| Interstitial, Endocavitary and Perfusional Hyperthermia: Methods and Clinical Trials Softcover Repri Edition Contributor(s): Cosset, J. M. (Other), Gautherie, Michel (Editor), Bichler, K. -H (Other) |
|
 |
ISBN: 364274642X ISBN-13: 9783642746420 Publisher: Springer OUR PRICE: $104.49 Product Type: Paperback - Other Formats Published: December 2011 |
| Additional Information |
| BISAC Categories: - Medical | Dermatology - Medical | Oncology - General - Medical | Radiology, Radiotherapy & Nuclear Medicine |
| Dewey: 616.994 |
| Physical Information: 90 pages |
| Descriptions, Reviews, Etc. |
| Publisher Description: "Internal" hyperthermia is a type of thermotherapy by which heat is sup- plied to tumor tissue in situ. There are three different techniques for pro- viding internal hyperthermia: (1) interstitial hyperthermia using implanted needle probes, (2) intracavitary hyperthermia using probes introduced into natural body cavities, and (3) perfusional hyperthermia by means of ex- tracorporal blood heating. Compared with external hyperthermia, internal hyperthermia has been preferentially accepted by oncologists because it can be more easily combined with other forms of treatment, e. g., interstitial thermotherapy with brachytherapy, or perfusional hyperthermia with che- motherapy. Various types of equipment for interstitial and intracavitary thermotherapy have been developed and used quite extensively in clinical trials, generally in combination with radiation therapy. There are four different methods for producing interstitial or intracavitary hyperthermia, each related to different types of heating. Most studies have been performed using radiofrequency electrodes (resistive heating) or coaxial microwave antennas (radiative heating). Recently, however, "hot source" techniques that rely on thermal conduction and blood flow convection for heat transport have found clinical application. These techniques include ferromagnetic implants activated by hot water or by electrical means. In the near future, new methods for in- terstitial or intraluminal heating based upon advanced ultrasonic and laser technologies will be developed. |