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1. Design, modeling, and preliminary evaluation of a 3D-printed wrist–hand grasping orthosis for stroke survivors

   Ledoux, Elissa D; Barth, Eric J (November 2024, Wearable technologies)

   Stroke causes neurological and physical impairment in millions of people around the world every year. To better comprehend the upper-limb needs and challenges stroke survivors face and the issues associated with existing technology and formulate ideas for a technological solution, the authors conversed with 153 members of the ecosystem (60 neuro patients, 30 caregivers, and 63 medical providers). Patients fell into two populations depending on their upper-limb impairment: spastic (stiff, clenched hands) and flaccid (limp hands). For this work, the authors chose to focus on the second category and developed a set of design constraints based on the information collected through customer discovery. With these in mind, they designed and prototyped a 3D-printed powered wrist–hand grasping orthosis (exoskeleton) to aid in recovery. The orthosis is easily custom-sized based on two parameters and derived anatomical relationships. The researchers tested the prototype on a survivor of stroke and modeled the kinematic behavior of the orthosis with and without load. The prototype neared or exceeded the target design constraints and was able to grasp objects consistently and stably, as well as exercise the patients’ hands. In particular, donning time was only 42 s, as compared to the next fastest time of 3 min reported in literature. This device has the potential for effective neurorehabilitation in a home setting, and it lays the foundation for clinical trials and further device development. 

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2. Loss of consciousness, but not etiology, predicts better working memory performance years after concussion

   https://doi.org/10.18053/jctres.05.2020S4.003  

   Hector Arciniega, Alexandrea Kilgore-Gomez (January 2020, Journal of Clinical and Translational Research)

   null (Ed.)

   Background: Patients with uncomplicated cases of concussion are thought to fully recover within several months as symptoms resolve. However, at the group level, undergraduates reporting a history of concussion (mean: 4.14 years post-injury) show lasting deficits in visual working memory performance. To clarify what predicts long-term visual working memory outcomes given heterogeneous performance across group members, we investigated factors surrounding the injury, including gender, number of mild traumatic brain injuries, time since mild traumatic brain injury (mTBI), loss of consciousness (LOC) (yes, no), and mTBI etiology (non-sport, team sport, high impact sport, and individual sport). We also collected low-density resting state electroencephalogram to test whether spectral power was correlated with performance. Aim: The purpose of this study was to identify predictors for poor visual working memory outcomes in current undergraduates with a history of concussion. Methods: Participants provided a brief history of their injury and symptoms. Participants also completed an experimental visual working memory task. Finally, low-density resting-state electroencephalogram was collected. Results: The key observation was that LOC at the time of injury predicted superior visual working memory years later. In contrast, visual working memory performance was not predicted by other factors, including etiology, high impact sports, or electroencephalogram spectral power. Conclusions: Visual working memory deficits are apparent at the group level in current undergraduates with a history of concussion. LOC at the time of concussion predicts less impaired visual working memory performance, whereas no significant links were associated with other factors. One interpretation is that after LOC, patients are more likely to seek medical advice than without LOC. Relevance for patients: Concussion is a head injury associated with future cognitive changes in some people. Concussion should be taken seriously, and medical treatment sought whenever a head injury occurs. 

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3. Brain Hematoma Segmentation Using Active Learning and an Active Contour Model

   https://doi.org/10.1007/978-3-030-17935-9_35  

   Yao, Heming; Williamson, Craig; Gryak, Jonathan; Najarian, Kayvan (April 2019, Bioinformatics and Biomedical Engineering)

   Traumatic brain injury (TBI) is a massive public health problem worldwide. Accurate and fast automatic brain hematoma segmentation is important for TBI diagnosis, treatment and outcome prediction. In this study, we developed a fully automated system to detect and segment hematoma regions in head Computed Tomography (CT) images of patients with acute TBI. We first over-segmented brain images into superpixels and then extracted statistical and textural features to capture characteristics of superpixels. To overcome the shortage of annotated data, an uncertainty-based active learning strategy was designed to adaptively and iteratively select the most informative unlabeled data to be annotated for training a Support Vector Machine classifier (SVM). Finally, the coarse segmentation from the SVM classifier was incorporated into an active contour model to improve the accuracy of the segmentation. From our experiments, the proposed active learning strategy can achieve a comparable result with 5 times fewer labeled data compared with regular machine learning. Our proposed automatic hematoma segmentation system achieved an average Dice coefficient of 0.60 on our dataset, where patients are from multiple health centers and at multiple levels of injury. Our results show that the proposed method can effectively overcome the challenge of limited and highly varied dataset. 

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4. The Effects of Concussion Can Be Long-Lasting

   https://doi.org/10.3389/frym2020.00057  

   Alexandrea Kilgore-Gomez, Hector Arciniega (April 2020, Frontiers for young minds)

   null (Ed.)

   Have you ever felt “groggy” after hitting your head? We are learning more about how important it is to protect your brain from injuries, such as concussion. Concussion is also called mild traumatic brain injury (mTBI). After an mTBI, most people think patients recover within a few weeks. We noticed that some college students who had had an mTBI were struggling to remember information for a few seconds. This ability is called working memory and we need it for most thinking jobs, like remembering the name of someone you just met, or what you wanted to get from the fridge. In our experiments, we tested different groups of students to see if they could remember things for 1 s, like the color of squares. Participants with a history of mTBI (on average, more than 4 years after injury) performed worse than students without a history of mTBI. The take-home message is that there can be lasting effects of mTBI, even years after it happens. 

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5. The Blood-Brain Barrier and Bioenergetics in Stroke

   https://doi.org/10.4172/2314-7326.1000298  

   Emily Hone, Sajad Sarvari (July 2021, Journal of Neuroinfectious Diseases)

   null (Ed.)

   Stroke is an overwhelming neurological disease with very limited treatment options. As blood-brain barrier (BBB) integrity is well-implicated in the prevention of brain injury, its regulation may prove beneficial for stroke patients. BBB cerebro-vascular endothelial cells primarily utilize mitochondria as their energy-producing source, and mitochondrial function has revealed importance in outcomes for tissue post-stroke. In this review, bioenergetics in relation to BBB permeability in stroke is discussed. Moreover, what causes mitochondrial dysfunction following stroke is explored. 

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