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Volumn 33, Issue 6, 2009, Pages 464-468
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Design of an artificial left ventricular muscle: An innovative way to actuate blood pumps?
a
University College
*
(Belgium)
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Author keywords
Actuator; Artificial; Blood pump; Contraction; Heart; Left ventricle; Muscle; Pneumatics; Torsion; Wall deformation
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Indexed keywords
ARTIFICIAL HEART;
BLOOD;
CELLS;
CYTOLOGY;
DEFORMATION;
HEART;
HYDRAULIC EQUIPMENT;
HYDRAULIC MODELS;
MUSCLE;
PHYSIOLOGICAL MODELS;
PUMPS;
ROTATION;
VALVES (MECHANICAL);
WALLS (STRUCTURAL PARTITIONS);
ARTIFICIAL;
ARTIFICIAL LEAVES;
BLOOD PUMP;
DEFORMATION PATTERN;
INNOVATIVE DESIGN;
LEFT VENTRICLES;
LEFT VENTRICULAR;
PUMP FUNCTION;
VENTRICULAR WALLS;
WALL DEFORMATION;
PNEUMATICS;
PLASTIC;
ARTIFICIAL ORGAN;
ATMOSPHERIC PRESSURE;
BLOOD PUMP;
EXPERIMENTAL MODEL;
GEOMETRY;
HEART AFTERLOAD;
HEART CONTRACTION;
HEART LEFT VENTRICLE ENDDIASTOLIC PRESSURE;
HEART LEFT VENTRICLE ENDDIASTOLIC VOLUME;
HEART LEFT VENTRICLE MUSCLE;
HEART LEFT VENTRICLE PRESSURE;
HEART LEFT VENTRICLE VOLUME;
HEART MUSCLE CELL;
HEART PRELOAD;
HEART RATE;
HEART STROKE VOLUME;
HEART VENTRICLE COMPLIANCE;
MOTION;
PRIORITY JOURNAL;
RESISTANCE BLOOD VESSEL;
SHORT SURVEY;
SYSTOLE;
TISSUE EXPANSION;
TORSION;
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EID: 66449090987
PISSN: 0160564X
EISSN: 15251594
Source Type: Journal
DOI: 10.1111/j.1525-1594.2009.00750.x Document Type: Short Survey |
Times cited : (3)
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References (3)
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