Concussions, both single and repetitive, during contact sports cause brain and body alterations in athletes. The role of the brain-gut connection and changes in the microbiota have not been well established after a head injury or concussion-related health consequences. We recruited 33 Division I Collegiate football players and collected blood, stool, and saliva samples throughout the athletic season. Analysis of the gut microbiome reveals a decrease in abundance for two bacterial species, Eubacterium rectale and Anaerostipes hadrus, after a diagnosed concussion. No significant differences were found regarding the salivary microbiome. Serum biomarker analysis shows an increase in GFAP blood levels in athletes during athletic activity. Additionally, S100β and SAA blood levels were positively correlated with the abundance of Eubacterium rectale species among athletes exposed to subconcussive impacts. These novel findings provide evidence that detecting changes in the gut microbiome may pave the way for improved concussion diagnosis following head injury.
Background:Ischemic strokes in both the anterior and posterior circulation can lead to visual deficits, which can affect functional ability. Thrombolytic therapies are often withheld to patients with visual deficits because of either being missed on initial evaluation or because of the misconception that their deficits are not as severe or as disabling. Alternatively, delays in patient arrival for emergent evaluation lead to missed opportunities for acute stroke treatment. This retrospective study aims to explore the differences in perceived long-term disability for patients with stroke who present with visual deficits vs those who do not as a manifestation of their acute stroke syndrome. In addition, we explore the differences in treatment effect with thrombolytics and further analyze if the region of ischemia causing the deficit leads to differences in disability outcomes.Methods:We conducted a retrospective analysis of patients with visual deficits as evidenced by an abnormal score on NIHSS categories related to vision (gaze palsy, visual fields, or extinction/inattention). Patients with Acute Ischemic Stroke were reviewed from the Houston Methodist Hospital Outcomes-based Prospective Endpoints in Stroke (HOPES) Registry from 2016–2021 for visual deficits. In total, 155 patient charts with visual deficits and 155 patient charts without a documented visual deficit were reviewed for ischemic stroke location (anterior vs posterior circulation), NIHSS scores, and thrombolytic therapies. The outcome variable was categorized using mRS, as mRS between 0 and 3 while mRS 4 to 6 was considered as poor functional outcome at 90 days. The independent variable was the vision group. A multivariable logistic regression model was constructed adjusting for demographics and comorbidities on the binary outcome.Results:Multivariable logistic model after adjusting for demographics and comorbidities showed that patients with acute ischemic stroke with vision defects were 4 times more likely to have poor functional outcomes at 90 days, with most of these patients (14% vs 6%; P < 0.05) suffering from severe disability compared with patients in the control group (i.e., patients with acute ischemic stroke without vision defects) (OR = 4.05; 95% CI [2.28–7.19]; P < 0.001). The application of thrombolytics and the location of ischemia (ACS vs PCS) did not result in a significant change in disability outcomes in patients with visual defects in this limited sample size.Conclusions:The results of this study indicated that a large population of patients with ischemic stroke experience visual deficits and are, therefore, at an increased likelihood of worse functional outcome. This reveals the necessity for rehabilitation techniques that specifically target visual deficits to speed up the recovery process of these patients. Further studies with larger sample size are needed to assess whether the location of ischemic event and the application of thrombolytic treatments plays a role in the disability outcomes of these patients.
Background: Depression is the most common psychiatric condition that occurs after cerebrovascular accident, especially within the first year after stroke. Poststroke depression (PSD) may occur due to environmental factors such as functional limitations in daily activities, lower quality of life, or biological factors such as damage to areas in the brain involved in emotion regulation. Although many factors are hypothesized to increase the risk of PSD, the relative contribution of these factors is not well understood. Purpose: We evaluated which cross-sectional variables were associated with increased odds of PSD in our adult outpatient stroke neuropsychology clinic population. Methods: The sample included 325 patients (49.2% female; mean age of 59-years old) evaluated at an average of 8.1 months after an ischemic or hemorrhagic stroke. Variables included in logistic regression were stroke characteristics, demographics, psychosocial factors, comorbid medical problems, comorbid psychiatric conditions, and cognitive status. The Mini International Neuropsychiatric Inventory was used to determine DSM-defined PSD and anxiety disorders. A standard neuropsychological test battery was administered. Results: PSD occurred in 30.8% of the sample. Logistic regression indicated that increased odds of PSD were associated with a comorbid anxiety disorder (5.9 times more likely to suffer from PSD, p < 0.001). Further, increased odds of PSD were associated with a history of depression treatment before stroke (3.0 times more likely to suffer from PSD), fatigue (2.8 times more likely), memory impairment (2.4 times more likely), and younger age at stroke (all p values < 0.006). Discussion: Results suggest that PSD is likely multifactorial and extends the literature by demonstrating that a comorbid anxiety disorder correlated strongest with PSD. Poststroke screening and treatment plans should address not only depression but comorbid anxiety.
Concussions, both single and repetitive, during contact sports cause brain and body alterations in athletes. The role of the brain-gut connection and changes in the microbiota have not been well established after a head injury or concussion-related health consequences. We recruited 33 Division I Collegiate football players and collected blood, stool, and saliva samples throughout the athletic season.Analysis of the gut microbiome reveals a decrease in abundance for two bacterial species, Eubacterium rectale and Anaerostipes hadrus, after a diagnosed concussion. No signi cant differences were found regarding the salivary microbiome. Serum biomarker analysis shows an increase in GFAP blood levels in athletes during athletic activity. Additionally, S100β and SAA blood levels were positively correlated with the abundance of Eubacterium rectale species among athletes exposed to subconcussive impacts. These novel ndings provide evidence that detecting changes in the gut microbiome may pave the way for improved concussion diagnosis following head injury.
Concussions, both single and repetitive, during contact sports cause brain and body alterations in athletes. The role of the brain-gut connection and changes in the microbiota have not been well established after a head injury or concussion-related health consequences. We recruited 33 Division I Collegiate football players and collected blood, stool, and saliva samples throughout the athletic season. Analysis of the gut microbiome reveals a decrease in abundance for two bacterial species, Eubacterium rectale and Anaerostipes hadrus, after a diagnosed concussion. No significant differences were found regarding the salivary microbiome. Serum biomarker analysis shows an increase in GFAP blood levels in athletes during athletic activity. Additionally, S100β and SAA blood levels were positively correlated with the abundance of Eubacterium rectale species among athletes exposed to subconcussive impacts. These novel findings provide evidence that detecting changes in the gut microbiome may pave the way for improved concussion diagnosis following head injury.
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