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Nicholas Theodore

{{Short description|American neurosurgeon}}

{{Infobox scientist

| name = Nicholas Theodore

| image = Nicholas Theodore at Johns Hopkins Hospital.jpg

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| caption = Nicholas Theodore at Johns Hopkins Hospital

| birth_place = San Diego, California

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| nationality = Greek

| fields = Trauma Neurosurgery, Spine, Robotics, Spinal Cord Injury

| workplaces = Johns Hopkins University

| alma_mater = Cornell University
Georgetown University School of Medicine

| awards = Mayfield Award (CNS), Tasker Award (CNS), "Teacher of the Year" (BNI, 2007, 2014), US News "Top Docs," Cornell Tradition Academic Fellowship

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Nicholas Theodore is an American neurosurgeon and researcher at Johns Hopkins University School of Medicine. He is known for his work in spinal trauma, minimally invasive surgery, robotics, and personalized medicine. He is Director of the Neurosurgical Spine Program at Johns Hopkins and Co-Director of the Carnegie Center for Surgical Innovation at Johns Hopkins.

Dr. Theodore graduated from Cornell University, where he was the recipient of a Cornell Tradition Academic Fellowship. He attended medical school at Georgetown University, where he graduated with honors. After completing his internship at Bethesda Naval Hospital, Dr. Theodore served as a Senior General Medical Officer with the United States Marine Corps in Okinawa, Japan.

Dr. Theodore completed his neurosurgical residency and a fellowship in spinal surgery at the Barrow Neurological Institute.{{Cite web|url=http://www.thebarrow.org/Who_We_Are/203540|title=Barrow Neurological Institute}} After completing his residency in 2001, he served as Chief of the Division of Neurosurgery at Naval Medical Center San Diego, overseeing the largest neurosurgery complement in the Navy.

In 2003, Dr. Theodore joined the faculty at the Barrow Neurological Institute, and assumed the position of Director of Neurotrauma. In 2004 he was appointed Associate Director of the Neurosurgery Residency Program at Barrow. The Neurosurgery Residency Program at Barrow is the largest in the United States, training four residents per academic year,{{Cite web |url=http://www.supportbarrow.org/stellent/groups/public/@xinternet_confnd_bni/documents/webcontent/219614.pdf |title=Barrow Research |archive-url=https://web.archive.org/web/20180130013627/https://www.supportbarrow.org/stellent/groups/public/@xinternet_confnd_bni/documents/webcontent/219614.pdf |archive-date=2018-01-30 |url-status=dead }} for a total of 28 residents. In 2009 he became the Chief of the Spine Section at the Barrow Neurological Institute and was appointed the Volker K.H. Sonntag Chair in 2015. In 2016 he became the second Donlin M. Long Professor of Neurosurgery at Johns Hopkins Hospital. Dr. Theodore also holds professorships in Orthopedics and Biomedical Engineering at Johns Hopkins. He is also actively involved in the area of preventative medicine within neurosurgery. He has been associated with the ThinkFirst Foundation for several years, having served as the foundation’s Medical Director and President. In 2017, Dr. Theodore was appointed to the National Football League’s Head, Neck and Spine Committee, of which he became Chairman in 2018.{{Cite web |url=https://operations.nfl.com/updates/football-ops/nfl-names-dr-nicholas-theodore-chairman-of-nfl-head-neck-and-spine-committee|title=National Football League's Head, Neck, Spine Committee|date=19 April 2018 }} In 2020, Michael J. Fox revealed in his memoir that Dr. Theodore performed a risky but successful surgery on him to remove an ependymoma in Fox’s spinal cord.{{Cite web|url=https://lithub.com/michael-j-fox-when-dealing-with-serious-medical-conditions-a-little-laughter-helps/|title=Michael J. Fox Deals With a Serious Medical Condition|date=18 November 2020}}{{Cite web|url=https://www.hopkinsmedicine.org/news/articles/grateful-and-impressed/|title=Michael J. Fox is Grateful and Impressed}}

Research

Dr. Theodore's main research focus is on complex spinal disorders, spinal cord injury, and advanced surgical technologies. He has published over 300 peer-reviewed articles and book chapters, and has given more than 300 technical presentations. He is the recipient of several awards, including the Mayfield Award and the Tasker Award from the Congress of Neurological Surgeons, as well as being named in "US News Top Docs".{{Cite web|url=http://health.usnews.com/top-doctors/nicholas-theodore-neurosurgeon-111CC000011|title=US News Top Docs}} He was one of the senior investigators in a multi-center study that tested a new medication for patients with spinal cord injury. Dr. Theodore has received an NIH RO-1 grant{{Cite web|url=http://www.eurekalert.org/pub_releases/2006-11/sjha-bra110706.php|title=NIH }} to study novel approaches to spinal surgery, as well as the development of customized devices for patients with spinal cord injury. Less than 10% of these grants are funded nationally.

In 2014, Dr. Theodore was the recipient of a United States Department of Defense grant to conduct a multi-center study evaluating the drainage of cerebrospinal fluid to treat of acute spinal cord injury. In 2010, Dr. Theodore founded Excelsius Surgical along with Neil Crawford and Mitch Foster, focusing on the development of a mobile real-time image-guided robot for spinal, brain, and biopsy applications. He sold Excelsius Surgical to Globus Medical four years later. In August 2017, the Globus Medical ExcelsiusGPS{{cite web |url=http://www.globusmedical.com |title=Innovation in Musculoskeletal Solutions Globus Medical}} robot received 510k clearance by the FDA and Dr. Theodore performed the first case in the world on October 4, 2017.{{Cite web|url=https://www.hopkinsmedicine.org/news/media/releases/johns_hopkins_surgeons_perform_first_real_time_image_guided_spine_surgery|title=Johns Hopkins Surgeons Perform First Time Image Guided Spine Surgery}}

In 2020, Dr. Theodore, and his team, received a grant in the amount of $13.48 million from the Defense Advanced Research Projects Agency’s (DARPA) Bridging the Gap+ program to fund research in new approaches to treatment of spinal cord injury. With this grant, Dr. Theodore, and his team, including biomedical engineer, Dr. Amir Manbachi, are pioneering futuristic efforts to treat patients with spinal cord injury by integrating novel imaging and therapeutic ultrasound and electrical modalities.{{Cite web|url=https://www.beckersspine.com/spine/50177-johns-hopkins-surgeons-awarded-13m-to-develop-ultrasound-devices-for-spinal-cord-injury.html|title=Johns Hopkins surgeons awarded $13M+ to develop ultrasound devices for spinal cord injury|first=Alan|last=Condon|website=beckersspine.com|date=12 October 2020 }}{{Cite web|url=https://spinalcordinjuryzone.com/news/54654/cross-disciplinary-team-will-design-develop-devices-to-better-treat-spinal-cord-injuries|title=Cross-disciplinary team will design, develop devices to better treat spinal cord injuries |date=November 11, 2020|website=Spinal Cord Injury Zone!}} As part of this program, Dr. Theodore, and Dr. Manbachi work alongside a world-class team of experts, including teams at Johns Hopkins Engineering, Applied Physics Laboratory, Columbia University, and Sonic Concepts.{{Cite web|url=https://www.darpa.mil/news-events/2020-11-09|title=DARPA Press Release}}{{Cite web|url=https://www.hopkinsmedicine.org/news/newsroom/news-releases/1348m-awarded-to-johns-hopkins-scientists-to-develop-implantable-ultrasound-devices-for-patients-with-spinal-cord-injury|title=JHU DARPA Press Release|date=12 October 2020}}{{Cite web|url=https://www.fusfoundation.org/posts/focused-ultrasound-for-spinal-cord-injury-johns-hopkins-receives-funding-for-new-device/|title=Focused Ultrasound for Spinal Cord Injury: Johns Hopkins Receives Funding for New Device|date=October 30, 2020}}{{Cite web|url=https://www.newswise.com/articles/13-48m-awarded-to-johns-hopkins-scientists-to-develop-implantable-ultrasound-devices-for-patients-with-spinal-cord-injury|title=$13.48M Awarded To Johns Hopkins Scientists To Develop Implantable Ultrasound Devices For Patients With Spinal Cord Injury|website=newswise.com}}

In 2020, Dr. Theodore published the largest series of patients who had undergone vertebral column shortening for tethered spinal cord syndrome. This article, which has the longest follow-up of other published series, established this procedure as a viable alternative to standard interventions.{{Cite web|url=https://academic.oup.com/neurosurgery/advance-article/doi/10.1093/neuros/nyaa491/6054595?login=true|title=Vertebral Column Shortening for Tethered Cord|journal=Neurosurgery|date=March 2021|volume=88|issue=3|pages=637–647|doi=10.1093/neuros/nyaa491|last1=Theodore|first1=Nicholas|last2=Cottrill|first2=Ethan|last3=Kalb|first3=Samuel|last4=Zygourakis|first4=Corinna|last5=Jiang|first5=Bowen|last6=Pennington|first6=Zach|last7=Lubelski|first7=Daniel|last8=Westbroek|first8=Erick M.|last9=Ahmed|first9=A Karim|last10=Ehresman|first10=Jeff|last11=Sciubba|first11=Daniel M.|last12=Witham|first12=Timothy F.|last13=Turner|first13=Jay D.|last14=Groves|first14=Mari|last15=Kakarla|first15=U Kumar|pmid=33372221|pmc=7884146}} In 2023, the team received the FDA's 'Breakthrough Device Designation' for implantable ultrasound sensors for patients with spinal cord injury.{{Cite web |last=Morris |first=Shaun |title=FDA Breakthrough Device Designation for Implantable Ultrasound Sensor for Patients With Spinal Cord Injury {{!}} HEPIUS |url=https://www.hopkinsmedicine.org/neurology_neurosurgery/research/labs/hepius/implantable-ultrasound-sensor.html |access-date=2023-01-29 |website=www.hopkinsmedicine.org |language=en}}{{Cite web |last=Morris |first=Shaun |title=HEPIUS Lab {{!}} Johns Hopkins Neurology and Neurosurgery |url=https://www.hopkinsmedicine.org/neurology_neurosurgery/research/labs/hepius/index.html |access-date=2023-01-29 |website=www.hopkinsmedicine.org |language=en}}

Dr. Theodore joined the medical advisory board for [https://harvardmedtech.com/ Harvard MedTech], which specializes in developing new treatments that combine Virtual reality, behavioral health coaching and Artificial intelligence algorithms to retrain neural pathways within the brain.{{Cite web |date=2023-01-10 |title=Lauded Neurosurgeon, Researcher and Inventor Nicholas Theodore, MD Joins Harvard MedTech's Medical Advisory Board |url=https://www.businesswire.com/news/home/20230110005162/en/Lauded-Neurosurgeon-Researcher-and-Inventor-Nicholas-Theodore-MD-Joins-Harvard-MedTech%E2%80%99s-Medical-Advisory-Board |access-date=2023-01-29 |website=www.businesswire.com |language=en}}{{Cite web |last=Behm |first=Carly |title=Dr. Nicholas Theodore joins Harvard MedTech medical advisory board |url=https://www.beckersspine.com/spine/56010-dr-nicholas-theodore-joins-harvard-medtech-medical-advisory-board.html |access-date=2023-01-29 |website=www.beckersspine.com |date=10 January 2023 |language=en-gb}}{{Cite web |title=Lauded Neurosurgeon, Researcher and Inventor Nicholas Theodore, MD Joins Harvard MedTech's Medical Advisory Board |url=https://autos.yahoo.com/lauded-neurosurgeon-researcher-inventor-nicholas-160000233.html |access-date=2023-01-29 |website=autos.yahoo.com |language=en-US}}

Recent publications

  • {{cite journal | last1 = Tsehay | first1 = Y | last2 = Zeng | first2 = Y | last3 = Weber-Levine | first3 = C | last4 = Awosika | first4 = T | last5 = Kerensky | first5 = M | last6 = Hersh | first6 = AM | last7 = Ou | first7 = Z | last8 = Jiang | first8 = K | last9 = Bhimreddy | first9 = M | last10 = Bauer | first10 = SJ | last11 = Theodore | first11 = JN | last12 = Quiroz | first12 = VM | last13 = Suk | first13 = I | last14 = Alomari | first14 = S | last15 = Sun | first15 = J | last16 = Tong | first16 = S | last17 = Thakor | first17 = NJ | last18 = Doloff | first18 = JC | last19 = Theodore | first19 = N | last20 = Manbachi | first20 = A | date = Jan 2023 | title = Low-Intensity Pulsed Ultrasound Neuromodulation of a Rodent's Spinal Cord Suppresses Motor Evoked Potentials | journal = IEEE Transactions on Biomedical Engineering | volume = 70 | issue = 7| pages = 1992–2001 | doi=10.1109/TBME.2022.3233345| pmid = 37018313 | pmc = 10510849 | s2cid = 255677715 }}
  • {{cite journal | last1 = Martirosyan | first1 = NL | last2 = Kalb | first2 = S | last3 = Cavalcanti | first3 = DD | last4 = Lochhead | first4 = RA | last5 = Uschold | first5 = TD | last6 = Loh | first6 = A | last7 = Theodore | first7 = N | year = 2011 | title = Comparative Analysis of Isocentric 3-dimensional C-arm Fluoroscopy and Biplanar Fluoroscopy for Anterior Screw Fixation in Odontoid Fractures | journal = J Spinal Disord Tech | volume = 26| issue = 4| pages = 189–93 | doi = 10.1097/BSD.0b013e31823f62c7 | pmid = 22158300 | s2cid = 38106839 }}
  • {{cite journal | last1 = Kalb | first1 = S | last2 = Reis | first2 = MT | last3 = Cowperthwaite | first3 = MC | last4 = Fox | first4 = DJ | last5 = Lefevre | first5 = R | last6 = Theodore | first6 = N | last7 = Papadopoulos | first7 = SM | last8 = Sonntag | first8 = VK | year = 2011 | title = Dysphagia After Anterior Cervical Spine Surgery: Incidence and Risk Factors | journal = World Neurosurg | volume = 77| issue = 1| pages = 183–7 | pmid = 22155226 | doi = 10.1016/j.wneu.2011.07.004 }}
  • {{cite journal | last1 = Brasiliense | first1 = LB | last2 = Lazaro | first2 = BC | last3 = Reyes | first3 = PM | last4 = Dogan | first4 = S | last5 = Theodore | first5 = N | last6 = Crawford | first6 = NR | date = Dec 2011 | title = Biomechanical contribution of the rib cage to thoracic stability | journal = Spine | volume = 36 | issue = 26| pages = E1686–93 | doi=10.1097/brs.0b013e318219ce84| pmid = 22138782 | s2cid = 19570292 }}
  • {{cite journal | last1 = Kalani | first1 = MY | last2 = Martirosyan | first2 = NL | last3 = Little | first3 = AS | last4 = Kakarla | first4 = UK | last5 = Theodore | first5 = N | date = Dec 2011 | title = Tumoral calcinosis presenting as a deformity of the thoracic spine | journal = J Neurosurg Pediatr | volume = 8 | issue = 6| pages = 584–7 | doi=10.3171/2011.8.peds11193| pmid = 22132916 }}
  • Kalani MY, Filippidis A, Martirosyan NL, Theodore N. "Cerebral Herniation as a Complication of Chest Tube Drainage of Cerebrospinal Fluid After Injury to the Spine. World Neurosurg. 2011;
  • Kalb S, Martirosyan NL, Kalani MY, Broc GG, Theodore N. "Genetics of the Degenerated Intervertebral Disc. World Neurosurg. 2011;
  • {{cite journal | last1 = Albuquerque | first1 = FC | last2 = Hu | first2 = YC | last3 = Dashti | first3 = SR | last4 = Abla | first4 = AA | last5 = Clark | first5 = JC | last6 = Alkire | first6 = B | last7 = Theodore | first7 = N | last8 = McDougall | first8 = CG | date = Dec 2011 | title = Craniocervical arterial dissections as sequelae of chiropractic manipulation: patterns of injury and management | journal = J Neurosurg | volume = 115 | issue = 6| pages = 1197–205 | doi=10.3171/2011.8.jns111212| pmid = 21923248 }}
  • {{cite journal | last1 = Martirosyan | first1 = NL | last2 = Feuerstein | first2 = JS | last3 = Theodore | first3 = N | last4 = Cavalcanti | first4 = DD | last5 = Spetzler | first5 = RF | last6 = Preul | first6 = MC | date = Sep 2011 | title = Blood supply and vascular reactivity of the spinal cord under normal and pathological conditions | journal = J Neurosurg Spine | volume = 15 | issue = 3| pages = 238–51 | doi=10.3171/2011.4.spine10543| pmid = 21663407 | hdl = 2286/R.I.38384 | hdl-access = free }}

References

{{Reflist}}

External links

  • [http://www.hopkinsmedicine.org/neurology_neurosurgery/index.html Johns Hopkins University Neurology & Neurosurgery]
  • [http://www.hopkinsmedicine.org/profiles/results/directory/profile/10003384/nicholas-theodore Nicholas Theodore, MD | Johns Hopkins Profile]
  • [https://www.ncbi.nlm.nih.gov/pubmed/?term=Theodore%2C%20Nicholas%5BFull%20Author%20Name%5D%20&cmd=DetailsSearch Publications | PubMed]

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Category:American neurosurgeons

Category:People from Phoenix, Arizona

Category:Cornell University alumni

Category:Georgetown University School of Medicine alumni

Category:United States Marine Corps officers

Category:Living people

Category:Year of birth missing (living people)