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Research Associate/Project Coordinator, Otolarynogology, Nova Scotia Health Authority

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Contact

Thomas Landry, PhD
Email: tglandry@dal.ca
Phone: 902-494-4151
Web: 

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Dr. Landry's research is focused on the development and performance assessment of miniatureÌýultrasound devices for imaging and therapy. The majority of the work is in developing a brain imaging and histotripsy ablation endoscope, but other projects include ultrasound imaging and vibrometry of the middle and inner ear structures, ultrasound-aided drug delivery to the cochlea.
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Our Group

Research in our laboratory is focused on the design, fabrication, and testing of ultrasonic frequency piezoelectric transducers and associated electronic hardware for medical applications. Specifically, we are focused on developing miniaturized ultrasound imaging endoscopes and miniaturized ultrasound therapeutic devices using an in house micro-fabrication facility targeting minimally invasive surgical applications.

Minimally invasive surgical approaches in comparison to open surgery, offer drastically improved patient outcomes including less blood loss, fewer complications, reduced recovery time, and a reduced chance of infection. To allow more procedures to be performed as minimally invasive, it’s important to develop new surgical tools specific to the minimally invasive surgical procedure. As these procedures are almost always performed through a very small incision or access route, the associated tools must be developed in a miniaturized form factor.

Publications:

  1. Landry, Thomas G., and Jeremy A. Brown. "B-mode and Doppler imaging of in vivo rat brain and ex vivo human brain with a high frequency endoscopic phased array."Ìý2019 IEEE International Ultrasonics Symposium (IUS). IEEE, 2019.Ìý
  2. Landry, Thomas G., et al. "No effect of prolonged pulsed high frequency ultrasound imaging of the basilar membrane on cochlear function or hair cell survival found in an initial study."ÌýHearing researchÌý363 (2018): 28-38.
  3. Landry, Thomas G., et al. "In vivo measurement of basilar membrane vibration in the unopened chinchilla cochlea using high frequency ultrasound."ÌýThe Journal of the Acoustical Society of AmericaÌý141.6 (2017): 4610-4621.Ìý
  4. Landry, Thomas G., et al. "Real-time intracochlear imaging of automated cochlear implant insertions in whole decalcified cadaver cochleas using ultrasound."ÌýCochlear implants internationalÌý19.5 (2018): 255-267.
  5. Landry, Thomas G., et al. "Real-time imaging of in-vitro human middle ear using high frequency ultrasound."ÌýHearing researchÌý326 (2015): 1-7.Ìý Ìý Ìý