The original paper is in English. Non-English content has been machine-translated and may contain typographical errors or mistranslations. ex. Some numerals are expressed as "XNUMX".
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The original paper is in English. Non-English content has been machine-translated and may contain typographical errors or mistranslations. Copyrights notice
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103
Il est urgent de prendre des mesures efficaces contre l’augmentation explosive des dépenses de santé. Un changement de paradigme dans les soins de santé est nécessaire, et les universitaires et les gouvernements du monde entier travaillent dur sur l'application des technologies de l'information et de la communication (TIC) comme mesure réalisable et efficace pour réduire les coûts médicaux. Plus la maladie est répandue et plus l’évolution de la maladie peut être améliorée, plus les TIC médicales sont efficaces pour réduire les coûts des soins de santé. L'hypertension et le diabète sucré en sont des exemples. L'insuffisance cardiaque chronique est une autre maladie dans laquelle les patients peuvent bénéficier d'une pratique médicale basée sur les TIC. Il est concevable qu'une surveillance quotidienne de l'hémodynamique associée à des traitements appropriés puisse éviter une hospitalisation coûteuse. Les TIC permettent potentiellement une surveillance continue avec des dispositifs médicaux portables ou implantables. Les TIC peuvent également contribuer à accélérer le développement de nouveaux dispositifs thérapeutiques. Traditionnellement, l’efficacité des traitements est examinée séquentiellement en sacrifiant un certain nombre d’animaux à un moment donné. Ces méthodes inefficaces et imprécises peuvent être remplacées par l’application des TIC aux appareils utilisés dans les expérimentations animales chroniques. Ces appareils permettent aux chercheurs d’obtenir des biosignaux et des images d’animaux vivants sans les tuer. Ils comprennent les dispositifs télémétriques implantables, les dispositifs de téléstimulation implantables et les appareils d'imagerie. Les dispositifs de surveillance et de stimulation implantés plutôt que filaires permettent de mener des expériences dans des conditions encore plus physiologiques, c'est-à-dire dans des états libres et libres. La communication sans fil et les TIC sont des technologies indispensables pour le développement de tels appareils de télémétrie et de téléstimulation.
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Masaru SUGIMACHI, Toru KAWADA, Kazunori UEMURA, "Telemetry and Telestimulation via Implanted Devices Necessary in Long-Term Experiments Using Conscious Untethered Animals for the Development of New Medical Treatments" in IEICE TRANSACTIONS on Communications,
vol. E93-B, no. 4, pp. 796-801, April 2010, doi: 10.1587/transcom.E93.B.796.
Abstract: Effective countermeasures against explosive increase in healthcare expenditures are urgently needed. A paradigm shift in healthcare is called for, and academics and governments worldwide are working hard on the application of information and communication technologies (ICT) as a feasible and effective measure for reducing medical cost. The more prevalent the disease and the easier disease outcome can be improved, the more efficient is medical ICT in reducing healthcare cost. Hypertension and diabetes mellitus are such examples. Chronic heart failure is another disease in which patients may benefit from ICT-based medical practice. It is conceivable that daily monitoring of hemodynamics together with appropriate treatments may obviate the expensive hospitalization. ICT potentially permit continuous monitoring with wearable or implantable medical devices. ICT may also help accelerate the development of new therapeutic devices. Traditionally effectiveness of treatments is sequentially examined by sacrificing a number of animals at a given time point. These inefficient and inaccurate methods can be replaced by applying ICT to the devices used in chronic animal experiments. These devices allow researchers to obtain biosignals and images from live animals without killing them. They include implantable telemetric devices, implantable telestimulation devices, and imaging devices. Implanted rather than wired monitoring and stimulation devices permit experiments to be conducted under even more physiological conditions, i.e., untethered, free-moving states. Wireless communication and ICT are indispensible technologies for the development of such telemetric and telestimulation devices.
URL: https://global.ieice.org/en_transactions/communications/10.1587/transcom.E93.B.796/_p
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@ARTICLE{e93-b_4_796,
author={Masaru SUGIMACHI, Toru KAWADA, Kazunori UEMURA, },
journal={IEICE TRANSACTIONS on Communications},
title={Telemetry and Telestimulation via Implanted Devices Necessary in Long-Term Experiments Using Conscious Untethered Animals for the Development of New Medical Treatments},
year={2010},
volume={E93-B},
number={4},
pages={796-801},
abstract={Effective countermeasures against explosive increase in healthcare expenditures are urgently needed. A paradigm shift in healthcare is called for, and academics and governments worldwide are working hard on the application of information and communication technologies (ICT) as a feasible and effective measure for reducing medical cost. The more prevalent the disease and the easier disease outcome can be improved, the more efficient is medical ICT in reducing healthcare cost. Hypertension and diabetes mellitus are such examples. Chronic heart failure is another disease in which patients may benefit from ICT-based medical practice. It is conceivable that daily monitoring of hemodynamics together with appropriate treatments may obviate the expensive hospitalization. ICT potentially permit continuous monitoring with wearable or implantable medical devices. ICT may also help accelerate the development of new therapeutic devices. Traditionally effectiveness of treatments is sequentially examined by sacrificing a number of animals at a given time point. These inefficient and inaccurate methods can be replaced by applying ICT to the devices used in chronic animal experiments. These devices allow researchers to obtain biosignals and images from live animals without killing them. They include implantable telemetric devices, implantable telestimulation devices, and imaging devices. Implanted rather than wired monitoring and stimulation devices permit experiments to be conducted under even more physiological conditions, i.e., untethered, free-moving states. Wireless communication and ICT are indispensible technologies for the development of such telemetric and telestimulation devices.},
keywords={},
doi={10.1587/transcom.E93.B.796},
ISSN={1745-1345},
month={April},}
Copier
TY - JOUR
TI - Telemetry and Telestimulation via Implanted Devices Necessary in Long-Term Experiments Using Conscious Untethered Animals for the Development of New Medical Treatments
T2 - IEICE TRANSACTIONS on Communications
SP - 796
EP - 801
AU - Masaru SUGIMACHI
AU - Toru KAWADA
AU - Kazunori UEMURA
PY - 2010
DO - 10.1587/transcom.E93.B.796
JO - IEICE TRANSACTIONS on Communications
SN - 1745-1345
VL - E93-B
IS - 4
JA - IEICE TRANSACTIONS on Communications
Y1 - April 2010
AB - Effective countermeasures against explosive increase in healthcare expenditures are urgently needed. A paradigm shift in healthcare is called for, and academics and governments worldwide are working hard on the application of information and communication technologies (ICT) as a feasible and effective measure for reducing medical cost. The more prevalent the disease and the easier disease outcome can be improved, the more efficient is medical ICT in reducing healthcare cost. Hypertension and diabetes mellitus are such examples. Chronic heart failure is another disease in which patients may benefit from ICT-based medical practice. It is conceivable that daily monitoring of hemodynamics together with appropriate treatments may obviate the expensive hospitalization. ICT potentially permit continuous monitoring with wearable or implantable medical devices. ICT may also help accelerate the development of new therapeutic devices. Traditionally effectiveness of treatments is sequentially examined by sacrificing a number of animals at a given time point. These inefficient and inaccurate methods can be replaced by applying ICT to the devices used in chronic animal experiments. These devices allow researchers to obtain biosignals and images from live animals without killing them. They include implantable telemetric devices, implantable telestimulation devices, and imaging devices. Implanted rather than wired monitoring and stimulation devices permit experiments to be conducted under even more physiological conditions, i.e., untethered, free-moving states. Wireless communication and ICT are indispensible technologies for the development of such telemetric and telestimulation devices.
ER -