is five-fold higher (5x) than the initial dose. Oxford BioMedica is seeking regulatory approval to escalate directly to a 5x dose level using a modified administration procedure that requires fewer needle tracks and thus reduces the surgery time. Both the study's Data Monitoring Committee and the Company's Scientific Advisory Board support this strategy. Enhancing the efficacy of ProSavin and reducing the surgery time could accelerate the overall development timelines and expand the market opportunity.
Professor Stéphane Palfi commented on today's news: "The preclinical proof-of-concept studies together with clinical data from the first two dose levels in the Phase I/II study suggest that ProSavin may provide sustained and meaningful benefit to patients and could reduce or eliminate the debilitating complications associated with oral dopamine replacement therapy. In the initial indication of moderate to late-stage Parkinson's disease, ProSavin potentially offers significant advantages to the current alternatives of Deep Brain Stimulation or mechanical delivery of continuous dopamine."
John Dawson, Oxford BioMedica's Chief Executive Officer, added: "The recent data from the Phase I/II study provide further evidence that ProSavin is effective at the current dose levels. With its excellent safety profile, we have the opportunity to escalate to a higher dose, which could be even more effective. This would enhance the product's value and could accelerate its development. We look forward to the presentation of interim clinical results at the upcoming ESGCT Congress. Furthermore, the publication of our ground-breaking preclinical results in a leading journal raises the profile of ProSavin within the medical community and pharmaceutical industry as we prepare for larger studies and negotiate with prospective partners."
-Ends-
For further information, please contact: |
|
Oxford BioMedica plc: John Dawson, Chief Executive Officer Nick Woolf, Chief Business Officer |
Tel: +44 (0)1865 783 000 |
JPMorgan Cazenove Limited: James Mitford/ Gina Gibson |
Tel: +44 (0)20 7588 2828 |
Media/Financial Enquiries: Lisa Baderoon/ Mark Court Buchanan Communications |
Tel: +44 (0)20 7466 5000 |
US Enquiries: Thomas Fechtner The Trout Group LLC |
Tel: (646) 378 2900 |
Notes to editors
1. Oxford BioMedica
Oxford BioMedica (LSE: OXB) is a biopharmaceutical company developing innovative gene-based medicines and therapeutic vaccines that aim to improve the lives of patients with high unmet medical needs. The Company's technology platform includes a highly efficient gene delivery system (LentiVector®), which has specific advantages for targeting diseases of the central nervous system and the eye; and a unique tumour antigen (5T4), which is an ideal target for anti-cancer therapy. Through in-house and collaborative research, Oxford BioMedica has a broad pipeline and its partners include sanofi-aventis, Sigma-Aldrich and Wyeth. Technology licensees include Biogen Idec, GlaxoSmithKline, Merck & Co and Pfizer. Further information is available at www.oxfordbiomedica.co.uk
2. ProSavin®
ProSavin is Oxford BioMedica's novel gene-based therapeutic for the treatment of Parkinson's disease. The product is administered directly to the striatum in the brain. It delivers three genes required to convert cells that normally do not produce dopamine into cells that do, thereby replacing the dopamine synthesising cells lost during the course of the disease. ProSavin utilises Oxford BioMedica's proprietary LentiVector® system to deliver the genes AADC (aromatic amino acid decarboxylase), TH (tyrosine hydroxylase) and CH1 (GTP-cyclohydrolase 1). These genes reprogramme transduced cells to manufacture and secrete dopamine.
3. Parkinson's disease
Parkinson's disease (PD) is one of the most common late-life neurodegenerative diseases affecting up to 2% of the population over the age of 60. It is caused by a loss of nerve cells in the part of the brain called the substantia nigra. These nerve cells are responsible for producing a chemical called dopamine, which control and coordinate body movements. Currently no cure exists for PD. In early stages of the disease, symptoms can be effectively treated with L-DOPA or equivalent therapies. As the disease progresses, patients become less responsive to L-DOPA and require higher doses, which induces further complications such as impairing the ability to control movement, known as dyskinesia.
4. CEA/Inserm Molecular Imaging Research Centre (MIRCen)
MIRCen is the molecular imaging arm of the French Atomic Agency (CEA) and National Institute of Heath and Medical Research (Inserm). MIRCen brings together current techniques and skills in molecular biology, cell biology, electrophysiology and behavioural science around radio-isotope and anatomic functional imaging techniques, in order to design, develop and validate new therapeutic strategies for the treatment of various human disorders including neurodegenerative diseases such as Parkinson¹s disease. It is based in the CEA centre at Fontenay-aux-Roses in the Paris region of France,
5. Henri Mondor Hospital
The Henri Mondor Hospital is one of the largest hospitals in Paris, belonging to the Assistance Publique Hopitaux de Paris (APHP) group and is affiliated to the University of Paris XII. The neurosurgical/neurological department at Henri Mondor hospital is specialised in treating movement disorders. The Henri Mondor Hospital is located in Créteil.