Title :
High-power acoustic insult to cells as studied by acoustic microscopy
Author :
Miyasaka, C. ; Halter, R. ; Tittmann, B.R. ; Hymer, W. ; Nicholas, N.
Author_Institution :
Pennsylvania State Univ., University Park, PA, USA
Abstract :
A plurality of articles discussing combined effects of acoustic high-pressure and heat caused by acoustic vibration on biological tissues and cells has been introduced. Herein, we contribute the first article describing the use of a blunt impact caused by high-power ultrasonic pulses for insulting living human skin cells, wherein the impact does not generate heat. The pulses were generated by an apparatus comprising a liquid horn (i.e., water filled horn) including a concave transducer, an apparatus comprising a solid horn (i.e., aluminum waveguide horn) including a disc transducer, and a laser induced ultrasonic shock wave system, wherein the pressures caused by the pulses were measured by a hydrophone, and wherein temperature was monitored by thermocouples. Phenomena indicating cellular insult and injury (e.g., shrinkage or lift-off) were clearly visualized with scanning acoustic microscopy with frequency at 1.0 GHz
Keywords :
acoustic microscopy; biological effects of acoustic radiation; cellular effects of radiation; hydrophones; skin; ultrasonic effects; ultrasonic transducers; 1.0 GHz; blunt impact; cellular injury; cellular insult; concave transducer; disc transducer; high-power acoustic insult; human skin cells; hydrophone; laser induced ultrasonic shock wave system; liquid horn; scanning acoustic microscopy; solid horn; thermocouples; ultrasonic pulses; Acoustic pulses; Aluminum; Biological tissues; Cells (biology); Humans; Optical pulse generation; Pulse measurements; Skin; Solids; Ultrasonic transducers;
Conference_Titel :
Ultrasonics Symposium, 2001 IEEE
Conference_Location :
Atlanta, GA
Print_ISBN :
0-7803-7177-1
DOI :
10.1109/ULTSYM.2001.991952
