MicroFlex Technology for Early Detection of Lung Disease

Period of Performance: 07/01/2013 - 06/30/2014


Phase 2 STTR

Recipient Firm

Quest Product Development Corporation
Arvada, CO 80004
Principal Investigator


DESCRIPTION (provided by applicant): MicroFlex Technology for Early Detection of Lung Cancer Project Summary MicroFlex technology will provide unprecedented flexibility and controllability for bronchoscopes, enabling minimally invasive bronchoscopy to reach previously inaccessible peripheral bronchi and provide direct visualization and tool manipulation capabilities for diagnostic and therapeutic procedures. MicroFlex technology combines innovations in actuation, sensing, control and assembly to produce an ultra-slim digitally controlled bronchoscope more flexible and controllable than currently possible. This technology promises to improve detection, for example of early-stage lesions, and provide more accurate diagnoses to improve cure rates for lung cancer and other lung diseases. This project will refine technology proven in the Phase I study to design, fabricate and functionally test novel 1mm diameter actively-guided MicroFlex Tool prototypes for bronchoscopy procedures. A lung-specific MicroFlex device will be developed, built and tested in the laboratory for force and motion capabilities, a control manipulative and associated control electronics and software will be developed, and pulmonologists will test the integrated system in-vivo in animals for function and usability. Since MicroFlex tools are controlled by temperature change in internal actuators, thermal effects of contacting bronchial epithelial tissue will be studied for thermal tissue damage and validation of thermal control models. Effectiveness of a prototype MicroFlex device including a Guide Catheter and MicroFlex Tool will be evaluated in accessing peripheral sites down to a 1mm bronchiole diameter, visualizing tissue, placing markers and performing tissue sampling. MicroFlex technology, fabrication processes and prototypes will be refined by integrating input from experienced bronchoscopists, engineers with expertise in medical product design, and prospective Phase III manufacturing partners and suppliers of complementary technology. Potential Phase III manufacturing partners will be identified and utilized for Phase II prototype components, where possible, to accelerate the commercialization process.