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Low pressure hyperbaric oxygen therapy and SPECT brain imaging in the treatment of blast-induced chronic traumatic brain injury (post-concussion syndrome) and post traumatic stress disorder: a case report

Abstract

A 25-year-old male military veteran presented with diagnoses of post concussion syndrome and post traumatic stress disorder three years after loss of consciousness from an explosion in combat. The patient underwent single photon emission computed tomography brain blood flow imaging before and after a block of thirty-nine 1.5 atmospheres absolute hyperbaric oxygen treatments. The patient experienced a permanent marked improvement in his post-concussive symptoms, physical exam findings, and brain blood flow. In addition, he experienced a complete resolution of post-traumatic stress disorder symptoms. After treatment he became and has remained employed for eight consecutive months. This case suggests a novel treatment for the combined diagnoses of blast-induced post-concussion syndrome and post-traumatic stress disorder.

Introduction

By January, 2008 it was estimated that as many as 300,000 servicemen and women from the current Iraq and Afghanistan Wars have PTSD or major depression, 320,000 have experienced a TBI, and 82,000 have all three diagnoses [1]. Treatment is available for PTSD and depression, but there is no proven therapy for the dual diagnoses of PTSD and the residual effects of TBI, the PCS [2].

HBOT is the use of greater than atmospheric pressure oxygen in an enclosed chamber to treat basic disease processes [3]. HBOT has been traditionally applied to certain emergent conditions and chronic wound conditions, but not to blast-induced TBI/PCS or PTSD. This case report is the first application of the authors' low pressure HBOT protocol for chronic brain injury to blast-induced TBI/PCS and PTSD. An early version of this protocol was recently reported in an animal model of chronic TBI that duplicated the human experience [4].

Case presentation

A 25-year-old retired Caucasian male U.S. Marine presented with headaches, tinnitus, and sleep disturbance. Three years before evaluation the patient sustained LOC (a few minutes) from an IED explosion with anterograde memory loss and confusion (one hour), and persistent right ear tinnitus, headaches, imbalance, and sleep disturbance. He developed PTSD symptoms within 3 months and experienced six more explosions with near LOC within 15 months. After medical evaluation diagnoses were TBI/PCS, PTSD, depression, hearing loss, and tinnitus.

Prioritized Symptom List: 1) Constant headaches with intermittent confusion, irritability, tunnel vision, and dizziness, 2) Bilateral tinnitus, 3) Sleep disruption, 4) Left eye blurred vision, 5) Irritability, 6) Depression, social withdrawal; Additional Symptoms: 7) Fatigue, 8) Decreased hearing, 9) Imbalance, 10) Cognitive problems-memory, attention, decreased speed of thinking, 11) Back pain, 12) Bilateral knee pain, 13) PTSD symptoms: intrusive thoughts, combat thoughts, nightmares, tachycardia.

Med-Surg, Medications: None. FH, ROS, and PHIS: non-contributory or negative. PSH: Engaged, no children, lives with parents, 3 years college education, no tobacco or drugs, one to two beers/week. Neuro PEx Abnormalities: Slight deviation of right eye laterally, bilateral: decreased hearing to softly rubbing fingers at one foot, noxious response to 512 Hz tuning fork, decreased finger tapping speed, unstable: rotation exam, tandem gait, and Romberg. Treatment and testing: MRI brain-normal. SPECT brain imaging pre-HBOT and 72 h after the 39th HBOT. The patient underwent 39 HBOT's in 26 calendar days at 1.5 ATA/60 minutes total dive time, twice/day, five days/week in a monoplace chamber with 100% oxygen.

Outcome: Headache permanently gone after the 1st HBOT. After 12 HBOT's symptoms 3, 6, and 7 improved. At 25th HBOT absence of PTSD symptoms. Re-evaluation after 37 HBOT's: 1) 4/6 primary problems improved (#'s 1, 3, 5, 6), 2/6 no change, 2) 4/7 additional symptoms improved (7, 9, 10, 13), 3/7 no change, 3) 6/6 abnormal exam findings retested improved, 1 finding not retested (right eye deviation). SPECT: heterogeneous with bilateral frontal and temporal defects-all improved post HBOT. (See Additional file 1, Figures 1 and 2. (Figure 1): Pre-HBOT SPECT brain scan three dimensional surface reconstruction and processed transverse images. Pre-HBOT scan was rendered in three dimensional surface reconstruction format by PJT based on the method developed and taught by Picker International using Picker software. In this method brain blood flow is computer indexed to frontal lobe blood flow. A frontal lobe surface defect was identified on a selected transverse slice. Processed/filtered transverse slices were then featured with a 100% window such that all pixels render a white image. Counts were slowly subtracted by decreasing the window threshold until the defect was visible as a full thickness black defect in the contour of the cortex. As the defect emerged and was registered in proper anatomic proportion to the rest of frontal cortical blood flow the numerical window level was taken as the determination threshold. Three separate determinations were made for each scan and the final threshold taken as an average of the three determinations. The technologist was blind to the final image reconstruction due to software restrictions that only allow threshold determination. The surface reconstruction image at this threshold is featured in the image above. Color is aesthetic. Note bilateral orbital frontal and temporal lobe defects, areas typically injured in traumatic brain injury, consistent with processed transverse images in the right hand columns. Processed images also show an abnormal diffuse heterogeneous pattern of blood flow. Description of processing is in (SD1). (Figure 2): Post-HBOT SPECT brain scan three dimensional surface reconstruction and processed transverse images. Three dimensional surface image was prepared in identical fashion to the image in Figure 1. Note relative improvement in brain blood flow to bilateral focal frontal and temporal defects, consistent with processed transverse images in the right hand columns. Transverse slices also show normalization of the blood flow to a more homogeneous pattern.

Figure 1
figure 1

Pre-HBOT SPECT brain scan three dimensional surface reconstruction and processed transverse images. Note bilateral orbital frontal and temporal lobe defects and diffuse heterogeneous pattern of blood flow.

Figure 2
figure 2

Post-HBOT SPECT brain scan three dimensional surface reconstruction and processed transverse images. Note relative improvement in brain blood flow to bilateral focal frontal and temporal defects and overall normalization of blood flow to a more homogeneous pattern.

Additional file 1: Side by side Pre and Post HBOT processed transverse SPECT brain blood flow images. Pre-HBOT scan is on the left and post-HBOT on the right. Click on either image to initialize movie. Images were obtained on a Picker Prism 3000 triple-head gamma camera. Both scans were processed by technologist PJT: 25 mCi of ECD was prepared with the standard manufacturer's kit and injected in a peripheral vein in a low noise low light area while the patient was quiet and motionless. One hour after injection acquisition proceeded with a 360 degree rotation and 40 stops, 20 seconds/stop on a 128 x 128 matrix, using low energy high resolution fan beam collimators. Motion correction was used for minor movement. Raw data was processed by transverse reconstruction using 360 degree filtered back projection and a ramp filter, followed by a LoPass filter, order 2.2. Cutoff was taken at the intersection of the best fit LoPass filter and noise on the power spectrum graph. Per file attenuation correction and best fit ellipse were applied. Images were oblique reformatted with slice thickness at 4 mm (2 pixels), aligned, and off-center zoom applied (20 cm2 area). Images were presented in all 3 orthogonal planes. Transverse processed images were analyzed with Osirix Open-source software (version 3.3.2) and windowed at a level of 1000 with a window width of 2000. They were subsequently rendered in QuickTime movie format starting from vertex and proceeding through the base of the brain. Images are in standard SPECT format and orientation. Color map is red, yellow, green, blue, and violet from highest brain blood flow to lowest. Note the marked generalized increase in perfusion on the post-HBOT scan (MOV 3 MB)

Discussion

The present case is the first application of the author's HBOT protocol to blast-induced TBI/PCS and PTSD. The patient's symptomatic, physical exam, and SPECT improvements are similar to ours [3, 5, 6, 9] and others' [7, 8] previous cases/case series of non-blast TBI suggesting common pathophysiology. The unexpected result was the complete resolution of PTSD. With the overlap of symptoms, pathophysiology, and anatomy in TBI/PCS and PTSD [10] HBOT is likely impacting common shared targets in this case.

Conclusion

Thirty-nine low pressure HBOT's caused a reduction in symptoms and signs of chronic mild-moderate blast-induced TBI/PCS and PTSD. The resolution of symptoms and signs of TBI/PCS and PTSD were reflected in global and focal improvements in brain blood flow imaging, suggesting a novel treatment for these combined diagnoses.

Patient's perspective

Patient has declined to submit his perspective due to privacy concerns.

Consent

Written informed consent was obtained from the patient for publication of this case report and accompanying images. A copy of the written consent is available for review by the Editor-in-Chief of this journal. In addition, this case was approved by the LSU School of Medicine's Institutional Review Board as a case report.

Abbreviations

ATA:

Atmospheres absolute

ECD:

Ethyl cysteinate dimer

FH:

Family history

HBOT:

Hyperbaric oxygen therapy

HPI:

History of present illness

IED:

Improvised explosive device

LOC:

Loss of consciousness

MRI:

Magnetic resonance imaging

PCS:

Post-concussion syndrome

PEx:

Physical exam

PHIS:

Prior head injury history

PMH:

Past medical history

PSH:

Personal and Social history

PTSD:

post-traumatic stress disorder

ROS:

Review of systems

SPECT:

Single photon emission computed tomography

TBI:

Traumatic brain injury.

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Acknowledgements

The authors are indebted to nuclear technologist Philip J. Tranchina for expert processing and three dimensional thresholding of the SPECT brain imaging.

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Correspondence to Paul G Harch.

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Competing interests

The authors declare competing interests. The primary author has a small corporation, Harch Hyperbarics, Inc. that does hyperbaric consulting. Author KVM has a corporation that leases hyperbaric oxygen chambers and a corporation that contracts to provide hyperbaric oxygen and woundcare services. None of the authors have personal or financial relationships with people or organizations that would influence the interpretation of data in this report.

Authors' contributions

PGH evaluated the patient, ordered the treatment and imaging, and wrote the draft of the manuscript. EFF analyzed and presented the SPECT imaging and assisted in writing the manuscript. PKS assisted in the treatment of the patient and assisted in writing the manuscript. KVM assisted in development of the hyperbaric protocol and writing the manuscript. All authors read and approved the final manuscript.

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Open Access This article is published under license to BioMed Central Ltd. This is an Open Access article is distributed under the terms of the Creative Commons Attribution License ( https://creativecommons.org/licenses/by/2.0 ), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

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Harch, P.G., Fogarty, P.G., Staab, P.K. et al. Low pressure hyperbaric oxygen therapy and SPECT brain imaging in the treatment of blast-induced chronic traumatic brain injury (post-concussion syndrome) and post traumatic stress disorder: a case report. Cases Journal 2, 6538 (2009). https://doi.org/10.1186/1757-1626-0002-0000006538

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