Title :
Low-cost quantitative palpation device for breast lesion tracking and telehealth
Author :
Blank, Molly ; Antaki, James F.
Author_Institution :
Carnegie Mellon Univ. Biomed. Eng., Pittsburgh, PA, USA
Abstract :
Evaluation of tissues by palpation has been a regular part of physical examination for generations yet it relies on the experience and judgment of a clinician to derive clinical meaning from the sense of touch. Palpation of breast tissues is universally considered a key component in early detection and improving breast cancer outcomes, especially in low- and middle-income countries. We describe a diagnostic device based on an optical tonometer that uses an optical signal and a highly deformable elastomer to quantify the differential mechanical stiffness of interrogated tissues. Preliminary analyses of video and still images from palpation, both in-vivo and with synthetic analog tissues, with the system are described. This system offers an economical alternative to expensive imaging with the ability to be deployed on a mobile phone platform.
Keywords :
biological tissues; biomechanics; biomedical optical imaging; cancer; elastomers; medical image processing; smart phones; telemedicine; breast cancer; breast lesion tracking; breast tissue palpation; deformable elastomer; diagnostic device; differential mechanical stiffness; interrogated tissues; low-cost quantitative palpation device; mobile phone platform; optical signal; optical tonometer; physical examination; synthetic analog tissues; telehealth; tissue evaluation; video analysis; Breast; Cancer; Lesions; Optical filters; Optical imaging; Optical sensors; Prototypes;
Conference_Titel :
Healthcare Innovation Conference (HIC), 2014 IEEE
Conference_Location :
Seattle, WA
DOI :
10.1109/HIC.2014.7038929
