Your search keyword '"heat treatment of thermosensitive pathogens"' showing total 3 results

1. Thermal field formation during wIRA-hyperthermia: temperature measurements in skin and subcutis of piglets as a basis for thermotherapy of superficial tumors and local skin infections caused by thermosensitive microbial pathogens

Author

Helmut Piazena, Werner Müller, Wolfgang Pendl, Sereina von Ah, Veronika H. Cap, Petra J. Hug, Xaver Sidler, Gerd Pluschke, and Peter Vaupel

Subjects

water-filtered infrared-a (wira-) hyperthermia, superficial hyperthermia, invasive temperature measurement, heat treatment of thermosensitive pathogens, hyperthermia of superficial tumors, Medical technology, R855-855.5

Abstract

Purpose: The temporal and spatial formation of the temperature field and its changes during/upon water-filtered infrared-A (wIRA)-irradiation in porcine skin and subcutis were investigated in vivo in order to get a detailed physical basis for thermotherapy of superficial tumors and infections caused by thermosensitive microbial pathogens (e.g., Mycobacterium ulcerans causing Buruli ulcer). Methods: Local wIRA-hyperthermia was performed in 11 anesthetized piglets using 85.0 mW cm−2, 103.2 mW cm−2 and 126.5 mW cm−2, respectively. Invasive temperature measurements were carried out simultaneously in 1-min intervals using eight fiber-optical probes at different tissue depths between 2 and 20 mm, and by an IR thermometer at the skin surface. Results: Tissue temperature distribution depended on incident irradiance, exposure time, tissue depths and individual ‘physiologies’ of the animals. Temperature maxima were found at depths between 4 and 7 mm, exceeding skin surface temperatures by about 1–2 K. Tissue temperatures above 37 °C, necessary to eradicate M. ulcerans at depths

Published

2019

2. Thermal field formation during wIRA-hyperthermia: temperature measurements in skin and subcutis of piglets as a basis for thermotherapy of superficial tumors and local skin infections caused by thermosensitive microbial pathogens.

Author

Piazena, Helmut, Müller, Werner, Pendl, Wolfgang, von Ah, Sereina, Cap, Veronika H., Hug, Petra J., Sidler, Xaver, Pluschke, Gerd, and Vaupel, Peter

Subjects

*SKIN temperature, *SKIN infections, *TEMPERATURE measurements, *BURULI ulcer, *SKIN tumors, *THERMOTHERAPY

Abstract

Purpose: The temporal and spatial formation of the temperature field and its changes during/upon water-filtered infrared-A (wIRA)-irradiation in porcine skin and subcutis were investigated in vivo in order to get a detailed physical basis for thermotherapy of superficial tumors and infections caused by thermosensitive microbial pathogens (e.g., Mycobacterium ulcerans causing Buruli ulcer). Methods: Local wIRA-hyperthermia was performed in 11 anesthetized piglets using 85.0mW cm-2, 103.2mW cm-2 and 126.5mW cm-2, respectively. Invasive temperature measurements were carried out simultaneously in 1-min intervals using eight fiber-optical probes at different tissue depths between 2 and 20 mm, and by an IR thermometer at the skin surface. Results: Tissue temperature distribution depended on incident irradiance, exposure time, tissue depths and individual 'physiologies' of the animals. Temperature maxima were found at depths between 4 and 7 mm, exceeding skin surface temperatures by about 1-2 K. Tissue temperatures above 37 °C, necessary to eradicate M. ulcerans at depths <20 mm, were reached reliably. Conclusions: wIRA-hyperthermia may be considered as a novel therapeutic option for treatment of local skin infections caused by thermosensitive pathogens (e.g., in Buruli ulcer). To ensure temperatures required for heat treatment of superficial tumors deeper than 4 mm, the incident irradiance needed can be controlled either by (a) invasive temperature measurements or (b) control of skin surface temperature and considering possible temperature increases up to 1-2 K in underlying tissue. [ABSTRACT FROM AUTHOR]

Published

2019

3. Thermal field formation during wIRA-hyperthermia: temperature measurements in skin and subcutis of piglets as a basis for thermotherapy of superficial tumors and local skin infections caused by thermosensitive microbial pathogens

Author

Peter Vaupel, Helmut Piazena, Sereina von Ah, Xaver Sidler, Veronika H Cap, P J Hug, Gerd Pluschke, Werner Müller, Wolfgang Pendl, University of Zurich, and Piazena, Helmut

Subjects

Hyperthermia, Buruli ulcer, Cancer Research, Pathology, medicine.medical_specialty, lcsh:Medical technology, Fever, Swine, Physiology, hyperthermia of superficial tumors, water-filtered infrared-a (wira-) hyperthermia, superficial hyperthermia, ) hyperthermia, Skin infection, A (wIRA, Temperature measurement, 030218 nuclear medicine & medical imaging, heat treatment of thermosensitive pathogens, 03 medical and health sciences, 2737 Physiology (medical), filtered infrared, 0302 clinical medicine, In vivo, Neoplasms, Physiology (medical), Skin surface, medicine, Animals, Humans, 1306 Cancer Research, Skin, invasive temperature measurement, Tissue temperature, 630 Agriculture, biology, Chemistry, Water, 1314 Physiology, Hyperthermia, Induced, medicine.disease, biology.organism_classification, 10187 Department of Farm Animals, lcsh:R855-855.5, 030220 oncology & carcinogenesis, Mycobacterium ulcerans, 11404 Department of Clinical Diagnostics and Services, 570 Life sciences

Abstract

Purpose: The temporal and spatial formation of the temperature field and its changes during/upon water-filtered infrared-A (wIRA)-irradiation in porcine skin and subcutis were investigated in vivo in order to get a detailed physical basis for thermotherapy of superficial tumors and infections caused by thermosensitive microbial pathogens (e.g., Mycobacterium ulcerans causing Buruli ulcer). Methods: Local wIRA-hyperthermia was performed in 11 anesthetized piglets using 85.0 mW cm−2, 103.2 mW cm−2 and 126.5 mW cm−2, respectively. Invasive temperature measurements were carried out simultaneously in 1-min intervals using eight fiber-optical probes at different tissue depths between 2 and 20 mm, and by an IR thermometer at the skin surface. Results: Tissue temperature distribution depended on incident irradiance, exposure time, tissue depths and individual ‘physiologies’ of the animals. Temperature maxima were found at depths between 4 and 7 mm, exceeding skin surface temperatures by about 1–2 K. Tissue temperatures above 37 °C, necessary to eradicate M. ulcerans at depths Conclusions: wIRA-hyperthermia may be considered as a novel therapeutic option for treatment of local skin infections caused by thermosensitive pathogens (e.g., in Buruli ulcer). To ensure temperatures required for heat treatment of superficial tumors deeper than 4 mm, the incident irradiance needed can be controlled either by (a) invasive temperature measurements or (b) control of skin surface temperature and considering possible temperature increases up to 1–2 K in underlying tissue.

Published

2019