Posted by rozeklawoffice on October 25, 2011 under Traumatic Brain Injury | 
New types of brain imaging techniques may be able to help traumatic brain injury survivors in identifying the exact nature, extent and location of their brain trauma. The most promising imaging technique involves an advanced MRI protocol referred to as SWI.
Susceptibility Weighted Imaging (SWI) is a relatively new imaging technique that can be performed on most General Electric and Siemens MRI machines (1.0 T, 1.5 T, 2.0 T & 3.0 T). SWI can be included in the ordinary brain injury scan protocol. SWI images have been described as being 5 times as clear as ordinary MRI. SWI is particularly sensitive to the detection of iron deposits in the brain.Whenever there is a bleed in the brain, iron is deposited and remains, even after the liquid is reabsorbed into the brain. MRI and SWI can identify these iron deposits as lesions.
The majority of closed head injuries that result in brain damage results in a Diffuse Axonal Injury (DAI), which results in relatively small lesions throughout the brain. DAI lesions typically occur at the gray-white matter interface in the brain. This is where gray matter meets white matter. Due to the differences in density of gray matter vs. white matter, brain axons at this gray-white matter interface are more susceptible to damage from trauma than axons in other areas of the brain. SWI can more easily identify gray-white matter interface lesions than other MRI protocols. The following image compares a typical MRI image to that of an SWI image depicting lesions:
Standard 1.5 T MRI Image (Left) vs. SWI Image (Right)
The clarity of the SWI image compared to that of the standard MRI image is remarkable. The benefits of SWI for TBI survivors are many. All TBI survivors will benefit by their doctors being able to pinpoint the areas of the brain that are the most damaged. Healthcare providers can tailor their treatment program to focus more treatment and rehabilitation on those areas of the brain that have the most damage. Also, for victims of mild TBI, SWI may finally be the key to establishing the objective proof of injury. Mild TBI survivors have long been frustrated by the lack of any objective evidence of injury, despite the dramatic changes in the TBI survivors’ lives and ability to function. SWI can help identify the exact nature, extent and location of the mild TBI survivors’ brain damage, which will lead to better care, treatment and rehabilitation for the mild TBI survivor.
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If you or a loved one have sustained a TBI and need an experienced Wisconsin Brain Injury Attorney, contact Rozek Law Offices for a free initial consultation.
Posted by rozeklawoffice on September 17, 2011 under Mild Brain Injury, Post-Traumatic Headache |
The most common symptom after a car accident is headache. In fact, headaches are so common following any type of trauma to the head or upper body that the International Headache Society (IHS) has created diagnoses classifications for post-traumatic headache. The IHS separates the post-traumatic headache into two stages, the acute phase vs. the chronic phase. The acute phase is the first 3 months following the car accident or other trauma, while the headache is classified as chronic if it persists following the first three months after the accident. The IHS also differentiates post-traumatic headaches due to traumatic brain injury vs. whiplash.
Headaches Attributed to Traumatic Brain Injury
The IHS further differentiates post-traumatic headache due to mild traumatic brain injury vs. moderate or severe traumatic brain injury.
The IHS classifies Post-Traumatic Headache Attributed to Mild TBI as the following:
- Headache within a week of the accident; AND
- Head Trauma with all of the following:
- No loss of consciousness or loss of consciousness of less than 30 minutes
- Glascow Coma Scale of greater than 12
- Symptoms or signs consistent with concussion
Importantly, the IHS clarifies that mild head injury can result in a “complex of cognitive, behavioral and consciousness abnormalities,” despite the following:
- normal Glascow Coma Scale
- normal neurological examination
- normal neuroimaging (CT, MRI)
- normal EEG
- normal CSF examination
- normal vestibular function testing
- normal neuropsychological testing
The IHS classifies moderateTBI or severe TBI as the following:
- Headache within a week of regaining consciousness; AND
- Head Trauma with at least one of the following:
- Loss of consciousness of more than 30 minutes
- Glascow Coma Scale of less than 13
- Post-Traumatic Amnesia of more than 48 hours
- Abnormal neuroimaging (CT, MRI) demonstrating traumatic brain injury, i.e. lesion, diffuse axonal injury, subdural hematoma, skull fracture
As mentioned above, if the post-traumatic headache persists longer than 3 months it is considered chronic.
Headaches Attributed to Whiplash
Classification of post-traumatic headache resulting from whiplash requires the following:
- Headache within a week of the traumatic event; AND
- History of Whiplash defined as a sudden and significant acceleration/decleration of the neck with neck pain
As mentioned above, if the post-traumatic headache persists longer than 3 months it is considered chronic.
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Find more information on Post-Traumatic Headache or Post-Traumatic Migraine
Posted by rozeklawoffice on May 2, 2011 under Mild Brain Injury, Traumatic Brain Injury |
A new study co-authored by the internationally renowned brain injury expert, Erin Bigler, Ph.D. of the Department of Psychology & Department of Neuroscience, Brigham Young University, Provo, Utah and the Department of Psychiatry and the Utah Brain Institute, University of Utah, Salt Lake City, Utah, has been able to objectively identify evidence of structural changes within the brain that account for memory deficits, which are so common following brain injury. The study also provides further support for the validity of the advanced imaging technique, MRI using diffusion tensor imaging (DTI), in evidencing organic changes within the brain.
The study, Diffusion Tensor Imaging of the Perforant Pathway Zone and Its Relation to Memory Function in Patients with Severe Traumatic Brain Injury, will be published in the peer-reviewed May 2011 edition of the Journal of Neurotrauma. The study focused on changes within the following three regions: 1) the Perforant Pathway; 2) Hippocampus; and 3) Temporal Lobe White and Gray Matter. The study utilized 14 severe traumatic brain injury survivors and were compared to imaging from a demographically comparable control group.
The imaging revealed several abnormalities in the brain injury survivors :
- Perforant Pathway Zone Bilaterally = Decreased Fractional Anisotropy (FA)
- Perforant Pathway Zone Bilaterally = Higher Apparent Diffusion Coefficient (ADC)
- Hippocampus Bilaterrally = Higher Apparent Diffusion Coefficient (ADC)
- Hippocampus Bilaterally = Decreased Volume
- Temporal Gray Matter = Decreased Volume
Memory deficits, specifically Consistent Long-Term Retrieval (CLTR) and Delayed Recall, were shown to be associated with the following:
- Perforant Pathway Zone Bilaterally = Higher Apparent Diffusion Coefficient (ADC)
- Left Hippocampus Apparent Diffusion Coefficient (ADC)
- Left Hippocampal Volume
Nonverbal Memory, immediate and delayed recall, was associated with the following:
- Perforant Pathway Zone Bilaterally = Higher Apparent Diffusion Coefficient (ADC)
- Left Hippocampal Volume
- Decreased Gray Matter Volume was associated with Immediate Recall
- Decreased White Matter Volume was associated with Immediate Recall Bilaterally and Delayed Recall, left
Our office has worked with many of the leading neuroradiologists that are capable of performing and interpreting Diffusion Tensor Imaging (DTI), the enhanced imaging technique utilized to prove evidence of brain damage.
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For more information contact an experienced Wisconsin TBI Attorney.
Posted by rozeklawoffice on April 14, 2011 under Mild Brain Injury, Traumatic Brain Injury |
NFL-Great Terry Bradshaw
In a courageous effort to shed more light on the problem of the NFL concussions, Terry Bradshaw has come forward and disclosed that he is suffering the long-term consequences of repeated concussions. Bradshaw, always a brave competitor on the field, has now shown his bravery off the field by admitting that he is experiencing many common symptoms directly attributable to repeated concussions, including memory deficits, word-finding problems and eye-hand coordination problems. It took years before Bradshaw actually realized the permanent subtle deficits from the repeated mild traumatic brain injuries he sustained.
Bradshaw, now 62 years-old, has not played in the NFL for nearly 30 years. A 14 year quarterback for the Pittsburgh Steelers, Bradshaw sat out the first 14 games of the 1983 season following off-season arm surgery. Then, on December 10, 1983, he returned to play but left the game after hearing a pop in his elbow while throwing a touchdown pass. It would be his last NFL pass, as he subsequently retired.
Bradshaw admitted that he sustained multiple concussions over his 14 year career. He explained that back then, players, coaches, trainers, and owners simply referred to these concussions as “getting your bell rung.” Bradshaw would just inhale smelling salts and get back in the game. Oftentimes, in the huddle his teammates would have to call the play for Bradshaw because he was too disorientated.
Bradshaw explained that his cognitive deficits really hadn’t been a problem until last year. In a column on FoxSports.com, Bradshaw explained:
“Toward the end of last season on the FOX pregame show, maybe the last six weeks, I really started to forget things. That’s why I quit reciting statistics because I couldn’t remember them exactly and I stayed away from mentioning some players by name because I really wasn’t sure and I didn’t want to make a mistake. I’m on national TV in front of millions and I hate making mistakes. I told the people in Ruston that I suffered six concussions and numerous head injuries. I think that’s right, but I’m not really sure.”
Bradshaw also admitted that his personal struggle with the subtle cognitive deficits from the brain injuries has led to anxiety and depression, common consequences of brain injury. He stated:
“The memory loss made me jittery at times. It was driving me crazy that I couldn’t remember something that I studied the night before. All it did was trigger my anxiety and all of sudden everything would snowball on me. I know I have depression and it’s a horrible disease. This memory loss just made my depression worse.”
On behalf of all of my former, current and future brain injured clients, I would like to thank Mr. Bradshaw for his selfless act of coming forward with this story. He clearly has nothing to gain by sharing this information. You sir are a class act.
