The New York Times recently published an article detailing a new study which examined people suffering from traumatic brain injuries (TBIs) and found an increased likelihood in developing dementia. The risk of developing dementia was highest in those who had suffered multiple TBIs, but even those who suffered from a single mild TBI were still at an increased risk of dementia.
I often am contacted by individuals who have sustained traumatic brain injury (TBI) and have later been diagnosed with multiple sclerosis (MS). Many have asked me if their multiple sclerosis diagnosis was caused by their earlier trauma. Previously, most research I had read indicates that there is no causal relationship between MS and TBI.
However, I recently came across an interesting article published in January 2012 entitled “Increased Risk of Multiple Sclerosis after Traumatic Brain injury: A Nationwide Population-Based Study.” Continue Reading Increased Risk of Multiple Sclerosis After Traumatic Brain Injury (TBI)
The United States District Court for the Southern District of Florida has ruled that diffusion tensor imaging (DTI) satisfies the Daubert standard for admissibility. Marsh v Celebrity Cruises, Inc., Case No. 1(17-CV-21097-UU.
In this case, the plaintiff was injured when she fell on a puddle of water on the Solarium floor of a Celebrity Cruise ship. As a result of the fall, plaintiff sustained a mild traumatic brain injury (TBI).
The plaintiff retained Gerald York, M.D., a board-certified neuro-radiologist and radiologist as an expert witness. Dr. York is the Director of TBI Imaging ARA/IA and a staff neuro-radiologist at the Providence Alaska Medical Center and also works as a consultant to the Defense Veterans Brain Injury Center. Additionally, he participated in the development of approved protocols for neuroimaging of the brain and contributed to the American College of Radiology’s Guidelines for Neuroimaging.
According to the American Academy of Pediatrics, although the majority of concussions that are diagnosed annually occur in children, clinical guidelines are usually based on adult concussion sufferers. The lack of guidelines may limit the ability of pediatricians to accurately predict the duration of a child’s symptoms, including headaches, fatigue, and concentration problems — which can interfere with school and other activities.
In many concussion cases, concussion symptoms last only a few days. However, up to 25 percent of children have prolonged concussion symptoms which can last for months.
Concussion Symptom Saliva Test Study Presented at Annual Meeting
New research presented at the 2017 Pediatric Academic Societies (PAS) Meeting suggests that a saliva test for children may offer answers as to how long concussion symptoms will last. Researchers presented an abstract of the study, “Peripheral microRNA patterns predict prolonged concussion symptoms in pediatric patients.” The PAS Meeting is produced through a partnership of four organizations: Academic Pediatric Association, American Academy of Pediatrics, American Pediatric Society, and Society for Pediatric Research.
According to a recent review study of Pubmed Central/National Library of Medicine databases, the pupillary light reflex provides an optimal opportunity to investigate mild traumatic brain injury (mTBI).
A recent study found that concussions in adolescents can increase the risk of developing multiple sclerosis (MS) later in life. The risk increased substantially if the individual had suffered multiple head injuries as an adolescent.
What Causes MS?
Multiple Sclerosis is a disease of the central nervous system that “disrupts the flow of information within the brain, and between the brain and body.” Multiple sclerosis (MS) involves an immune-mediated process whereby the body’s immune system responds abnormally, targeting the central nervous system, including the brain, spinal cord, and optic nerves. Within the central nervous system, the immune system attacks myelin, the fatty substance that surrounds and insulates the nerve fibers, and the nerve fibers themselves. The damaged myelin forms scar tissue, which impacts and interrupts nerve impulses to and from the brain and spinal cord.
A recent study evaluated the impact of financial compensation on late mortality after traumatic brain injury (TBI). The findings suggest that compensation may reduce late mortality risk.
To determine the impact of financial compensation on long-term mortality in adults with severe TBI, the outcomes of 2545 adults discharged from three post-acute inpatient rehabilitation services were analyzed. Compensation data were available for 1851 participants, with 826 receiving financial compensation. The study noted that yearly standardized mortality ratios were elevated above general population norms for six to ten years in both groups.
A recent study published in the American Journal of Public Health noted a significant decrease in recurrent concussions among high school athletes following the implementation of laws in many states relating to sports play.
As reported by Temple University Center for Public Health Law Research, these laws aim to reduce harm from brain injuries occurring during youth sports activities. They address such factors as removal from play following injury, requirements for return-to-play clearance after a concussion, and education of coaches, parents, and athletes.
According to the Centers for Disease Control and Prevention, up to 300,000 youths suffer traumatic brain injuries (TBIs) or concussions while playing sports each year. TBIs can cause serious health consequences in children, which may be short-term or lifelong.
In response to these injuries, all states have passed laws for the purpose of reducing brain injuries during youth sports play. Data is now available to analyze the possible impact of those laws on reducing brain injuries in children.
Traumatic brain injury (TBI) can cause cognitive, behavioral, and physical limitations, and impact an individual’s ability to return to work, reintegrate into the community and live independently.
A new study will undertake a systematic review of the predictive nature of discharge settings following acute care of TBI patients. Researchers believe the results of this review will aid healthcare providers, and TBI patients and their families, in making informed discharge decisions to the next level of care.
Data from a recent study show that the use of golf carts has caused significant injuries in children under the age of 17, including brain injuries. Golf carts are somewhat inaccurately named as their use goes far beyond the golf course.
Golf carts are used in many communities in addition to golf courses, including retirement communities, farms, and shore communities. In fact, while many golf cart-related injuries do occur on the golf course, up to 30 percent occur on public streets, yards, and farms. In both Pennsylvania and New Jersey, golf carts are exempt from registration requirements. There are few regulations relating to them.
Study Shows Increasing Number of Golf Cart Injuries
Researchers evaluated approximately 100 children under age 17 treated in Pennsylvania trauma centers for injuries sustained in golf cart accidents over an 11-year period.
Twenty seven percent of the children injured in golf cart accidents suffered a concussion. The risk for concussion was found to be higher for children ages six to 11, compared with kids under six. Twenty five to 30 percent sustained intracranial injury and brain bleeding. One child died.