Development and application of ultrasonic surgical instruments

Dong Sun; Zhaoying Y. Zhou; Yunhui H. Liu; Weizai Z. Shen

doi:10.1109/10.581934

Development and application of ultrasonic surgical instruments

Dong Sun, Zhaoying Y. Zhou, Yunhui H. Liu, Weizai Z. Shen

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

42 Citations (Scopus)

Abstract

In this paper, a new approach for designing ultrasonic surgical instruments (USI) is presented. These medical instruments convert an ultrasonic signal into a mechanical vibration by utilizing a magnetostrictive method and have been found to be very useful for various medical procedures. The implemented system consists of an ultrasonic generator, a transducer, and waveguide instruments. The generator produces a high-current ultrasonic signal. The transducer converts this signal into a mechanical vibration. By use of the waveguide instrument, the vibration can be propagated and amplified. This new type of USI possesses a comprehensive ability to stop bleeding, cut bone tissues, regulate frequency automatically, control temperature, etc. The results from animal experiments and from human clinical operations show that the developed USI has the advantages in various aspects over the conventional equipment.

Original language	English
Pages (from-to)	462-467
Journal	IEEE Transactions on Biomedical Engineering
Volume	44
Issue number	6
DOIs	https://doi.org/10.1109/10.581934
Publication status	Published - Jun 1997
Externally published	Yes

Research Keywords

Clinical operation
generator
magnetostriction
surgical instrument
transducer
ultrasound
waveguide

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title = "Development and application of ultrasonic surgical instruments",

abstract = "In this paper, a new approach for designing ultrasonic surgical instruments (USI) is presented. These medical instruments convert an ultrasonic signal into a mechanical vibration by utilizing a magnetostrictive method and have been found to be very useful for various medical procedures. The implemented system consists of an ultrasonic generator, a transducer, and waveguide instruments. The generator produces a high-current ultrasonic signal. The transducer converts this signal into a mechanical vibration. By use of the waveguide instrument, the vibration can be propagated and amplified. This new type of USI possesses a comprehensive ability to stop bleeding, cut bone tissues, regulate frequency automatically, control temperature, etc. The results from animal experiments and from human clinical operations show that the developed USI has the advantages in various aspects over the conventional equipment.",

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AU - Sun, Dong

AU - Zhou, Zhaoying Y.

AU - Liu, Yunhui H.

AU - Shen, Weizai Z.

PY - 1997/6

Y1 - 1997/6

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AB - In this paper, a new approach for designing ultrasonic surgical instruments (USI) is presented. These medical instruments convert an ultrasonic signal into a mechanical vibration by utilizing a magnetostrictive method and have been found to be very useful for various medical procedures. The implemented system consists of an ultrasonic generator, a transducer, and waveguide instruments. The generator produces a high-current ultrasonic signal. The transducer converts this signal into a mechanical vibration. By use of the waveguide instrument, the vibration can be propagated and amplified. This new type of USI possesses a comprehensive ability to stop bleeding, cut bone tissues, regulate frequency automatically, control temperature, etc. The results from animal experiments and from human clinical operations show that the developed USI has the advantages in various aspects over the conventional equipment.

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KW - generator

KW - magnetostriction

KW - surgical instrument

KW - transducer

KW - ultrasound

KW - waveguide

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JO - IEEE Transactions on Biomedical Engineering

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Development and application of ultrasonic surgical instruments

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Research Keywords

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