Amir Manbachi
Amir Manbachi | |
---|---|
Nationality | Iranian-born Canadian-American |
Occupation | Professor |
Academic background | |
Alma mater | University of Toronto |
Academic work | |
Discipline | |
Institutions | |
Notable works | Towards Ultrasound-guided Spinal Fusion Surgery (2018) |
Amir Manbachi (Persian: امیر منبع چی) is an Iranian-born, Canadian-American academic and researcher, currently working as an Associate Professor of Neurosurgery and Biomedical Engineering at Johns Hopkins School of Medicine, and known for his work in Medical Ultrasound.[1] He is the co-founder and current director of HEPIUS Innovation Lab at Johns Hopkins University.[2]
Biography
[edit]Manbachi is of Iranian descent.[2] He attended the University of Toronto, where he completed his bachelor's degree in applied sciences (BASc) in the Engineering Science (Physics) program.[3] Later, he obtained his master's degree and a PhD in biomedical engineering at the University of Toronto.[3][2][4] During his third year as a PhD candidate, he, along with his university advisers, established Spinesonics Medical which developed a sensor designed to aid in vertebral screw insertion procedures.[5][6] They received $850,000 of grant funding to support their research and development efforts.[5]
In 2016, Manbachi joined the Department of Biomedical Engineering at Johns Hopkins University as a research faculty member.[3][7] At Johns Hopkins University, he co-founded HEPIUS Innovation Labs and now serves as its director.[8][9] He also served as an associate director of the Center for Bioengineering Innovation and Design.[10]
In 2018, Manbachi and Nao J. Gamo began researching ultrasound technology with the potential to target and "burn" brain tumors.[10] They received a total of $750,000 in grant funding from Hopkins, Maryland Technology Development Corp., and the Wallace H. Coulter Foundation for this purpose.[10]
In 2020, Manbachi and a team co-led by Nicholas Theodore at Johns Hopkins Medicine were awarded a $13.5M grant from the Defense Advanced Research Projects Agency (DARPA) to research wearable and implantable ultrasound technologies for spinal cord injury patients.[11][12]
In 2022, Manbachi received Baltimore Business Journal's 40 under 40 award, and secured a Johns Hopkins Discovery award.[2]
In 2023, the HEPIUS Innovation Lab at Hopkins, led by Manbachi, received a Food and Drug Administration Breakthrough Device Designation for a novel ultrasound imaging implant.[9][13]
In 2024, he received American Institute of Ultrasound in Medicine's Peter Arger Excellence in Medical Student Education Award as well as the Hisako Terasaki's Young Innovator Award. [14] [15] [16]
Awards and recognition
[edit]- 40 under 40 by Baltimore Business Journal[2]
- Hisako Terasaki's Young Innovator Award 2024
- AIUM's Peter Arger Excellence in Medical Student Education Award 2024
- University of Toronto's Engineering Alumni Network (EAN) Research & Innovation Award 2024 [17]
- University of Toronto's 2015 Inventor of the year award
- Robert B. Pond Sr. Excellence in Teaching Excellence Award, Johns Hopkins University, Whiting School of Engineering[18]
- Johns Hopkins Inst for Clinical and Translational Research’s KL2 Clinical Research Scholar, 2020
- FDA Breakthrough designation pathway awarded to his MUSIC device invention, 2023
Selected publications
[edit]- Manbachi, Amir; Cobbold, Richard S C (November 2, 2011). "Development and Application of Piezoelectric Materials for Ultrasound Generation and Detection". Ultrasound. 19 (4): 187–196. doi:10.1258/ult.2011.011027. S2CID 56655834 – via CrossRef.
- Abramson, Haley G.; Curry, Eli J.; Mess, Griffin; Thombre, Rasika; Kempski-Leadingham, Kelley M.; Mistry, Shivang; Somanathan, Subhiksha; Roy, Laura; Abu-Bonsrah, Nancy; Coles, George; Doloff, Joshua C.; Brem, Henry; Theodore, Nicholas; Huang, Judy; Manbachi, Amir (February 2, 2022). "Automatic detection of foreign body objects in neurosurgery using a deep learning approach on intraoperative ultrasound images: From animal models to first in-human testing". Frontiers in Surgery. 9: 1040066. doi:10.3389/fsurg.2022.1040066. PMC 9748097. PMID 36532130.
- Aghabaglou, Fariba; Ainechi, Ana; Abramson, Haley; Curry, Eli; Kaovasia, Tarana Parvez; Kamal, Serene; Acord, Molly; Mahapatra, Smruti; Pustavoitau, Aliaksei; Smith, Beth; Azadi, Javad; Son, Jennifer K.; Suk, Ian; Theodore, Nicholas; Tyler, Betty M.; Manbachi, Amir (October 2, 2022). "Ultrasound monitoring of microcirculation: An original study from the laboratory bench to the clinic". Microcirculation. 29 (6–7): e12770. doi:10.1111/micc.12770. PMC 9786257. PMID 35611457.
- Kempksi Leadingham, K.M.; Abramson, H.G.; Perdomo-Pantoja, A.; Thombre, R.; Liu, J.; Norman, M.; Chavez, F.; Morrison, K.; Suk, I.; Gordon, C.; Armand, M.; Manbachi, A. (2022). "Design of a Custom Flexible Ultrasound Transducer as an Implantable Cranial Sensor for Long-Term Post-Operative Monitoring of Brain Tumor Regrowth". 2022 IEEE International Ultrasonics Symposium (IUS). pp. 1–4. doi:10.1109/IUS54386.2022.9958345. ISBN 978-1-6654-6657-8. S2CID 254155937.
- Routkevitch, Denis; Hersh, Andrew M.; Kempski, Kelley M.; Kerensky, Max; Theodore, Nicholas; Thakor, Nitish V.; Manbachi, Amir (October 2, 2022). "FlowMorph: Morphological Segmentation of Ultrasound-Monitored Spinal Cord Microcirculation". 2022 IEEE Biomedical Circuits and Systems Conference (BioCAS). Vol. 2022. pp. 610–614. doi:10.1109/biocas54905.2022.9948639. ISBN 978-1-6654-6917-3. PMC 9870043. PMID 36695674.
- Kerensky, Max; Paul, Abhijit; Routkevitch, Denis M.; Hersh, Andrew; Kempski Leadingham, Kelley M; Thakor, Nitish V.; Theodore, Nicholas; Manbachi, Amir (January 5, 2024). "Tethered spinal cord tension assessed via ultrasound elastography in computational and intraoperative human studies". Nature Communications Medicine. 2024 (1): 4. doi:10.1038/s43856-023-00430-6. PMC 10770351. PMID 38182729.
Bibliography
[edit]- Manbachi, Amir; M. Kempski Leadingham, Kelley; J. Curry, Eli (28 November 2022). The Abundant Promise of Ultrasound in Neurosurgery: A Broad Overview and Thoughts on Ethical Paths to Realizing Its Benefits. ISBN 9781510657250.
- Manbachi, Amir (27 May 2018). Towards Ultrasound-guided Spinal Fusion Surgery. Springer International Publishing. ISBN 9783319806648.
References
[edit]- ^ Staff, Daily Record (March 12, 2021). "Hopkins professors earn grants through Bisciotti Foundation Translational Fund".
- ^ a b c d e "40 Under 40: Amir Manbachi, Johns Hopkins University".
- ^ a b c "The path to a faculty position: Q & A with alumnus Amir Manbachi". Biomedical Engineering - University of Toronto. June 23, 2016.
- ^ "Princely Persian performers". The Varsity. January 23, 2007.
- ^ a b "Job situation may get worse for Ontario graduates". The Canadian Press. September 11, 2013.
- ^ Babbage, Maria (September 11, 2013). "Challenges just beginning for Ontario, Canada's most populous have-not province". CTVNews.
- ^ "Trump fires acting AG over her stance not to enforce travel ban". Baltimore Sun. January 31, 2017.
- ^ "Amir Manbachi".
- ^ a b "Johns Hopkins lab aiming to improve spinal cord injury care hits FDA milestone".
- ^ a b c "Hopkins-born venture aims to use ultrasound technology to treat brain tumors".
- ^ "Focused Ultrasound for Spinal Cord Injury: Johns Hopkins Receives Funding for New Device". October 30, 2020.
- ^ "$13.48M Awarded to Johns Hopkins Scientists to Develop Implantable Ultrasound Devices for Patients with Spinal Cord Injury - Johns Hopkins Technology Ventures". ventures.jhu.edu. October 30, 2020.
- ^ "Fire Awards 2023: HEPIUS Innovation Lab".
- ^ "AIUM Recognizes Leaders in Ultrasound Medicine at UltraCon 2024" (Press release).
- ^ "AIUM Recognizes Leaders in Ultrasound Medicine at UltraCon 2024".
- ^ "eurekalert 2024: Hisako Terasaki Younge Innovator Award".
- ^ "UofT Alumni Award 2024". UToronto EAN.
- ^ "Amir Manbachi, Ph.D., M.Sc., Associate Professor of Neurosurgery". Johns Hopkins Medicine.