Development of a microprocessor controlled cryosurgical system

Proceedings of the IEEE 31st Annual Northeast Bioengineering Conference, 2005. Pub Date : 2005-04-02 DOI:10.1109/NEBC.2005.1431935

P. Flosdorf, J. Enderle

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Abstract

This paper presents the development of a microprocessor controlled cryosurgical system optimized for dermatologic cryosurgery. The cryosurgical system was developed to provide the user with the accurate control of the three critical parameters of cryosurgery; rate of freeze, duration of ice ball formation, and rate of tissue thaw. The design, based on the Joule-Thompson principle, provides accurate control of the high-pressure nitrous oxide gas, and demonstrates two distinct advantages not currently available with the traditional liquid nitrogen systems. The first is a user defined temperature selection, which allows the clinical practitioner to select the optimal probe temperature for specific cases, and the second is the inclusion of predefined tissue thaw cycles that will provide increased tissue destruction over the currently used spontaneous thaw practice. Design for this instrument was based on physiologic properties obtained from clinical and tissue modeling studies. Cryo-system theory and resources provided by MIRA, Inc. (Uxbridge, Massachusetts) also provided the basis for the development of this system.

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微处理器控制冷冻手术系统的研制

本文介绍了一种微处理器控制的皮肤冷冻手术系统的开发。开发的冷冻手术系统为用户提供对冷冻手术三个关键参数的精确控制;冻结的速度，冰球形成的持续时间，组织解冻的速度。该设计基于焦耳-汤普森原理，提供了对高压氧化亚氮气体的精确控制，并展示了传统液氮系统目前不具备的两个明显优势。第一个是用户定义的温度选择，它允许临床医生为特定病例选择最佳的探针温度，第二个是包含预定义的组织解冻周期，这将比目前使用的自发解冻实践提供更多的组织破坏。该仪器的设计是基于从临床和组织建模研究中获得的生理特性。MIRA, Inc. (Uxbridge, Massachusetts)提供的低温系统理论和资源也为该系统的开发提供了基础。

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Proceedings of the IEEE 31st Annual Northeast Bioengineering Conference, 2005.

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