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Medical progress through technology

Showing results (111-120 of 492) with videos related to

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Medical Progress Through Technology|May 1, 1995
Development of a ferrocene-mediated needle-type glucose sensor covered with newly designed biocompatible membrane, 2-methacryloyloxyethyl phosphorylcholine-co-n-butyl methacrylateK Nishida, M Sakakida, K Ichinose, et al.
Medical Progress Through Technology|January 1, 1983
In vitro testing of a new driver for the pneumatic total artificial heart with inherent cardiac output measuring systemC I Frumento, W D Auch, A S Frumento
Medical Progress Through Technology|January 1, 1983
A computer-based system for the study of ECG/VCG variabilityG Oldano, F Pinciroli
Medical Progress Through Technology|January 1, 1993
On-line image verification in radiation therapy: an early USA experienceJ W Wong, R L Gerber, J M Michalski, et al.
Medical Progress Through Technology|April 25, 1977
A hardware device for recognition of P and QRS wavesP Lorente, D Henzel, A Bardou, et al.
Medical Progress Through Technology|May 23, 1978
Heat and mass transfer of a thermal indicator in pulsatile flow through the cardio-pulmonary system. II. Identification of cardiac outputF Cassot, A Saadjian, C McKay
Medical Progress Through Technology|January 1, 1980
New catheter-pump system for diastolic synchronized coronary sinus retroperfusionJ C Farcot, M Barry, J P Bourdarias, et al.
Medical Progress Through Technology|May 1, 1990
Characterization of passive electrical properties of excitable cells using optimization methodsB L Bardakjian
Medical Progress Through Technology|May 1, 1990
A miniature voltmeter for monitoring small amplitude electrical activity in the hypothermic arrested myocardiumA E Marble, R W Landymore, D W Church
Medical Progress Through Technology|May 1, 1990
Myoelectric control systems research at the Bio-Engineering Institute, University of New BrunswickR N Scott
Pageof 50

Showing results (111-120 of 492) with videos related to

Sort By:
Pageof 50
Medical Progress Through Technology|May 1, 1995
Development of a ferrocene-mediated needle-type glucose sensor covered with newly designed biocompatible membrane, 2-methacryloyloxyethyl phosphorylcholine-co-n-butyl methacrylateK Nishida, M Sakakida, K Ichinose, et al.
Medical Progress Through Technology|January 1, 1983
In vitro testing of a new driver for the pneumatic total artificial heart with inherent cardiac output measuring systemC I Frumento, W D Auch, A S Frumento
Medical Progress Through Technology|January 1, 1983
A computer-based system for the study of ECG/VCG variabilityG Oldano, F Pinciroli
Medical Progress Through Technology|January 1, 1993
On-line image verification in radiation therapy: an early USA experienceJ W Wong, R L Gerber, J M Michalski, et al.
Medical Progress Through Technology|April 25, 1977
A hardware device for recognition of P and QRS wavesP Lorente, D Henzel, A Bardou, et al.
Medical Progress Through Technology|May 23, 1978
Heat and mass transfer of a thermal indicator in pulsatile flow through the cardio-pulmonary system. II. Identification of cardiac outputF Cassot, A Saadjian, C McKay
Medical Progress Through Technology|January 1, 1980
New catheter-pump system for diastolic synchronized coronary sinus retroperfusionJ C Farcot, M Barry, J P Bourdarias, et al.
Medical Progress Through Technology|May 1, 1990
Characterization of passive electrical properties of excitable cells using optimization methodsB L Bardakjian
Medical Progress Through Technology|May 1, 1990
A miniature voltmeter for monitoring small amplitude electrical activity in the hypothermic arrested myocardiumA E Marble, R W Landymore, D W Church
Medical Progress Through Technology|May 1, 1990
Myoelectric control systems research at the Bio-Engineering Institute, University of New BrunswickR N Scott
Pageof 50