Title :
Null-balance transducer for isometric force measurements and length control of single heart cells
Author :
Luo, Ching-Hsing ; Tung, Leslie
Author_Institution :
Dept. of Biomed. Eng., Johns Hopkins Univ., Baltimore, MD, USA
Abstract :
An ultrasensitive, optical-fiber-based force transducer was developed to measure the microscopic force of contraction of single heart cells. The original design permits approximately 1% shortening of cell length to occur during twitch contractions. It is shown that the shortening can be reduced significantly by adding a piezoelectric bimorph actuator and closed-loop control. As a result, the effective stiffness of the transducer can be increased by a factor of about 100, and cell shortening reduced to approximately 0.01%. For the force probes typically used, this is equivalent to a movement of less than 20 nm for a typical value of 100 nN peak cell force in single frog ventricular cells. The gain in stiffness is obtained without sacrificing sensitivity, although at the expense of frequency response. The design permits control of cell length and is applicable to studies of the mechanical stiffness of cardiac cells.
Keywords :
biological techniques and instruments; biomechanics; cardiology; cellular biophysics; fibre optic sensors; force measurement; transducers; cardiac cell mechanical stiffness; cell length control; closed-loop control; isometric force measurements; microscopic force; null-balance transducer; optical-fiber-based force transducer; piezoelectric bimorph actuator; single frog ventricular cells; single heart cells; twitch contractions; Biomedical engineering; Biomedical measurements; Extracellular; Force control; Force measurement; Heart; Length measurement; Muscles; Probes; Transducers; Animals; Isotonic Contraction; Myocardial Contraction; Rana pipiens; Transducers;
Journal_Title :
Biomedical Engineering, IEEE Transactions on
