The Experts below are selected from a list of 4164675 Experts worldwide ranked by ideXlab platform

F A Garcia-vazquez - One of the best experts on this subject based on the ideXlab platform.

  • Applications of transgenic pigs in Biomedicine and animal production
    ITEA-INFORMACION TECNICA ECONOMICA AGRARIA, 2010
    Co-Authors: Juan Gadea, F A Garcia-vazquez
    Abstract:

    Transgenic animals have been a great improvement for science and health. The lastest technological developments have lead to the generation of a broad variety of transgenic pigs with diverse aims and applications. In this manuscript, we describe and analyze the usage and applications of the transgenic pigs in Biomedicine and agriculture. The applications of transgenic pigs in Biomedicine included models for human diseases, production of bio-pharmacological substances and xenotransplantation. The agriculture applications of transgenic pigs are disease resistance, increases in the production and quality of animal products and pollution reduction. The use of transgenic pigs is higher in Biomedicine than in agriculture. This is due to the severe restriction of consumption of food products derived from genetic modified organisms (GMO's).

  • Aplicaciones de los cerdos transgénicos en biomedicina y producción animal
    ITEA Informacion Tecnica Economica Agraria, 2010
    Co-Authors: Juan Gadea, F A Garcia-vazquez
    Abstract:

    Resumen Los animales transgénicos han supuesto un gran avance en el campo de la ciencia y de la salud. Los avances tecnológicos en este campo han permitido desarrollar una amplia variedad de cerdos trans-génicos con diversos objetivos y aplicaciones. En este documento hemos descrito y analizado las diver-sas aplicaciones que los cerdos transgénicos han tenido y tienen en el ámbito biomédico y en el agro-pecuario. Entre estas aplicaciones en el campo de la salud destacamos los modelos de enfermedad humana, la generación de productos biofarmaceuticos y el transplante de órganos de cerdos modifi-cados a humanos (xenotransplante). Por otra parte, la resistencia a las enfermedades, la mejora de los indices productivos y la reducción del efecto contaminante de la actividad ganadera son las principa-les aplicaciones de los cerdos transgénicos en producción animal. El uso de cerdos transgenicos está más desarrollado en el campo de la biomedicina que en el agropecuario, fundamentalmente por las limitaciones que existen actualmente en el consumo de productos alimentarios derivados de los orga-nismos modificados genéticamente (OMG's). Summary Applications of transgenic pigs in Biomedicine and animal production Transgenic animals have been a great improvement for science and health. The lastest technological developments have lead to the generation of a broad variety of transgenic pigs with diverse aims and applications. In this manuscript, we describe and analyze the usage and applications of the transgenic pigs in Biomedicine and agriculture. The applications of transgenic pigs in Biomedicine included models for human diseases, production of bio-pharmacological substances and xenotransplantation. The agriculture applications of transgenic pigs are disease resistance, increases in the production and quality of animal products and pollution reduction. The use of transgenic pigs is higher in biomedici-ne than in agriculture. This is due to the severe restriction of consumption of food products derived from genetic modified organisms (GMO's).

  • Applications of transgenic pigs in Biomedicine and animal production | Aplicaciones de los cerdos transgénicos en biomedicina y producción animal
    ITEA Informacion Tecnica Economica Agraria, 2010
    Co-Authors: Juan Gadea, F A Garcia-vazquez
    Abstract:

    Transgenic animals have been a great improvement for science and health. The lastest technological developments have lead to the generation of a broad variety of transgenic pigs with diverse aims and applications. In this manuscript, we describe and analyze the usage and applications of the transgenic pigs in Biomedicine and agriculture. The applications of transgenic pigs in Biomedicine included models for human diseases, production of bio-pharmacological substances and xenotransplantation. The agriculture applications of transgenic pigs are disease resistance, increases in the production and quality of animal products and pollution reduction. The use of transgenic pigs is higher in Biomedicine than in agriculture. This is due to the severe restriction of consumption of food products derived from genetic modified organisms (GMO's).

Lihong V Wang - One of the best experts on this subject based on the ideXlab platform.

  • Photoacoustic tomography and sensing in Biomedicine
    Physics in Medicine and Biology, 2009
    Co-Authors: Changhui Li, Lihong V Wang
    Abstract:

    Photoacoustics has been broadly studied in Biomedicine, for both human and small animal tissues. Photoacoustics uniquely combines the absorption contrast of light or radio frequency waves with ultrasound resolution. Moreover, it is non-ionizing and non-invasive, and is the fastest growing new biomedical method, with clinical applications on the way. This review provides a brief recap of recent developments in photoacoustics in Biomedicine, from basic principles to applications. The emphasized areas include the new imaging modalities, hybrid detection methods, photoacoustic contrast agents and the photoacoustic Doppler effect, as well as translational research topics.

  • photoacoustic imaging in Biomedicine
    Review of Scientific Instruments, 2006
    Co-Authors: Minghua Xu, Lihong V Wang
    Abstract:

    Photoacoustic imaging (also called optoacoustic or thermoacoustic imaging) has the potential to image animal or human organs, such as the breast and the brain, with simultaneous high contrast and high spatial resolution. This article provides an overview of the rapidly expanding field of photoacoustic imaging for biomedical applications. Imaging techniques, including depth profiling in layered media, scanning tomography with focused ultrasonic transducers, image forming with an acoustic lens, and computed tomography with unfocused transducers, are introduced. Special emphasis is placed on computed tomography, including reconstruction algorithms, spatial resolution, and related recent experiments. Promising biomedical applications are discussed throughout the text, including (1) tomographic imaging of the skin and other superficial organs by laser-induced photoacoustic microscopy, which offers the critical advantages, over current high-resolution optical imaging modalities, of deeper imaging depth and higher absorptioncontrasts, (2) breast cancerdetection by near-infrared light or radio-frequency–wave-induced photoacoustic imaging, which has important potential for early detection, and (3) small animal imaging by laser-induced photoacoustic imaging, which measures unique optical absorptioncontrasts related to important biochemical information and provides better resolution in deep tissues than optical imaging.

Juan Gadea - One of the best experts on this subject based on the ideXlab platform.

  • Applications of transgenic pigs in Biomedicine and animal production
    ITEA-INFORMACION TECNICA ECONOMICA AGRARIA, 2010
    Co-Authors: Juan Gadea, F A Garcia-vazquez
    Abstract:

    Transgenic animals have been a great improvement for science and health. The lastest technological developments have lead to the generation of a broad variety of transgenic pigs with diverse aims and applications. In this manuscript, we describe and analyze the usage and applications of the transgenic pigs in Biomedicine and agriculture. The applications of transgenic pigs in Biomedicine included models for human diseases, production of bio-pharmacological substances and xenotransplantation. The agriculture applications of transgenic pigs are disease resistance, increases in the production and quality of animal products and pollution reduction. The use of transgenic pigs is higher in Biomedicine than in agriculture. This is due to the severe restriction of consumption of food products derived from genetic modified organisms (GMO's).

  • Aplicaciones de los cerdos transgénicos en biomedicina y producción animal
    ITEA Informacion Tecnica Economica Agraria, 2010
    Co-Authors: Juan Gadea, F A Garcia-vazquez
    Abstract:

    Resumen Los animales transgénicos han supuesto un gran avance en el campo de la ciencia y de la salud. Los avances tecnológicos en este campo han permitido desarrollar una amplia variedad de cerdos trans-génicos con diversos objetivos y aplicaciones. En este documento hemos descrito y analizado las diver-sas aplicaciones que los cerdos transgénicos han tenido y tienen en el ámbito biomédico y en el agro-pecuario. Entre estas aplicaciones en el campo de la salud destacamos los modelos de enfermedad humana, la generación de productos biofarmaceuticos y el transplante de órganos de cerdos modifi-cados a humanos (xenotransplante). Por otra parte, la resistencia a las enfermedades, la mejora de los indices productivos y la reducción del efecto contaminante de la actividad ganadera son las principa-les aplicaciones de los cerdos transgénicos en producción animal. El uso de cerdos transgenicos está más desarrollado en el campo de la biomedicina que en el agropecuario, fundamentalmente por las limitaciones que existen actualmente en el consumo de productos alimentarios derivados de los orga-nismos modificados genéticamente (OMG's). Summary Applications of transgenic pigs in Biomedicine and animal production Transgenic animals have been a great improvement for science and health. The lastest technological developments have lead to the generation of a broad variety of transgenic pigs with diverse aims and applications. In this manuscript, we describe and analyze the usage and applications of the transgenic pigs in Biomedicine and agriculture. The applications of transgenic pigs in Biomedicine included models for human diseases, production of bio-pharmacological substances and xenotransplantation. The agriculture applications of transgenic pigs are disease resistance, increases in the production and quality of animal products and pollution reduction. The use of transgenic pigs is higher in biomedici-ne than in agriculture. This is due to the severe restriction of consumption of food products derived from genetic modified organisms (GMO's).

  • Applications of transgenic pigs in Biomedicine and animal production | Aplicaciones de los cerdos transgénicos en biomedicina y producción animal
    ITEA Informacion Tecnica Economica Agraria, 2010
    Co-Authors: Juan Gadea, F A Garcia-vazquez
    Abstract:

    Transgenic animals have been a great improvement for science and health. The lastest technological developments have lead to the generation of a broad variety of transgenic pigs with diverse aims and applications. In this manuscript, we describe and analyze the usage and applications of the transgenic pigs in Biomedicine and agriculture. The applications of transgenic pigs in Biomedicine included models for human diseases, production of bio-pharmacological substances and xenotransplantation. The agriculture applications of transgenic pigs are disease resistance, increases in the production and quality of animal products and pollution reduction. The use of transgenic pigs is higher in Biomedicine than in agriculture. This is due to the severe restriction of consumption of food products derived from genetic modified organisms (GMO's).

Brendan J. Frey - One of the best experts on this subject based on the ideXlab platform.

  • Deep learning in Biomedicine
    Nature Biotechnology, 2018
    Co-Authors: Michael Wainberg, Daniele Merico, Andrew Delong, Brendan J. Frey
    Abstract:

    Brendan Frey and colleagues provide a personal overview of the machine learning field and in particular deep learning. They outline the technical challenges in applying machine learning to different types of biological and biomedical data and go on to discuss the challenges in implementing these approaches in the clinical realm, in drug discovery programs and within regulatory agencies. Deep learning is beginning to impact biological research and biomedical applications as a result of its ability to integrate vast datasets, learn arbitrarily complex relationships and incorporate existing knowledge. Already, deep learning models can predict, with varying degrees of success, how genetic variation alters cellular processes involved in pathogenesis, which small molecules will modulate the activity of therapeutically relevant proteins, and whether radiographic images are indicative of disease. However, the flexibility of deep learning creates new challenges in guaranteeing the performance of deployed systems and in establishing trust with stakeholders, clinicians and regulators, who require a rationale for decision making. We argue that these challenges will be overcome using the same flexibility that created them; for example, by training deep models so that they can output a rationale for their predictions. Significant research in this direction will be needed to realize the full potential of deep learning in Biomedicine.

  • Deep learning in Biomedicine
    Nature Biotechnology, 2018
    Co-Authors: Michael Wainberg, Daniele Merico, Andrew Delong, Brendan J. Frey
    Abstract:

    Brendan Frey and colleagues provide a personal overview of the machine learning field and in particular deep learning. They outline the technical challenges in applying machine learning to different types of biological and biomedical data and go on to discuss the challenges in implementing these approaches in the clinical realm, in drug discovery programs and within regulatory agencies.

Prakash M. Nadkarni. - One of the best experts on this subject based on the ideXlab platform.