Abstract
Abstract This article describes contractile performance and controllability using different stimulation strategies of a bioactuator made from dorsal vessel (DV) tissue harvested from an insect (final stage moth larva). This insect tissue is an excellent bioactuator because of its high robustness; an accurate adjustment of culturing conditions such as temperature and pH necessary for culturing mammalian living tissues and cells is unnecessary for the DV tissue. There are no reports that measure contractile force of the DV tissue directly or measure response of the DV tissue when stimulated by different strategies systematically. To this aim, a force measurement system, which can measure contractile force directly and allows adjustment for the DV tissue length, was constructed, and the contractile properties of the DV tissue when stimulated by tensile, thermal, electrical, and chemical (crustacean cardioactive peptide [CCAP]) stimulations were evaluated with a force transducer. It was found that the tensile...
Published Version
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