&lt;title&gt;Comparative studies on hyperthermia induced by laser light, microwaves, and ultrasonics&lt;/title&gt;

Greguss, Pal

doi:10.1117/12.48206

Cited by 1 publication

(1 citation statement)

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“…Few studies have compared the ability of different heating modalities to deliver energy for thermal therapy. Comparative studies have been conducted in the past in the hyperthermia temperature range, 40-45 • C (Greguss 1991), but these have mainly focused on the mechanisms causing cell death, rather than evaluating the relative effectiveness of the various modalities in depositing power in tissue.…”

Section: Introductionmentioning

confidence: 99%

A theoretical comparison of energy sources - microwave, ultrasound and laser - for interstitial thermal therapy

Skinner¹,

Iizuka²,

Kolios³

et al. 1998

Phys. Med. Biol.

234

146

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A number of heating sources are available for minimally invasive thermal therapy of tumours. The purpose of this work was to compare, theoretically, the heating characteristics of interstitial microwave, laser and ultrasound sources in three tissue sites: breast, brain and liver. Using a numerical method, the heating patterns, temperature profiles and expected volumes of thermal damage were calculated during standard treatment times with the condition that tissue temperatures were not permitted to rise above 100 degrees C (to ensure tissue vaporization did not occur). Ideal spherical and cylindrical applicators (200 microm and 800 microm radii respectively) were modelled for each energy source to demonstrate the relative importance of geometry and energy attenuation in determining heating and thermal damage profiles. The theoretical model included the effects of the collapse of perfusion due to heating. Heating patterns were less dependent on the energy source when small spherical applicators were modelled than for larger cylindrical applicators due to the very rapid geometrical decrease in energy with distance for the spherical applicators. For larger cylindrical applicators, the energy source was of greater importance. In this case, the energy source with the lowest attenuation coefficient was predicted to produce the largest volume of thermally coagulated tissue, in each tissue site.

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Section: Introductionmentioning

confidence: 99%