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James Benjamin Aguayo Martel (b. October 15, 1955, in Guadalajara, Jalisco) is a physician, surgeon and scientist. He is Chair of Surgery,Mercy San Juan Medical Center, Chief of Ophthalmology, Otolaryngology (ENT), and Plastic Surgery, Sutter Roseville Medical Center. Was former director of Ophthalmology, Sutter General and Memorial Hospitals and Assistant Professor of Ophthalmology and Radiology, Johns Hopkins Medical School and Wilmer Ophthalmological Institute.

Career

James B. Aguayo Martel received a Bachelor of Science degree from Stanford University; a Doctor of Medicine from Harvard Medical School; a Masters in Public Health in the area of Epidemiology and Biostatistics from the Harvard School of Public Health[1] and received his surgical sub-specialty training in Ophthalmology from Johns Hopkins Medical School and Wilmer Ophthalmological Institute[2][3]. In the early 1980's, while at Harvard Medical School, Howe Laboratory of Ophthalmology [4], Massachusetts Eye and Ear Infirmary, he was among the first investigators to apply NMR spectroscopy to study tissue metabolism non-destructively.[1] The research was able to demonstrate the conversion of glucose to sorbitol in the single intact lens which supported the hypothesis that sorbitol led tissue damage in diabetes. The condition of diabetes leads to uncontrolled levels of glucose in the body. The ability to monitor glucose and it's metabolism in by non invasive methodology in living tissue allows facilitated the understanding of this disease state.

His research on the living lens, was used to understand diabetic cataract formation. During this time, in collaboration with Dr. Leo Chylack, Jr, he demonstrated the statistical correlation between diabetes and posterior subcapsular cataracts. For this specific work he was awarded the Soma Weiss Award from Harvard Medical School. Aguayo Martel further probed the association of human behavior and cataract formation using non-linear regression analysis.

After finishing his internship at the Beth Israel Hospital, in Boston, he moved to Baltimore where at Johns Hopkins Medical Institutions, Dr. Aguayo Martel led a research team as the Associate Director of NMR Research, which developed Nuclear Magnetic Resonance (NMR) Microscopy, a technique for non-invasively obtaining microscopic 3 dimensional images of living objects. The technique first applied to a single living cell signaled the advent of a new class of instruments which would eventually allow monitoring cellular structures and their biochemistry inside the human body, or to perform "biopsies" without needles or surgery. [2] [5] [6] He applied his MR microscopy to the study of ocular tissues and tumors and used histological correlation to refine his technique. [3] Dr. Aguayo Martel was the first to study the biophysical properties of vitreous using NMR [spectroscopy] and imaging. [4] [5] After the analysis of this ocular structure, he extended his research into the area of vitreous hemorrhage (bleeding into the eye), an area of great importance in loss of sight. During this time period he explored the use of three dimensional computerized tomography (CT) for the localization and compositional evaluation of intraocular and orbital foreign bodies. [6]

He pioneered the technique of deuterium NMR spectroscopy to study [metabolism] in [biological systems].[7]

Deuterium is a non radioactive isotope of hydrogen and is an abundant atom in metabolites and water was an ideally suited atom to use for NMR spectroscopy. This method allowed for further expansion of the existing NMR spectroscopy techniques in the study of metabolism. This technique extended the capabilities of existing NMR spectroscopy techniques used to investigate tissue metabolism. Dr. Aguayo Martel applied his technique to the understanding of diabetic cataract formation [8] and corneal metabolism in order to create new and improved methods of tissue preservation for improved tissue transplatation. [9] He developed a novel method for monitoring activity in multiple metabolic pathways (hexose monophosphate shunt, glycolysis, and the polyol pathway) in the single living lens which allowed insight into the study of diabetic cataractogensis. [10] and applied to corneal tissue transplantation. [11] His work culminated in the development of chemical shift NMR Microscopy, which combined Magnetic Resonance imaging (MRI) and spectroscopy analysis while working at the Francis Bitter National Magnet Laboratory [7], Massachusetts Institute of Technology. His research team applied the technique to the study of the living lens to study diabetic cataractogenesis. [12] In 1987, Dr. Aguayo Martel was an invited lecturer at the American Physical Society; the Symposium of the Committee on Applications of Physics: Microtomography-New Three Dimensional Microscopy and presented Grand Rounds at the National Eye Institute, National Institutes of Health on “A New Model of Diabetic Cataractogenesis.” The understanding of the metabolism of glucose into sorbitol in the diabteic state has led to the development of a class of medications (aldose reductase inhibitor) to prevent eye and nerve damage in people with diabetes.

Dr. Aguayo Martel is also noted for his work in low illumination ophthalmoscopy and co-inventing the technique of Intraepikeratophakia [13] [14] [15] a precursor to the technique of LASIK. Although Dr. Aguayo Martel is most noted for his pioneering work in the fields of MRI, NMR spectroscopy, ocular metabolism and diabetes; his most accomplished work has been in the area of acute, ocular emergency and ocular trauma to which he has devoted the past twenty years of his career. Dr. Aguayo Martel continues to serve as Director of Ocular Trauma, Chairman of the Surgery Department, Mercy San Juan Medical Center; Chief of Ophthalmology, Otolaryngology (ENT), and Plastic Surgery, Sutter Roseville Medical Center [8] and manages ocular trauma for Sutter Health Sacramento Sierra Region. He is a Fellow of the American College of Surgeons [9] and the American Academy of Ophthalmology [10].

References

  1. ^ Gonzalez, R; Willis J; Aguayo J, Campbell P; Chylack Jr LT; Schleich T (1982), "13C-nuclear magnetic resonance studies of sugar cataractogenesis in the single intact rabbit lens", Investigative Ophthalmology & Visual Science 22: 808–11  
  2. ^ Aguayo, J; Blackband, S.B.; Schoeniger, J.; Mattingly M.A.; Hinterman, M. (1986), "Nuclear magnetic resonance imaging of a single cell", Nature 322 (6075): 190–1, doi:10.1038/322190a0  
  3. ^ Aguayo, J.B.; Blackband, S.J.; Wehrle, J.P.; Glickson, J.D.; Mattingly M.A. (1987), "NMR microscopic studies of eyes and tumors with histological correlation", Ann N Y Acad Sci. 508: 399–413, doi:10.1111/j.1749-6632.1987.tb32921.x  
  4. ^ Aguayo, J; Glaser, B.; Mildvan, A.; Cheng, H.M.; Gonzalez, R.G.; Brady, T. (1984), "Study of vitreous liquifaction by NMR spectroscopy and imaging", Invest Ophthalmol Vis Sci. 26 (5): 692–7  
  5. ^ Gonzalez, R.G.; Cheng, H.M.; Barnett, P.; Aguayo, J.; Glaser, B.; Rosen, B.; Burt, C.T.; Brady, T. (1984), Nuclear magnetic resonance imaging of the vitreous body, pp. 399–400  
  6. ^ Zinreich, S.J.; Miller, N.R.; Aguayo, J.B.; Quinn, C.; Hadfield, R.; Rosenbaum A.E. (1986), "Computed tomographic three-dimensional localization and compositional evaluation of intraocular and orbital foreign bodies", Arch Ophthalmol 104 (10): 1477–82  
  7. ^ Aguayo, R; Gamcsik MP, Dick JD (1988), "High resolution deuterium NMR studies of bacterial metabolism", J Biol Chem. 263 (36): 19552–7  
  8. ^ Aguayo, J.B.; McLennan, I.J.; Aguiar, E.; Cheng, H.M. (1987), "The study of diabetic cataractogenesis in the intact rabbit lens by deuterium NMR spectroscopy", Biochem Biophys Res Commun. 142 (2): 359–66, doi:10.1016/0006-291X(87)90282-8  
  9. ^ Aguayo, J.B.; McLennan, I.J.; Graham Jr, C.; Cheng, H.M. (1988), "Dynamic monitoring of corneal carbohydrate metabolism using high-resolution deuterium NMR spectroscopy", Exp Eye Res. 47 (2): 337–43, doi:10.1016/0014-4835(88)90016-4  
  10. ^ Aguayo, J.B.; McLennan, I.J.; Aguiar, E.; Cheng, H.M. (1987), "The study of diabetic cataractogenesis in the intact rabbit lens by deuterium NMR spectroscopy", Biochem Biophys Res Commun. 142 (2): 359–66, doi:10.1016/0006-291X(87)90282-8  
  11. ^ Cheng, H.M.; Xiong, J.; Tanaka, G.; Chang, C.; Asterlin, A.A.; Aguayo, J.B. (1991), "Analysis of concurrent glucose consumption by the hexose monophosphate shunt, glycolysis, and the polyol pathway in the crystalline lens", Exp Eye Res. 53 (3): 363–6, doi:10.1016/0014-4835(91)90242-7  
  12. ^ Cheng, H.M.; Cheng, H.M.; Aguayo, J.B.; Moore, G.J.; Mattingly, M. (1991), "Analysis of diabetic cataractogenesis using chemical-shift nuclear magnetic resonance microscopy.", Magn Reson Med. 17 (1): 62–8, doi:10.1002/mrm.1910170111  
  13. ^ Martel, J.; Martel, J. (1987), "Intraepikeratophakia.", Ann Ophthalmol 19 (8): 287–90  
  14. ^ Martel, J.R.; Martel, J.B.; Donch, J.P. (1989), "Intraepikeratophakia: surgical technique and postoperative visual recovery", Ann Ophthalmol 21 (1): 7–12  
  15. ^ Tsubota, K. (1991), "Corneal epithelium following intraepikeratophakia", J Cataract Refract Surg. 17 (4): 460–5  

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