Expert opinion on biological therapy
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Expert Opin Biol Ther · Jun 2004
ReviewWhat is regenerative medicine? Emergence of applied stem cell and developmental biology.
Regenerative medicine is an emerging, but still poorly defined, field of biomedicine. The ongoing 'regenerative medicine revolution' is based on a series of new exciting breakthrough discoveries in the field of stem cell biology and developmental biology. The main problem of regenerative medicine is not so much stem cell differentiation, isolation and lineage diversity, although these are very important issues, but rather stem cell mobilisation, recruitment and integration into functional tissues. ⋯ Systematic in silico, in vitro and in vivo research is a foundation for further progress in regenerative medicine. Regenerative medicine is a rapidly advancing field that opens new and exciting opportunities for completely revolutionary therapeutic modalities and technologies. Regenerative medicine is, at its essence, an emergence of applied stem cell and developmental biology.
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One approach in the immunotherapy of cancer patients involves vaccination with peptides derived from tumour-associated antigens specifically designed to associate with T cells in the context of major histocompatibility complex (MHC) class I or II molecules. Several clinical trials in different tumour types have been conducted utilising this vaccination strategy. ⋯ However, this represents an evolving field and, thus, it is difficult to draw firm conclusions concerning the efficacy of peptide-based vaccines for cancer immunotherapy. Improvements to peptide vaccination, including the addition of various adjuvants, the utilisation of peptide-pulsed dendritic cells, multipeptide vaccinations, the addition of helper peptides and peptide delivery through the use of mini-genes, are encouraging and serve as important guides for future research.
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Expert Opin Biol Ther · Jan 2004
18th Annual Scientific Meeting of the International Society for Biological Therapy of Cancer. 30 October-2 November 2003, Bethesda, Maryland, USA.
The 18th Annual Scientific Meeting of the International Society for Biological Therapy of Cancer (iSBTc) was held at the Hyatt Regency, Bethesda, MD, close to the National Institutes of Health (NIH) campus. The meeting was organised on behalf of the society by Neil Berinstein from Aventis Pasteur, Toronto, Canada, Janice P Dutcher from Our Lady of Mercy Medical Center, Bronx, NY and Francesco M Marincola from the NIH, Bethesda, MD. The 2003 meeting included 57 oral presentations and > 100 poster presentations. ⋯ Its membership has been rapidly growing of late, with > 500 members at present. The purpose of the iSBTc is to bring together those diverse individuals actively investigating biologic agents and biological response modifiers in the treatment of cancer, including clinicians and basic scientists from industry, government and academia. The President of the Society is Dr Michael B Atkins from Beth Israel Deaconess Medical Center, Boston, MA and the Vice President is Ulrich Keilholz from UKBF, Free University Berlin, Germany.
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Lung cancer is the most frequent cause of cancer death. Improving this dismal outcome requires cooperation among several specialists. ⋯ This Conference was chaired by Nevin Murray and the scientific sessions took place 10 - 14 August, with > 3000 participating lung cancer experts. The Vancouver programme included > 140 invited speakers throughout the 'meet the professor', plenary and interactive sessions, as well as 300 oral and 500 poster presentations.
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Expert Opin Biol Ther · Jun 2003
ReviewThe use of haemoglobin glutamer-250 (HBOC-201) as an oxygen bridge in patients with acute anaemia associated with surgical blood loss.
For the treatment of substantial blood loss in surgery, allogeneic blood is transfused to maintain stability and organ perfusion and function. Continued concerns about the availability, safety, efficacy and storage-related problems of allogeneic blood products have led to an intense effort to find alternatives that can serve the same physiologic functions. Haemoglobin-based oxygen carriers (HBOCs) are compounds that can match the oxygen-carrying capacity of red blood cells (RBCs), and several HBOCs have reached advanced stages of development and clinical testing. ⋯ Results from clinical trials indicate that HBOC-201 can be used as an oxygen 'bridge' for patients experiencing anaemia due to surgical blood loss, until their own red blood cells are replenished or have regenerated (haematinic effect). HBOC-201 is generally well-tolerated and is approved for use in South Africa, where it is indicated for use in adult surgical patients who are acutely anaemic, and is used to eliminate, delay or reduce the need for allogeneic RBCs. A Biologics License Application for HBOC-201 is currently under review by the US FDA.