Ivar Mendez
Ivar Mendez, M.D., PhD, is the Fred H. Wigmore Professor[1] and Chairman of Surgery at the University of Saskatchewan and the Unified Head of Surgery for the Province of Saskatchewan. He is internationally known for his work in cell transplantation for Parkinson's disease and the use of remote presence robotics in neurosurgery and primary health care.
He also holds an appointment at the Department of Psychology and Neuroscience at Dalhousie University and he is one of the founders of the Brain Repair Centre.[2] He is also the president and founder of the Ivar Mendez International Foundation[3] that is dedicated to providing health and educational assistance to children in the Bolivian Andes. Mendez is a photographer and sculptor[4] and has published 4 books of photography.
Biography
Mendez was born in La Paz, Bolivia and immigrated with his family to Canada as a teenager. He obtained a BSc degree from the University of Toronto and then an M.D. from the University of Western Ontario (UWO). He did a neurosurgical residency training in London, and was certified in Neurosurgery from the Royal College of Physician and Surgeons of Canada in 1994 and from the American Board of Neurological Surgery[5] in 1996. He became a fellow of the American College of Surgeons in 1998 and became a member of the College Board of Governors[6] in 2015. His interest in regenerative medicine led him to obtain a PhD in Anatomy and Neurobiology from the UWO his PhD thesis was on “Neurotransmitter Interactions in Nigral Grafts”.[7] He did a postdoctoral fellowship at the University of Lund in Sweden under the supervision of Anders Björklund,[8] considered the “father” of cell transplantation in Parkinson's disease. In 2014, Saint Mary's University (Halifax) in Nova Scotia awarded Mendez a Doctor of Science (honoris causa) degree for his contribution to Neuroscience and he was inducted a Fellow to the Canadian Academy of Health Sciences.
Scientific contributions
He pioneered the technique of multiple grafts to restore dopamine input to the parkinsonian mammalian brain.[9][10] This technique was translated into clinical trials in patients with Parkinson's disease and showed long-term survival of those grafts.[11][12][13][14] He also pioneered the use of Glial Derived Neurotrophic Factor (GDNF) in combination with fetal cells in humans.[15][16][17] Mendez invented a transplantation delivery system to inject cells into the human brain.[18] With his team, he performed the first long-distance brain surgery robotic telementoring in the world by using a robotic arm to mentor neurosurgeons located 400 km away. [19] He is also pioneering the use of remote presence devices to deliver health care in remote locations.[20][21][22] In 2015, Mendez and his team printed the first 3D brain for planning deep brain stimulation surgery.[23][24][25][26][27]
Inventions
- Neural transplantation delivery system: Canadian Patent #2,281,007[28] and US Patent #7,137,969[29]
- Injection delivery system: US Patent #8,753,314[30] and US patent #9,067,028[31]
Humanitarian contributions
Mendez has established a Canadian charitable organization, the Ivar Mendez International Foundation,[32] to provide nutrition, dental care and art program to children in remote locations of the Bolivian Andes.[33]
Awards
- Queen Elizabeth II Diamond Jubilee Medal[34]
- Humanitarian of the Year Award, Canadian Red Cross - Atlantic Region[35]
- Ten most influential Hispanics in Canada[36]
- Dr. John Savage Memorial Award[37]
- Royal College Medal Award - Medalist in Surgery[38]
Artistic endeavours
He has published 4 books of photography [39] and has had several exhibitions of his photography and sculpture [40]
Published books
- Sariri. Mendez, I. ISBN 978-99954-2-936-2. SPC Impresores S.A. 2013.
- Bolivia - 2nd Edition. Mendez, I. ISBN 978-1-897462-26-3. Glen Margaret Publishing 2012.
- Illimani. Mendez, I. ISBN 978-1-897462-17-1. Glen Margaret Publishing 2010.
- Bolivia. Mendez, I. ISBN 0-920427-64-2. Glen Margaret Publishing 2006.
Selected scientific publications
- Hallett P, Cooper O, Sadi D, Robertson H, Mendez I, Isacson O (26 June 2014). "Long-term health of dopaminergic neuron transplants in Parkinson's disease patients". Cell Reports. 7 (6): 1755–1761. doi:10.1016/j.celrep.2014.05.027. PMID 24910427.
- Mendez I, Jong M, Keays-White D, Turner G (2013). "The use of remote presence for health care delivery in a northern Inuit community: a feasibility study". International Journal of Circumpolar Health. 72 (72). doi:10.3402/ijch.v72i0.21112. PMID 23984292.
- Mendez I, Van den Hof M (November 19, 2013). "Mobile remote-presence devices for point-of-care health care delivery". Canadian Medical Association Journal. 185 (17): 1512–6. doi:10.1503/cmaj.120223. PMID 23775612.
- Mendez I, Song M, Chiasson P, Bustamante L (2013). "Point-of-Care Programming for Neuromodulation: A Feasibility Study Using Remote Presence". Neurosurgery. 72 (1): 99–108. doi:10.1227/NEU.0b013e318276b5b2. PMID 23096417.
- Cooper O, Astradsson A, Hallett P, Robertson H, Mendez I, Isacson O (2009). "Lack of functional relevance of isolated cell damage in transplants of Parkinson's disease patients". Journal of Neurology. 256 (Suppl 3): 310–316. doi:10.1007/s00415-009-5242-z. PMID 19711122.
- Mendez I, Viñuela A, Astradsson A, et al. (May 2008). "Dopamine neurons implanted into people with Parkinson's disease survive without pathology for 14 years". Nature Medicine. 14 (5): 507–9. doi:10.1038/nm1752. PMID 18391961.
- Mukhida K, Mendez I, McLeod M, et al. (November 2007). "Spinal GABAergic transplants attenuate mechanical allodynia in a rat model of neuropathic pain". Stem Cells. 25 (11): 2874–85. doi:10.1634/stemcells.2007-0326. PMID 17702982.
- Master Z, McLeod M, Mendez I (March 2007). "Benefits, risks and ethical considerations in translation of stem cell research to clinical applications in Parkinson's disease". Journal of Medical Ethics. 33 (3): 169–73. doi:10.1136/jme.2005.013169. PMID 17329391.
- Mendez I, Sanchez-Pernaute R, Cooper O, et al. (July 2005). "Cell type analysis of functional fetal dopamine cell suspension transplants in the striatum and substantia nigra of patients with Parkinson's disease". Brain. 128 (Pt 7): 1498–510. doi:10.1093/brain/awh510. PMID 15872020.
- Mukhida K, Hong M, Miles GB, et al. (August 2008). "A multitarget basal ganglia dopaminergic and GABAergic transplantation strategy enhances behavioural recovery in parkinsonian rats". Brain. 131 (Pt 8): 2106–26. doi:10.1093/brain/awn149. PMID 18669492.
References
- ↑ "Fred. H. Wigmore Professor".
- ↑ "Brain Repair Centre".
- ↑ "Ivar Mendez International Foundation".
- ↑ "Sculpting neurosurgeon breaks the mould".
- ↑ "American Board of Neurological Surgery".
- ↑ "American College of Surgeons - Board of Governors".
- ↑ Mendez I, Elisevich K, Flumerfelt B (June 1991). "Dopaminergic innervation of substance P-containing striatal neurons by fetal nigral grafts: an ultrastructural double-labeling immunocytochemical study". The Journal of Comparative Neurology. 308 (1): 66–78. doi:10.1002/cne.903080107. PMID 1714923..
- ↑ "Dr. Anders Björklund".
- ↑ Mendez I, Sadi D, Hong M (1996). "Reconstruction of the nigrostriatal pathway by simultaneous intrastriatal and intranigral dopaminergic transplants". Journal of Neuroscience. 16 (22): 7216–7227. PMID 8929430.
- ↑ Mendez I, Hong M (December 5, 1997). "Reconstruction of the striato-nigro-striatal circuitry by simultaneous double dopaminergic grafts: a tracer study using fluorogold and horse radish peroxidase". Brain Research. 778 (1): 194–205. doi:10.1016/s0006-8993(97)01055-x. PMID 9462892.
- ↑ Mendez I, Dagher A, Hong M, Gaudet P, Weerasinghe S, McAlister V, King D, Desrosiers J, Darvesh S, Acorn T, Robertson H (2002). "Simultaneous intrastriatal and intranigral fetal dopaminergic grafts in patients with Parkinson's disease". Journal of Neurosurgery. 96 (3): 589–596. doi:10.3171/jns.2002.96.3.0589. PMID 11883846.
- ↑ Mendez I, Sanchez-Pernaute R, Cooper O, Viñuela A, Ferrari D, Björklund L, Dagher A, Isacson O (2005). "Cell type analysis of fetal dopamine cell suspension transplants in striatum and substantia nigra of patients with Parkinson's disease". Brain. 128 (Pt 7): 1498–1510. doi:10.1093/brain/awh510. PMID 15872020.
- ↑ Mendez I, Viñuela A, Astradsson A, Mukhida K, Hallett P, Robertson H, Tierney T, Holness R, Dagher A, Trojanowski JQ, Isacson O (May 2008). "Dopamine neurons implanted into people with Parkinson's disease survive without pathology for 14 years". Nature Medicine. 14 (5): 507–509. doi:10.1038/nm1752. PMID 18391961.
- ↑ Hallett P, Cooper O, Sadi D, Robertson H, Mendez I, Isacson O (June 26, 2014). "Long-term Health of Dopaminergic Neuron Transplants in Parkinson's Disease Patients". Cell Reports. 7 (6): 1755–1761. doi:10.1016/j.celrep.2014.05.027. PMID 24910427.
- ↑ Apostolides C, Sanford E, Hong M, Mendez I (March 1998). "Glial cell line-‐derived neurotrophic factor improves intrastriatal graft survival of stored dopaminergic cells". Neuroscience. 83 (2): 363–372. doi:10.1016/s0306-4522(97)00369-2. PMID 9460746.
- ↑ Mehta V, Hong M, Spears J, Mendez I (June 1998). "Enhancement of graft survival and sensorimotor behavioral recovery in rats undergoing transplantation with dopaminergic cells exposed to glial cell line-derived neurotrophic factor". Journal of Neurosurgery. 88 (6): 1088–1095. doi:10.3171/jns.1998.88.6.1088. PMID 9609305.
- ↑ Mendez I, Dagher A, Hong M, Hebb A, Gaudet P, Law A, Weerasinghe S, King D, Desrosiers J, Darvesh S, Acorn T, Robertson H (May 2000). "Exposure of human fetal nigral tissue to glial cell line-derived neurotrophic factor enhances survival in two patients with Parkinson's disease". Journal of Neurosurgery. 92 (5): 863–869. doi:10.3171/jns.2000.92.5.0863. PMID 10794303.
- ↑ Mendez I, Hong M, Smith S, Dagher A, Desrosiers J (March 2000). "A neural transplantation cannula and microinjector system: experimental and clinical experience". Journal of Neurosurgery. 92 (3): 493–499. doi:10.3171/jns.2000.92.3.0493. PMID 10701543.
- ↑ Mendez I, Hill R, Clarke D, Kolyvas G, Walling S (2005). "Robotic long-distance telementoring in neurosurgery". Neurosurgery. 56 (3): 434–440. doi:10.1227/01.neu.0000153928.51881.27. PMID 15730568.
- ↑ Mendez I, Song M, Chiasson P, Bustamante L (January 2013). "Point-of-Care Programming for Neuromodulation: A Feasibility Study Using Remote Presence". Neurosurgery. 72 (1): 99–108. doi:10.1227/NEU.0b013e318276b5b2. PMID 23096417.
- ↑ Mendez I, Van den Hof MC (November 19, 2013). "Mobile remote-presence devices for point-of-care health care delivery". Canadian Medical Association Journal. 185 (17): 1512–1516. doi:10.1503/cmaj.120223. PMID 23775612.
- ↑ Mendez I, Jong M, Keays-White D, Turner G (August 5, 2013). "The use of remote presence for health care delivery in a northern Inuit community: a feasibility study". International Journal of Circumpolar Health. 72. doi:10.3402/ijch.v72i0.21112. PMID 23984292.
- ↑ "3D Print.com The First Realistic Brain Model 3D Printed to Aid with Surgical Procedure".
- ↑ "3Ders.org Canadian surgeon uses 3D printed realistic brain model to assist complex brain surgery".
- ↑ "3D MedTech Printing Conference: Saskatoon neurosurgeon 3D prints replica of patient's brain".
- ↑ "StarPhoenix: Mendez makes world breakthrough in brain science".
- ↑ "CBC News: Object of beauty, Saskatoon doctor prints 3D replica of patient's brain; Dr. Ivar Mendez says 3D technology could lead to printing other organs".
- ↑ "Neural transplantation delivery system Canadian patent #2,282,007".
- ↑ "Neural transplantation delivery system US patent #7,137,969".
- ↑ "Injection delivery system US patent #8,753,314".
- ↑ "Injection delivery system US patent #9,067,028".
- ↑ "Ivar Mendez International Foundation".
- ↑ "Canadian Red Cross 2010 Humanitarian of the Year Award".
- ↑ "Queen Elizabeth II Diamond Jubilee Medal".
- ↑ "Dr. Ivar Mendez honoured for humanitarian work".
- ↑ "Hispanic Business: 10 most influential Hispanic Canadians – 2009" (PDF).
- ↑ "Dr. John Savage Award Presented to Dr. Ivar Mendez".
- ↑ "1999 RCPSC Medalist in Surgery".
- ↑ "Publications".
- ↑ "Solo Exhibitions".