Research
Stromatec Funded Research
- Automated Connective Tissue Torque Sensor 2 (R44 AT004379) PI: R Davis; Funded by: NIH NCCAM
- Acupuncture Needling Torque Sensor (R43 AT002021) PI: R Davis; Funded by: NIH NCCAM
- Acupuncture Needling Force and Motion Sensor (R44 AT002021) PI: R Davis; Funded by: NIH NCCAM
- Automated Connective Tissue Torque Sensor (R43 AT004379) PI: R Davis; Funded by: NIH NCCAM
- Scar Ablation Using High Intensity Focused Ultrasound; PI: H. Langevin; Funded by: NSF VT EPSCOR
- Connective Tissue Motion Measure (R43 AT006085) PI: R.Davis; Funded by: NIH NCCAM
Langevin UVM Basic Science Supporting Research
- Connective tissue mechanotransduction (RO1 AT 001121) PI: H. Langevin; Funded by: NIH NCCAM
- Soft tissue biomechanical behavior during acupuncture in low back pain
(R01) PI: H. Langevin; Funded by: NIH NCCAM - Acupuncture mechanism: mechanotransduction model (R01) PI: H. Langevin; Funded by: NIH NCCAM
- Investigation of the Effect of Acupuncture Needling on Connective Tissue using Ultrasound (R21) PI: H. Langevin; Funded by: NIH NCCAM
- Biomechanical effect of Acupuncture Needling (R01) PI: H. Langevin; Funded by: NIH NCCAM
