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Literature DB >> 309036

Influence of erythrocyte veloicty on impedance plethysmographic measurements.

R A Peura, B C Penney, J Arcuri, F A Anderson, H B Wheeler.

Abstract

Mesh：

Year: 1978 PMID： 309036 DOI： 10.1007/bf02451914

Source DB: PubMed Journal: Med Biol Eng Comput ISSN： 0140-0118 Impact factor: 2.602

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8 in total

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4. Conductivity of sheared suspensions of ellipsoidal particles with application to blood flow.

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5. The effect of frequency changes on the electrical conductance of moving and stationary blood.

Authors: R A Frewer
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6. The specific resistance of canine blood at body temperature.

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7. Evaluation of quantitative impedance plethysmography for continuous blood flow measurement. 3. Blood flow determination in vivo.

Authors: D G Young; R H Cox; E K Stoner; W J Erdman
Journal: Am J Phys Med Date: 1967-12

8. THE ELECTRIC RESISTANCE AND CAPACITY OF BLOOD FOR FREQUENCIES BETWEEN 800 AND 4(1/2) MILLION CYCLES.

Authors: H Fricke; S Morse
Journal: J Gen Physiol Date: 1925-11-20 Impact factor: 4.086

8 in total

10 in total

1. Fourier analysis of impedance rheography for peripheral arterial occlusive disease.

Authors: Othmar Schuhfried; Günther Wiesinger; Josef Kollmitzer; Christian Mittermaier; Michael Quittan
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2. In vitro and finite-element model investigation of the conductance technique for measurement of aortic segmental volume.

Authors: D A Hettrick; J H Battocletti; J J Ackmann; J H Linehan; D C Warltier
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3. Electric properties of flowing blood and impedance cardiography.

Authors: K R Visser
Journal: Ann Biomed Eng Date: 1989 Impact factor: 3.934

4. Potential distribution in the thorax in relation to electrical field plethysmography.

Authors: B Bhattacharya; S N Tandon
Journal: Med Biol Eng Comput Date: 1988-05 Impact factor: 2.602

5. Automated venous occlusion plethysmograph.

Authors: A M Sinton; A D Seagar; F M Davis
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6. Contribution of different sized vessels in the extremities to the arterial pulse waveform as recorded by electrical impedance and volume plethysmography.

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