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  • Title: Physics of surgery with lasers.
    Author: Polanyi TG.
    Journal: Clin Chest Med; 1985 Jun; 6(2):179-202. PubMed ID: 3928234.
    Abstract:
    The characteristics of the principal lasers used in surgery are summarized in Table 1. Their diverse effects on biologic tissues permit the following generalizations: The CO2 laser is best suited for precise, visually controllable tissue removal by vaporization with minimal marginal damage. Hemostasis is excellent for bleeding from capillary vessels, but difficult for larger ones. The Nd:YAG laser is best suited for the coagulation of larger tissue volumes of the order of 10 mm3 or more. Tissue heating inherently extends for several millimeters, leading to excellent hemostasis. Radiation from this laser is well transmitted through flexible optical fibers and clear fluids. The argon ion laser emits radiation in the visible range and is ideally suited for treating the retina and other tissues in the eye without damage to its transparent structures. Radiation of this laser is strongly absorbed by pigmented tissues, scattered and reflected by others, and transmitted by fluids. Its radiation can be focused to very small spot sizes, leading to high precision and high-power densities. It has hemostatic properties intermediate between those of the CO2 and of the Nd:YAG laser radiations. It is well transmitted through optical fibers and clear fluids. It is used extensively in ophthalmology and dermatology. Selected applications to neurosurgery and otology are being investigated. These lasers have become indispensable adjuncts to the surgical armamentarium of several specialties. The very success of these lasers is leading to a critical examination of their shortcomings and to a search for improved systems. Examples are (1) the ongoing search for optical fibers to transmit the radiation of the CO2 laser; (2) the development of systems for the sequential delivery to tissues of several wavelengths from a single unit (Fig. 14); and (3) investigations of tissue effects of laser beams in the ultraviolet and in the infrared at wavelengths intermediate between those of the Nd:YAG and CO2 lasers. The use of lasers has already contributed to improved medical care in many surgical disciplines. Additional areas of application can be confidently anticipated.
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