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Advanced MRI in Blast-related TBI

The safety and scientific validity of this study is the responsibility of the study sponsor and investigators. Listing a study does not mean it has been evaluated by the U.S. Federal Government. Read our disclaimer for details. Identifier: NCT00785304
Recruitment Status : Unknown
Verified December 2014 by David Brody, MD, PhD, Washington University School of Medicine.
Recruitment status was:  Enrolling by invitation
First Posted : November 5, 2008
Last Update Posted : December 10, 2014
Landstuhl Regional Medical Center
U.S. Army Medical Research and Development Command
Information provided by (Responsible Party):
David Brody, MD, PhD, Washington University School of Medicine

Brief Summary:

Thousands of soldiers, marines, and other military personnel have had injuries to the brain due the wars in Iraq and Afghanistan. In addition, 1.5 million civilians per year in the United States have traumatic brain injuries caused by car accidents, falls, sports-related injuries or assaults. There are important advances in technology that we think will help us learn a lot more about these injuries. One such advance involves new types of MRI scans that we think will be able to show what has happened to the brain after trauma more clearly that regular scans can. These first new scan is called diffusion tensor imaging, which shows injury to the axons (the wiring of the brain). The second new scan is called resting-state functional MRI correlation analysis, which shows how well various parts of the brain are connected to each other. Importantly, the new types of scans can be done using regular scanners that we already have in every major hospital. The innovation is entirely in how the scanners are used and how the resulting pictures are analyzed on a computer after they have been taken.

Our overall goal is to see whether these new MRI scans will be useful for people who have had traumatic brain injuries. We have already tested them on some civilian brain injury patients and found them to be very helpful. For this study, we will test them on military personnel who have had traumatic brain injuries caused by explosions. The specific goal will be to see if the amount of injury we see can be used to predict how well the patients will do overall over the next 6-12 months. We think with the new scans we will be able to predict overall outcomes better than with regular scans and other information. A related goal will be to see whether injuries to specific parts of the brain seen by these new scans can be used to predict whether patients will be likely to have specific problems like memory loss, attention deficit, depression, or post-traumatic stress disorder. A final goal will be to repeat the scans 6-12 months later to see whether the new MRI scans can show whether the injuries to the brain have healed, gotten worse, or stayed the same.

If the study is successful, it will show that these new MRI techniques can to be used to make earlier and more accurate diagnoses of traumatic brain injury, predictions of the sorts of problems that are likely to occur after brain injury, and assessments of how severe the injuries are.

This study will help traumatic brain injury patients. It will be most useful for military personnel who have had brain injuries due to explosions. It is highly likely that it will also be useful for younger adults who have had brain injuries due to other causes like car accidents, sports-related concussions, falls, or assaults. It is possible that but not known for sure whether it will help young children or older adults with traumatic brain injuries.

These new scans could help with decisions about whether military personnel can return to duty, what sort of rehabilitation would benefit them most, and what family members should watch for and expect. This could become used in some hospitals within 2 years, and could become standard in every major hospital within 5 years.

The new scans could also be helpful in developing new treatments. For example, if a new drug works by blocking injury to the axons, it would be a good idea to test on people who have injury to their axons. Right now we have no good way to tell who these people are, and so a new drug like this would get tested on lots of people who don't have injured axons, along with those who do. This would make it harder to tell if the new drug is working. With the new scans we should be able to tell who has injured axons, tell how severe the injury is, and figure out whom to test the drugs on. It will likely take 10 years or more to develop new drugs like this.

Further in the future, the new scans could be used to help guide surgery to implant computer chips to help rewire the brain. We don't know how long this will take, but estimate 15-20 years or more.

Overall MRI scanning is very safe and has no known major risks. Because the scanner uses strong magnets, anyone with metal objects in their bodies can't be scanned, as this could be dangerous. We will make sure that no one with metal objects in their bodies is included in the study. There can be some psychological risks involved in taking tests and answering questions, but these are usually mild and can be managed. There is always a risk that important confidential information will be made public and that this could have consequences. We will do everything possible to maintain confidentiality. Nearly all of the information will only be identified using a code number and not by the name of the person, and all of it will be kept securely.

Condition or disease
Traumatic Brain Injury

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Study Type : Observational
Estimated Enrollment : 100 participants
Observational Model: Case-Control
Time Perspective: Prospective
Study Start Date : November 2008
Actual Primary Completion Date : July 2011
Estimated Study Completion Date : July 2016

Resource links provided by the National Library of Medicine

Traumatic Brain Injury
Active Duty military blast-related TBI patients
Other Injury Control
Active duty military patients with other injuries but no TBI

Primary Outcome Measures :
  1. Comparison of the overall extent of abnormalities apparent on DTI vs conventional MRI. [ Time Frame: 1 year ]
  2. Identification of specific injured white matter tracts. [ Time Frame: 1 year ]
  3. Assessment of the correlations in fMRI signal fluctuations between brain regions. [ Time Frame: 1 year ]
  4. Prediction of the 6-12 month global clinical outcome (GOS-E) based on the acutely apparent DTI abnormalities. [ Time Frame: 1 year ]
  5. Prediction of the 6-12 month global clinical outcome (GOS-E) based on the acutely apparent resting fMRI correlation abnormalities. [ Time Frame: 1 year ]
  6. Prediction of the presence and clinical severity of specific post-traumatic sequelae, including i. Spastic hemi/tetraparesis:ii. Short-term learning and memory deficits:iii. Attention deficit:iv. Depression:v. Post-traumatic stress disorder: [ Time Frame: 1 year ]
  7. Comparison of acute and 6-12 month scans. [ Time Frame: 1 year ]
  8. Evaluation of the predictive value of the Military Acute Concussion Evaluation (MACE) [ Time Frame: 1 year ]

Information from the National Library of Medicine

Choosing to participate in a study is an important personal decision. Talk with your doctor and family members or friends about deciding to join a study. To learn more about this study, you or your doctor may contact the study research staff using the contacts provided below. For general information, Learn About Clinical Studies.

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Ages Eligible for Study:   18 Years and older   (Adult, Older Adult)
Sexes Eligible for Study:   All
Accepts Healthy Volunteers:   No
Sampling Method:   Non-Probability Sample
Study Population
Active duty military personnel serving in Iraq, Afghanistan, and other areas presenting to Landstuhl Regional Medical Center for care.

Inclusion Criteria:

  1. Clinical diagnosis of blast-related TBI of any severity, as made by LRMC staff, based on clinical history, examination, and/or standard clinical imaging (CT, conventional MRI).
  2. Acute injury or injuries, defined as first occurring 0-90 days prior to enrollment.
  3. Ability to lie still in a supine position for the duration of the scan sessions, e.g. no severe claustrophobia or limiting pain from other injuries.
  4. No known metallic implants or metallic foreign objects.
  5. Ability to provide informed consent.
  6. Not known to be HIV positive
  7. Not known to be pregnant
  8. No previous major traumatic brain injury
  9. No contraindication to MRI for medical reasons such as arrhythmias.

Information from the National Library of Medicine

To learn more about this study, you or your doctor may contact the study research staff using the contact information provided by the sponsor.

Please refer to this study by its identifier (NCT number): NCT00785304

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United States, Missouri
Washington University
St Louis, Missouri, United States, 63110
Landstuhl Regional Medical Center
Landstuhl, Kirchberg, Germany, 66849
Sponsors and Collaborators
Washington University School of Medicine
Landstuhl Regional Medical Center
U.S. Army Medical Research and Development Command
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Principal Investigator: David L Brody, MD PhD Washington University School of Medicine
Publications of Results:
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Responsible Party: David Brody, MD, PhD, Associate Professor of Neurology, Washington University School of Medicine Identifier: NCT00785304    
Other Study ID Numbers: PT075299
First Posted: November 5, 2008    Key Record Dates
Last Update Posted: December 10, 2014
Last Verified: December 2014
Additional relevant MeSH terms:
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Brain Injuries
Brain Injuries, Traumatic
Brain Diseases
Central Nervous System Diseases
Nervous System Diseases
Craniocerebral Trauma
Trauma, Nervous System
Wounds and Injuries