SBIR-STTR Award

It is proposed to develop an innovative technology for the immediate and accurate diagnosis of pneumothorax. An actuator-sensor pair operating in the acoustic audible frequency range are connected to a computer that will immediately report the presence or absence of acoustic changes consistent with a diagnosis of pneumothorax. We anticipate that the final product(s) will be both inexpensive and portable. This technology may lead to a substantial decrease in mortality, morbidity and health care costs associated with pneumothorax. Phase 1 research will test feasibility in a dog model.Proposed Commercial Application:The proposed device would have major commercial potential with possible purchase by emergency departments, intensive care units, military medical units, airlines and ambulances.

Thesaurus Terms:
biomedical equipment development, diagnosis design /evaluation, pneumothorax disorder, portable biomedical equipment, respiratory disorder diagnosis, ultrasound scanning rapid diagnosis, sound frequency bioimaging /biomedical imaging, dog

Pneumothorax refers to air accumulation in the space between the lung and the chest wall. The many potential causes include spontaneous rupture of small alveoli or blebs, progression of inflammatory diseases, complications of diagnostic or therapeutic procedures, plus penetrating (e.g., knife or bullet) or blunt chest trauma (e.g., motor vehicle accidents). It is estimated that over 50,000 cases occur each year. Morbidity and mortality would be reduced with improved diagnosis of pneumothorax. We propose development of an innovative technology for immediate and accurate detection of this condition using (audible frequency) sound waves. (This is now ultrasound, nor an imagining technology.) The essential hypothesis is that sound travels through chest structures differently when a pneumothorax is present, and that these changes are diagnostic. The envisioned final product would display an answer as "positive," "negative," or (rarely) "indeterminate." The proposed device would be portable, inexpensive, safe, and easy to use. The core method involves inputting an acoustic signal into the mouth, and "listening for" changes at the chest wall with computerized analysis of signals from an "electronic stethoscope." It would consist of a sound generator ("speaker"), acoustic sensors ("microphones"), plus signal processing and display units. The first generation commercial device will be for incubated patients and use a notebook computer studies aimed at optimizing the technique and demonstrating its utility under likely use restrictions. Given the medical and cost advantages of the technology, significant commercial potential is anticipated with purchase by emergency departments, intensive care units, ambulances and military medical units.

Thesaurus Terms:
biomedical equipment development, diagnosis design /evaluation, pneumothorax disorder, respiratory disorder diagnosis, sound clinical biomedical equipment, information display, mathematical model, portable biomedical equipment, rapid diagnosis, sound frequency clinical research, dog, human subject