937 research outputs found

    Preserving a legacy for our patients: The bedside-to-bench award in translational research

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    The Journal of Translational Medicine is pleased to announce a prize to recognize outstanding contributions in the field of translational medicine. This year, the Bedside-to-Bench Award was provided by an anonymous donor and supported by the Journal of Translational Medicine Editorial Board. Applications should be submitted directly to the Journal of Translational Medicine [1]

    Translational Medicine: A two-way road

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    The purpose of translational research is to test, in humans, novel therapeutic strategies developed through experimentation. Translational research should be regarded as a two-way road: Bench to Bedside and Bedside to Bench. However, Bedside to Bench efforts have regrettably been limited because the scientific aspects are poorly understood by full time clinicians and the difficulty of dealing with humans poorly appreciated by basic scientists. Translational research would be most useful to the scientific community at large if journals would foster specific interest for the publication of ex vivo human observation. The review process for such work should be assigned to clinical scientists competent not only in the intricacies of molecular or cell biology but also intimate with the reality of Internal Review Boards, ethics committees, Governmental Regulatory Agencies and most importantly the humane aspects of dealing with sick individuals and their families. This approach may focus both basic and clinical scientists and those struggling to fill the gap between them on the effective treatment of diseases affecting women, men and children making translational research more than an interesting concept

    A balanced review of the status T cell-based therapy against cancer

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    A recent commentary stirred intense controversy over the status of anti-cancer immunotherapy. The commentary suggested moving beyond current anti-cancer vaccines since active-specific immunization failed to match expectations toward a more aggressive approach involving the adoptive transfer of in vitro expanded tumor antigen-specific T cells. Although the same authors clarified their position in response to others' rebuttal more discussion needs to be devoted to the current status of T cell-based anti-cancer therapy. The accompanying publications review the status of adoptive transfer of cancer vaccines on one hand and active-specific immunization on the other. Hopefully, reading these articles will offer a balanced view of the current status of antigen-specific ant-cancer therapies and suggest future strategies to foster unified efforts to complement either approach with the other according to specific biological principles

    AAAS joins the Translational Medicine family

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    The AAAS has announced the launch of Science Translational Medicine. This is further and critical recognition of this discipline and we are deeply gratified that translational medicine has risen to the level of recognition by one of the world's most prestigious scientific organizations. We believe that Science Translational Medicine will provide another valuable venue for the rapid and broad dissemination of important articles in the field and contribute to enhancing the effectiveness of translational medicine overall

    A decade plus of translation: what do we understand?

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    It has been more than a decade that the term "Translational" (medicine, Research, Science) has trickled through the minds of academics, clinicians, business persons, regulators, policy makers, patients and their families, patient advocates, politicians and the public. Although the term means different things for different stake holders, it reflect and eagerness to see a fruitful outcome of the resources invested in biotechnology to benefit primarily the patients but also provide financial return for those who invested. Skeptics remain who feel the concept if abused by those attempting to deviate funds for basic or clinical research to a new domain performing similar tasks under a different egida. In reality, translational sciences are not different in scope any from previous efforts to focus the goals of research toward the relevant object of helping the disabled. The difference is that, in recent decades, awareness has risen about the difficulties of reaching this goal. In particular, it has become clear that the difficulties are not limited to scientific challenges, but to a myriad of hurdles that make testing and licensing of novel concepts unnecessarily burdensome. Moreover, it was recognized that the infrastructure to support clinical research is frequently outdated and inappropriate. The biggest hurdle, however, remains the cost and the length of clinical testing that could prolong of decades the application of even the most successful treatments. As for any expanding field, a plethora of journals has appeared with "Translational" in their title. This is a positive sign of the growth in interest for the field and the need to respond to a need for editorial boards competent in the challenges of judging clinical testing. In this editorial, we will discuss the meaning of translational medicine, its goals and needs; we will summarize the remaining challenges and will provide a personal overview of the strategies that remain to be implemented

    Microarray Analysis for a Comprehensive Immunological-Status Evaluation during Cancer Vaccine Immune Monitoring

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    Anticancer immune responses can be enhanced by immune intervention that promotes complex biological mechanisms involving several cellular populations. The classical immune monitoring for biological-based cancer clinical trials is often based on single-cell analysis. However, the overall effect could be lost by such a reductionist approach explaining the lack of correlation among clinical and immunological endpoints often reported. Microarray technology could give the possibility of studying in a multiparametric setting the immune therapy effects. The application of microarray is leading to an improved understanding of the immune responses to tumor immunotherapy. In fact, analysis of cancer vaccine-induced host responses using microarrays is proposed as valuable alternative to the standard cell-based methods. This paper shows successful examples of how high-throughput gene expression profiling contributed to the understanding of anticancer immune responses during biological therapy, introducing as well the integrative platforms that allow the network analysis in molecular biology studies

    Cancer vaccines at an inflexion point: what next?

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    With the approval of the first therapeutic cancer vaccines for veterinarian and human use, the field reached a significant milestone after a considerable interval of tumultuous research and development marked by numerous ups and downs. As the mechanism of action and clinical benefit afforded by this class of agents are starkly different from that of conventional or small targeted therapies for cancer, there are still numerous hurdles that need to be overcome to fully unleash their potential. These challenges and efforts are illustrated in a book just published on this subject, a non-exhaustive yet representative synopsis of the latest advances in cancer vaccine technologies in various stages of development. Major lessons resulting from clinical testing of cancer vaccines and other immune interventions, are being integrated in novel, cutting edge platform technologies that blur the distinction between passive and active immunotherapies as well as carry the promise of fundamentally changing and improving the management of patients with cancer

    Bridging the Divide between Science and Journalism

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    There are countless reasons nearly every scientist should learn how to communicate effectively with the media, including increased understanding of critical research findings to attract or sustain funding and build new professional partnerships that will further propel forward research. But where do scientists begin? Bridging the Divide between Science and Journalism offers practical tips for any scientist looking to work with the media

    How scientists use social media to communicate their research

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    Millions of people all over the world are constantly sharing an extremely wide range of fascinating, quirky, funny, irrelevant and important content all at once. Even scientists are no strangers to this trend. Social media has enabled them to communicate their research quickly and efficiently throughout each corner of the world. But which social media platforms are they using to communicate this research and how are they using them? One thing is clear: the range of social media platforms that scientists are using is relatively vast and dependent on discipline and sentiment. While the future of social media is unknown, a combination of educated speculation and persuasive fact points to the industry's continual growth and influence. Thus, is that not only are scientists utilizing social media to communicate their research, they must. The ability to communicate to the masses via social media is critical to the distribution of scientific information amongst professionals in the field and to the general population

    Synopsis of the 6(th )Walker's Cay Colloquium on Cancer Vaccines and Immunotherapy

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    The 6(th )annual Cancer Vaccines and Immunotherapy Colloquium at Walker's Cay was held under the auspices of the Albert B. Sabin Vaccine Institute on March 10–13, 2004. The Colloquium consisted of a select group of 34 scientists representing academia, biotechnology and pharmaceutical industry. The main goal of this gathering was to promote in a peaceful and comfortable environment exchanges between basic and clinical science. The secondary benefit was to inspire novel bench to bedside ventures and at the same time provide feed back about promising and/or disappointing clinical results that could help re-frame some scientific question or guide the design of future trials. Several topics were covered that included tumor antigen discovery and validation, platforms for vaccine development, tolerance, immune suppression and tumor escape mechanisms, adoptive T cell therapy and dendritic cell-based therapies, clinical trials and assessment of response. Here we report salient points raised by speakers or by the audience during animated discussion that followed each individual presentation
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