Investigation of Brain Impairment Using Diffusion-Weighted and Diffusion Tensor Magnetic Resonance Imaging in Experienced Healthy Divers

Background The aim of this study was to understand the changes of decompression illness in healthy divers by comparing diffusion-weighted (DWI) and diffusion tensor MRI findings among healthy professional divers and healthy non-divers with no history of diving. Material/Methods A total of 26 people were recruited in this prospective study: 11 experienced divers with no history of neurological decompression disease (cohort) and 15 healthy non-divers (control). In all study subjects, we evaluated apparent diffusion coefficient (ADC) and type of diffusion tensor metric fractional anisotropy (FA) values of different brain locations (e.g., frontal and parieto-occipital white matter, hippocampus, globus pallidus, putamen, internal capsule, thalamus, cerebral peduncle, pons, cerebellum, and corpus callosum). Results ADC values of hippocampus were high in divers but low in the control group; FA values of globus pallidus and putamen were lower in divers compared to the control group. DWI depicted possible changes due to hypoxia in different regions of the brain. Statistically significant differences in ADC values were found in hypoxia, particularly in the hippocampus (p=0.0002), while FA values in the globus pallidus and putamen were statistically significant (p=0.015 and p=0.031, respectively). We detected forgetfulness in 6 divers and deterioration in fine-motor skills in 2 divers (p=0.002 and p=0.17, respectively). All of them were examined using neuro-psychometric tests. Conclusions Repeated hyperbaric exposure increases the risk of white matter damage in experienced healthy divers without neurological decompression illness. The hippocampus, globus pallidus, and putamen are the brain areas responsible for memory, learning, navigation, and fine-motor skills and are sensitive to repeated hyperbaric exposure.

[1]  K. Lovblad,et al.  Neuroimaging of Diving-Related Decompression Illness: Current Knowledge and Perspectives , 2014, American Journal of Neuroradiology.

[2]  E. Gempp,et al.  Severe capillary leak syndrome after inner ear decompression sickness in a recreational scuba diver. , 2013, The Journal of emergency medicine.

[3]  H. Cameron,et al.  Adult neurogenesis: beyond learning and memory. , 2015, Annual review of psychology.

[4]  Simon J Mitchell,et al.  Decompression illness , 2011, The Lancet.

[5]  D. Le Bihan,et al.  Diffusion tensor imaging: Concepts and applications , 2001, Journal of magnetic resonance imaging : JMRI.

[6]  E. T. Flynn,et al.  Is There a Role for the Autochthonous Bubble in the Pathogenesis of Spinal Cord Decompression Sickness? , 1988, Journal of neuropathology and experimental neurology.

[7]  H. Bitterman,et al.  Medical problems associated with underwater diving. , 1992, The New England journal of medicine.

[8]  E. Massey,et al.  Neurologic presentation of decompression sickness and air embolism in sport divers , 1985, Neurology.

[9]  H. Levin,et al.  Neurobehavioral and magnetic resonance imaging findings in two cases of decompression sickness. , 1989, Aviation, space, and environmental medicine.

[10]  P. Fox,et al.  White matter hyperintensities on MRI in high-altitude U-2 pilots , 2013, Neurology.

[11]  D. Bluemke,et al.  Multiparametric and Multinuclear Magnetic Resonance Imaging of Human Breast Cancer: Current Applications , 2004, Technology in cancer research & treatment.

[12]  C. Meyer,et al.  Diffusion MRI: a new strategy for assessment of cancer therapeutic efficacy. , 2002, Molecular imaging.

[13]  N. Tamamaki,et al.  Neural stem cells and neuro/gliogenesis in the central nervous system: understanding the structural and functional plasticity of the developing, mature, and diseased brain , 2015, The Journal of Physiological Sciences.

[14]  P Tikuisis,et al.  Prediction of decompression illness using bubble models. , 1994, Undersea & hyperbaric medicine : journal of the Undersea and Hyperbaric Medical Society, Inc.

[15]  P. Basser,et al.  MR diffusion tensor spectroscopy and imaging. , 1994, Biophysical journal.

[16]  Lassen,et al.  Recreational scuba diving injuries. , 1996, American family physician.

[17]  M. Jacey,et al.  Biochemistry and hematology at decompression sickness: a case report. , 1976, Aviation, space, and environmental medicine.

[18]  A. Alexander,et al.  Diffusion tensor imaging of the brain , 2007, Neurotherapeutics.

[19]  M. White,et al.  Anatomical patterns and correlated MRI findings of non-perinatal hypoxic-ischaemic encephalopathy. , 2013, The British journal of radiology.

[20]  K. Lambrechts,et al.  Influence of decompression sickness on vasocontraction of isolated rat vessels. , 2016, Journal of applied physiology.

[21]  Laura W. Bancroft,et al.  Imaging in Acute Stroke , 2011, The western journal of emergency medicine.

[22]  P. Yates,et al.  Cerebcal vasculopathy in divers , 1992, Neuropathology and applied neurobiology.

[23]  Evaluation of extra‐ and intracellular apparent diffusion coefficient of sodium in rat skeletal muscle: Effects of prolonged ischemia , 2008, Magnetic resonance in medicine.

[24]  M. Ida,et al.  Spinal cord decompression sickness associated with scuba diving: correlation of immediate and delayed magnetic resonance imaging findings with severity of neurologic impairment--a report on 3 cases. , 2007, Surgical neurology.

[25]  D. Connolly,et al.  Odds Ratio Meta-Analysis and Increased Prevalence of White Matter Injury in Healthy Divers. , 2015, Aerospace Medicine and Human Performance.

[26]  R. Moon Treatment of diving emergencies. , 1999, Critical care clinics.

[27]  K. Specht,et al.  Cerebral diffusion and perfusion deficits in North Sea divers , 2010, Acta radiologica.

[28]  R. E. Schmidt,et al.  Toward accurate diagnosis of white matter pathology using diffusion tensor imaging , 2007, Magnetic resonance in medicine.

[29]  K. Willmes,et al.  Central nervous system lesions and cervical disc herniations in amateur divers , 1995, The Lancet.

[30]  Massey Ew,et al.  Neurologic injury from undersea diving. , 1992 .

[31]  Y. Yanagawa,et al.  MR imaging of the central nervous system in divers. , 1998, Aviation, space, and environmental medicine.

[32]  M. Meyerand,et al.  Diffusion tensor MRI of spinal decompression sickness. , 2013, Undersea & hyperbaric medicine : journal of the Undersea and Hyperbaric Medical Society, Inc.

[33]  E. Gempp,et al.  MRI findings and clinical outcome in 45 divers with spinal cord decompression sickness. , 2008, Aviation, space, and environmental medicine.

[34]  Arve Jørgensen,et al.  Early genetic responses in rat vascular tissue after simulated diving. , 2012, Physiological genomics.

[35]  Michael H Lev,et al.  Regional Ischemic Vulnerability of the Brain to Hypoperfusion: The Need for Location Specific Computed Tomography Perfusion Thresholds in Acute Stroke Patients , 2011, Stroke.

[36]  S. Arakawa,et al.  Magnetic Resonance Imaging in Breath-Hold Divers with Cerebral Decompression Sickness , 2014, Case Reports in Neurology.

[37]  Clenney Tl,et al.  Recreational scuba diving injuries. , 1996 .

[38]  Costantino Balestra,et al.  A critical review of physiological bubble formation in hyperbaric decompression. , 2013, Advances in colloid and interface science.

[39]  H. Skeidsvoll,et al.  Electroencephalography, evoked potentials and MRI brain scans in saturation divers. An epidemiological study. , 1991, Electroencephalography and clinical neurophysiology.

[40]  M. Accardi,et al.  Magnetic resonance findings in scuba diving-related spinal cord decompression sickness , 1997, Magnetic Resonance Materials in Physics, Biology and Medicine.

[41]  K. Tetzlaff,et al.  Why predominantly neurological decompression sickness in breath-hold divers? , 2016, Journal of applied physiology.

[42]  M. Heller,et al.  Does diving damage the brain?: MR control study of divers' central nervous system , 2000, Acta radiologica.

[43]  E. Massey,et al.  Neurologic injury from undersea diving. , 1992, Neurologic clinics.