Annals of Rehabilitation Medicine

"Traumatic brain injuries"

Original Articles

Pediatric rehabilitation

Effects of Concurrent Tasks on Gait Performance in Children With Traumatic Brain Injury Versus Children With Typical Development: Rabiatul Adawiah Abdul Rahman, Fazah Akhtar Hanapiah, Azlina Wati Nikmat, Nor Azira Ismail, Haidzir Manaf; Ann Rehabil Med 2021;45(3):186-196. Published online June 14, 2021; DOI: https://doi.org/10.5535/arm.21004

Abstract
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Objective
To investigate how gait parameters in children with traumatic brain injury (TBI) versus typically developing (TD) children are influenced by secondary concurrent tasks and examine the correlations between gait parameters and attention and balance in children with TBI.
Methods
Sixteen children with TBI (mean age, 11.63±1.89 years) and 22 TD controls (mean age, 11.41±2.24 years) participated in this case-control study. Attention and functional balance were measured using the Children’s Color Trail Test (CCTT) and Pediatric Balance Scale (PBS). All participants first walked without concurrent tasks and then with concurrent motor and cognitive tasks. The APDM Mobility Lab was used to measure gait parameters, including gait velocity, stride length, stride duration, cadence, and double support time. Repeatedmeasures analysis of variance and Spearman correlation coefficient were used for the analysis.
Results
Children with TBI showed significantly more deterioration in gait performance than TD children (p<0.05). Concurrent tasks (motor and cognitive) significantly decreased gait velocity and cadence and increased stride time; the differences were more obvious during the concurrent cognitive task. A moderate correlation was found between gait parameters (gait velocity and stride length) and CCTT-2 and PBS scores in children with TBI.
Conclusion
Gait performance may be affected by task complexity following TBI. Attention and balance deficits caused deterioration in gait performance under the concurrent task condition in children with TBI. This study illustrates the crucial role of task demand and complexity in dual-task interference.

Citations

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Multiple Head Rotations Result in Persistent Gait Alterations in Piglets
Mackenzie Mull, Oluwagbemisola Aderibigbe, Marzieh Hajiaghamemar, R. Anna Oeur, Susan S Margulies
Biomedicines.2022; 10(11): 2976. CrossRef

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Transabdominal Functional Magnetic Stimulation for the Treatment of Constipation in Brain-Injured Patients: A Randomized Controlled Trial: Young-Cheol Yun, Yong-Soon Yoon, Eun-Sil Kim, Young-Jae Lee, Jin-Gyeong Lee, Won-Jae Jo, Kwang Jae Lee; Ann Rehabil Med 2019;43(1):19-26. Published online February 28, 2019; DOI: https://doi.org/10.5535/arm.2019.43.1.19

Abstract
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Objective
To investigate the effects of the transabdominal functional magnetic stimulation (A-FMS) for constipation in stroke or brain-injured patients.
Methods
Twenty-four brain-injured patients (11 males and 13 females; median age, 65 years; 22 cases of stroke and 2 cases of traumatic brain injury) with constipation, who were admitted to the rehabilitation department, were enrolled and randomly divided into magnetic stimulation (MS) group and sham stimulation (Sham) group. Several parameters related with constipation such as total and segmental colon transit time (CTT), defecation frequency, and Bristol Stool Scale (BSS) before and after 2 weeks of A-FMS (5 times per week, total 10 times of A-FMS) were evaluated. The Korean version of the Modified Barthel Index (K-MBI) was also evaluated.
Results
A significant decrease in segmental CTT in the left colon (-8.2±3.9 vs. 4.1±2.5 hours; p<0.05 by paired sample t-test) and a significant increase in the frequency of defecation (1.5±0.2 vs 0.7±0.3; p<0.05 by paired sample t-test) were observed in the MS group compared with the Sham group. Stool hardness became significantly softer in the MS group compared with the Sham group (2.3–3.5 in the MS and 2.6–3.1 in the Sham; p<0.05 by chi-square test) as evaluated by BSS. No difference in the K-MBI was observed between the two groups.
Conclusion
The present study suggests that A-FMS can be an additional therapeutic tool for managing constipation in brain-injured patients with abnormal bowel movement, defecation frequency, and stool hardness.

Citations

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The Effect of Magnetic Therapy on Postoperative Urinary Retention in Patients Undergoing Surgery: A Randomized Clinical Trial
Ghasem Zarei, Sorour Mosleh, Soraya Zare, Mohammad Sadegh Abotalebi
Iranian Journal of Nursing and Midwifery Research.2024; 29(4): 417. CrossRef
Conservative, physical and surgical interventions for managing faecal incontinence and constipation in adults with central neurological diseases
Claire L Todd, Eugenie E Johnson, Fiona Stewart, Sheila A Wallace, Andrew Bryant, Sue Woodward, Christine Norton
Cochrane Database of Systematic Reviews.2024;[Epub] CrossRef
High-Frequency Repetitive Magnetic Stimulation at the Sacrum Alleviates Chronic Constipation in Parkinson’s Patients
Mei Huang, Bofang Zheng, Wanfei Zhou, Huaili Fu, Xinrun Chen, Heyong Wu, Jianguo Zhang, Xianju Zhou
Annals of Indian Academy of Neurology.2023; 26(3): 235. CrossRef
Bowel dysfunctions after acquired brain injury: a scoping review
Matteo Zandalasini, Laura Pelizzari, Gianluca Ciardi, Donatella Giraudo, Massimo Guasconi, Stefano Paravati, Gianfranco Lamberti, Antonio Frizziero
Frontiers in Human Neuroscience.2023;[Epub] CrossRef
The effect of the therapy of “combination 3 methods progression” in patients with neurogenic bowel dysfunction (constipated type)
Qing Li, Yin-Li Shen, Yun-Lan Jiang, Dong-Shuang Li, Song Jin
Medicine.2021; 100(7): e24662. CrossRef
Efficacy of functional magnetic stimulation in improving upper extremity function after stroke: a randomized, single-blind, controlled study
Xiaowei Chen, Xuncan Liu, Yinxing Cui, Guoxing Xu, Lu Liu, Xueru Zhang, Kun Jiang, Zhenlan Li
Journal of International Medical Research.2020;[Epub] CrossRef
Dose–response of rPMS for upper Limb hemiparesis after stroke
Shoji Kinoshita, Kumi Ikeda, Shinji Yasuno, Sho Takahashi, Naoki Yamada, Yumi Okuyama, Nobuyuki Sasaki, Takuya Hada, Chiaki Kuriyama, Shin Suzuki, Midori Hama, Naoto Ozaki, Shu Watanabe, Masahiro Abo
Medicine.2020; 99(24): e20752. CrossRef

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Case Reports

Sinking Skin Flap Syndrome or Syndrome of the Trephined: A Report of Two Cases: Hae-Yeon Park, Sehee Kim, Joon-Sung Kim, Seong Hoon Lim, Young Il Kim, Dong Hoon Lee, Bo Young Hong; Ann Rehabil Med 2019;43(1):111-114. Published online February 28, 2019; DOI: https://doi.org/10.5535/arm.2019.43.1.111

Abstract
PDF

Decompressive craniectomy (DC) is commonly performed in patients with intracranial hypertension or brain edema due to traumatic brain injury. Infrequently, neurologic deteriorations accompanied by sunken scalp may occur after DC. We report two patients with traumatic subdural hemorrhage who had neurologic deteriorations accompanied by sunken scalp after DC. Neurologic function improved dramatically in both patients after cranioplasty. Monitoring for neurologic deterioration after craniectomy is advised. For patients showing neurologic deficit with a sunken scalp, early cranioplasty should be considered.

Citations

Citations to this article as recorded by

Outcome of Early Cranioplasty in Trephine Syndrome or Paradoxical Brain Herniation: A Case Report and Literature Review
Zarbakhta Ashfaq, Hamza Ahmed, Adnan Khan, Aisha Mufti
Cureus.2025;[Epub] CrossRef
Improved rehabilitation efficiency after cranioplasty in patients with sunken skin flap syndrome: a case series
Nicole Diaz-Segarra, Neil Jasey
Brain Injury.2024; 38(2): 61. CrossRef
Modified frontal horn index: a novel risk predictor for sunken flap syndrome in the patients undergoing shunt procedures for post-decompressive craniectomy hydrocephalus
Vikrant Yadav, Anurag Sahu, Ravi Shankar Prasad, Nityanand Pandey, Manish Kumar Mishra, Ravi Shekhar Pradhan
The Egyptian Journal of Neurology, Psychiatry and Neurosurgery.2024;[Epub] CrossRef
Historical Vignette Portraying the Difference Between the “Sinking Skin Flap Syndrome” and the “Syndrome of the Trephined” in Decompressive Craniectomy
Nathan Beucler, Arnaud Dagain
World Neurosurgery.2022; 162: 11. CrossRef
Sinking Skin Flap Syndrome After Decompressive Hemicraniectomy in a Patient With Calvarial Multiple Myeloma Who Underwent a Lumbar Puncture: A Case Report
Sara Tonini, David Jordanovski, Karlene Williams
Cureus.2022;[Epub] CrossRef
Sinking skin flap syndrome in head and neck reconstruction: A case report
Alyssa Ovaitt, Matthew Fort, Kirk Withrow, Brian Hughley
Otolaryngology Case Reports.2021; 21: 100330. CrossRef
Postural neurologic deficits after decompressive craniectomy: A case series of sinking skin flap syndrome in traumatic brain injury
Emma A. Bateman, Jordan VanderEnde, Keith Sequeira, Heather M. MacKenzie
NeuroRehabilitation.2021; 49(4): 663. CrossRef

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Global Synchronization Index as an Indicator for Tracking Cognitive Function Changes in a Traumatic Brain Injury Patient: A Case Report: Ho Young Lee, Kwang-Ik Jung, Woo-Kyoung Yoo, Suk Hoon Ohn; Ann Rehabil Med 2019;43(1):106-110. Published online February 28, 2019; DOI: https://doi.org/10.5535/arm.2019.43.1.106

Abstract
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Traumatic brain injury is a main cause of long-term neurological disability, and many patients suffer from cognitive impairment for a lengthy period. Cognitive impairment is a fatal malady to that limits active rehabilitation, and functional recovery in patients with traumatic brain injury. In severe cases, it is impossible to assess cognitive function precisely, and severe cognitive impairment makes it difficult to establish a rehabilitation plan, as well as evaluate the course of rehabilitation. Evaluation of cognitive function is essential for establishing a rehabilitation plan, as well as evaluating the course of rehabilitation. We report a case of the analysis of electroencephalography with global synchronization index and low-resolution brain electromagnetic tomography applied, for evaluation of cognitive function that was difficult with conventional tests, due to severe cognitive impairment in a 77-year-old male patient that experienced traumatic brain injury.

Citations

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Brain health in diverse settings: How age, demographics and cognition shape brain function
Hernan Hernandez, Sandra Baez, Vicente Medel, Sebastian Moguilner, Jhosmary Cuadros, Hernando Santamaria-Garcia, Enzo Tagliazucchi, Pedro A. Valdes-Sosa, Francisco Lopera, John Fredy OchoaGómez, Alfredis González-Hernández, Jasmin Bonilla-Santos, Rodrigo
NeuroImage.2024; 295: 120636. CrossRef
Criticality and partial synchronization analysis in Wilson-Cowan and Jansen-Rit neural mass models
Sheida Kazemi, AmirAli Farokhniaee, Yousef Jamali, Gennady S. Cymbalyuk
PLOS ONE.2024; 19(7): e0292910. CrossRef
Structural inequality and temporal brain dynamics across diverse samples
Sandra Baez, Hernan Hernandez, Sebastian Moguilner, Jhosmary Cuadros, Hernando Santamaria‐Garcia, Vicente Medel, Joaquín Migeot, Josephine Cruzat, Pedro A. Valdes‐Sosa, Francisco Lopera, Alfredis González‐Hernández, Jasmin Bonilla‐Santos, Rodrigo A. Gonza
Clinical and Translational Medicine.2024;[Epub] CrossRef

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Original Articles

Immediate Effects of a Single Exercise on Behavior and Memory in the Early Period of Traumatic Brain Injury in Rats: Kyung Jae Yoon, Dae Yul Kim; Ann Rehabil Med 2018;42(5):643-651. Published online October 31, 2018; DOI: https://doi.org/10.5535/arm.2018.42.5.643

Abstract
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Objective
To evaluate the immediate effect of single exercise on physical performance and memory in the early stage of traumatic brain injury (TBI) in rats.
Methods
Ninety TBI rats were randomly assigned to T0 (sedentary), T10 (treadmill 10 m/min for 30 minutes), or T20 (treadmill 20 m/min for 30 minutes) groups, on day 3 (D3), D7, and D14 after TBI, respectively. Rotarod (RR), Barnes maze (BM), brain magnetic resonance imaging (MRI) and MR spectroscopy were performed immediately before and 6 hours after exercise. Rats were sacrificed for immunohistochemistry with heat shock protein 70 (Hsp70) and glial fibrillary acidic protein (GFAP).
Results
On D3, the T10 and T20 groups demonstrated significant improvement in RR (p<0.05). On D7, only the T20 group showed significantly enhanced RR (p<0.05). In BM on D3, the T20 group showed significant deterioration compared with the other groups (p<0.05). Lesion volume did not significantly differ among the groups. MR spectroscopy on D3 showed that only the T20 group had significantly increased choline/creatine and 0.9/creatine (p<0.05). In the perilesional area on D3, only T20 had a significantly higher Hsp70 and GFAP than the T0 group. On D7, Hsp70 was significantly higher in the T20 group than in the T0 group (p<0.05). In the ipsilesional hippocampus on D3, the T20 group showed a significantly higher Hsp70 and GFAP than the T0 group (p<0.05).
Conclusion
A single session of low-intensity exercise in the early period of TBI improves behavioral performance without inducing cognitive deficits. However, high-intensity exercise can exacerbate cognitive function in the early period after TBI. Therefore, the optimal timing of rehabilitation and exercise intensity are crucial in behavior and memory recovery after TBI.

Citations

Citations to this article as recorded by

Randomized Controlled Trial: Preliminary Investigation of the Impact of High-Intensity Treadmill Gait Training on Recovery Among Persons with Traumatic Brain Injury
Tyler Shick, Courtney Perkins, Arco Paul, Melissa Martinez, Joseph Joyce, Katy Beach, Jeffrey Swahlan, Justin Weppner
Neurotrauma Reports.2025; 6(1): 82. CrossRef
Optimal Timing of Exercise for Enhanced Learning and Memory: Insights From CA1 and CA3 Regions in Traumatic Brain Injury Model in Male Rats
Forouzan Rafie, Sedigheh Amiresmaili, Mohammad Amin Rajizadeh, Mohammad Pourranjbar, Elham Jafari, Mohammad Khaksari, Sara Shirazpour, Omid Moradnejad, Amir Hossein Nekouei
Brain and Behavior.2025;[Epub] CrossRef
Maternal Treadmill Exercise and Zinc Supplementation Alleviate Prenatal Stress–Induced Cognitive Deficits and Restore Neurological Biomarkers in Offspring: A Study on Male Rats Aged 30 and 90 Days
Sina Fatehfar, Parsa Sameei, Naseh Abdollahzade, Leila Chodari, Ehsan Saboory, Shiva Roshan‐Milani
Developmental Neurobiology.2025;[Epub] CrossRef
Protective effects of early exercise on neuroinflammation, and neurotoxicity associated by traumatic brain injury: a behavioral and neurochemical approach
Forouzan Rafie, Mohammad Khaksari, Sedigheh Amiresmaili, Zahra Soltani, Mohammad Pourranjbar, Sara Shirazpour, Elham Jafari
International Journal of Neuroscience.2024; 134(7): 700. CrossRef
Effect of stress on the rehabilitation performance of rats with repetitive mild fluid percussion-induced traumatic brain injuries
Yu-Lin Wang, Chi-Chun Chen, Ching-Ping Chang
Cognitive Neurodynamics.2024; 18(1): 283. CrossRef
Brain-Derived Neurotrophic Factor in Pediatric Acquired Brain Injury and Recovery
Amery Treble-Barna, Bailey A. Petersen, Zachary Stec, Yvette P. Conley, Ericka L. Fink, Patrick M. Kochanek
Biomolecules.2024; 14(2): 191. CrossRef
Treating Traumatic Brain Injury with Exercise: Onset Delay and Previous Training as Key Factors Determining its Efficacy
Tanit Sánchez-Martín, David Costa-Miserachs, Margalida Coll-Andreu, Isabel Portell-Cortés, Soleil García-Brito, Meritxell Torras-Garcia
Neurorehabilitation and Neural Repair.2024; 38(10): 715. CrossRef
Physical exercise as a cognitive rehabilitation treatment after traumatic brain injury: Intensity- and sex-dependent effects
Ángel Gómez-Porcuna, Meritxell Torras-Garcia, Margalida Coll-Andreu, Soleil García-Brito, David Costa-Miserachs
Experimental Neurology.2024; 381: 114941. CrossRef
Alterações na memória e no cortisol após única sessão de exercício resistido
Afonso Denofre De Carvalho, Augusto Mattos Spinato, Bárbara França Kanadani, Beatriz Colombo Molina, Cecília de Souza Menezes Trindade, Marcos Alexandre Malheiros Sales, Juliana Cintra, Alex Moreira Souza
Cuadernos de Educación y Desarrollo.2023; 15(12): 16423. CrossRef
The benefits of exercise for outcome improvement following traumatic brain injury: Evidence, pitfalls and future perspectives
Yulan Zhang, Zhihai Huang, Honglin Xia, Jing Xiong, Xu Ma, Chengyi Liu
Experimental Neurology.2022; 349: 113958. CrossRef
The effects of early exercise in traumatic brain-injured rats with changes in motor ability, brain tissue, and biomarkers
Chung Kwon Kim, Jee Soo Park, Eunji Kim, Min-Kyun Oh, Yong-Taek Lee, Kyung Jae Yoon, Kyeung Min Joo, Kyunghoon Lee, Young Sook Park
BMB Reports.2022; 55(10): 512. CrossRef
Involuntary, forced or voluntary exercise can ameliorate the cognitive deficits by enhancing levels of hippocampal NMDAR1, pAMPAR1 and pCaMKII in a model of vascular dementia
Yangyang Lin, Yangfan Xu, Huiting Feng, Longfei You, Juntao Dong, Zunlin Gao, Suiying Peng, Yujie Deng, Peihui Wu
Neurological Research.2021; 43(5): 349. CrossRef
Swimming exercise improves short‐ and long‐term memories: Time‐course changes
Mahmoud A. Alomari, Karem H. Alzoubi, Omar F. Khabour
Physiological Reports.2021;[Epub] CrossRef
The Effect of Aerobic Exercise on Concussion Recovery: A Pilot Clinical Trial
Aliyah R. Snyder, Sarah M. Greif, James R. Clugston, David B. FitzGerald, Joshua F. Yarrow, Talin Babikian, Christopher C. Giza, Floyd J. Thompson, Russell M. Bauer
Journal of the International Neuropsychological Society.2021; 27(8): 790. CrossRef
Aggravating effects of treadmill exercises during the early-onset period in a rat traumatic brain injury model: When should rehabilitation exercises be initiated?
Satoru Taguchi, Mohammed E. Choudhury, Kazuya Miyanishi, Yuiko Nakanishi, Kenji Kameda, Naoki Abe, Hajime Yano, Toshihiro Yorozuya, Junya Tanaka
IBRO Reports.2019; 7: 82. CrossRef

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Effects of Electric Cortical Stimulation (ECS) and Transcranial Direct Current Stimulation (tDCS) on Rats With a Traumatic Brain Injury: Ki Pi Yu, Yong-Soon Yoon, Jin Gyeong Lee, Ji Sun Oh, Jeong-Seog Lee, Taeyong Seog, Han-Young Lee; Ann Rehabil Med 2018;42(4):502-513. Published online August 31, 2018; DOI: https://doi.org/10.5535/arm.2018.42.4.502

Abstract
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Objective
To evaluate the effects of electric cortical stimulation (ECS) and transcranial direct current stimulation (tDCS) on motor and cognitive function recovery and brain plasticity in focal traumatic brain injury (TBI) of rats model.
Methods
Forty rats were pre-trained to perform a single pellet reaching task (SPRT), rotarod test (RRT), and Y-maze test for 14 days, then a focal TBI was induced by a weight drop model on the motor cortex. All rats were randomly assigned to one of the three groups: anodal ECS (50 Hz and 194 μs) (ECS group), tDCS (0.1 mA, 50 Hz and 200 μs) (tDCS group), and no stimulation as a control group. Four-week stimulation, including rehabilitation, was started 3 days after the operation. SPRT, RRT, and Y-maze were measured from day 1 to day 28 after the TBI was induced. Histopathological and immunohistochemistry staining evaluations were performed at 4 weeks.
Results
SPRT was improved from day 7 to day 26 in ECS, and from day 8 to day 26 in tDCS compared to the control group (p<0.05). SPRT of ECS group was significantly improved on days 3, 8, 9, and 17 compared to the tDCS group. Y-maze was improved from day 8 to day 16 in ECS, and on days 6, 12, and 16 in the tDCS group compared to the control group (p<0.05). Y-maze of the ECS group was significantly improved on day 9 to day 15 compared to the tDCS group. The c-Fos protein expression was better in the ECS group and the tDCS group compared to the control group.
Conclusion
Electric stimulation in rats modified with a focal TBI is effective for motor recovery and brain plasticity. ECS induced faster behavioral and cognitive improvements compared to tDCS during the recovery period of rats with a focal TBI.

Citations

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Neurophysiological Markers of Reward Processing Can Inform Preclinical Neurorehabilitation Approaches for Cognitive Impairments Following Brain Injury
Miranda Francoeur Koloski, Reyana Menon, Victoria Krasnyanskiy
Brain Sciences.2025; 15(5): 471. CrossRef
Exploring the Intersection of Brain–Computer Interfaces and Quantum Sensing: A Review of Research Progress and Future Trends
Kun Liao, Zhaochu Yang, Dong Tao, Libo Zhao, Nuno Pires, Carlos Alberto Dorao, Bjørn Torger Stokke, Lars Eric Roseng, Wen Liu, Zhuangde Jiang
Advanced Quantum Technologies.2024;[Epub] CrossRef
Advances in Neurorehabilitation: Strategies and Outcomes for Traumatic Brain Injury Recovery
Purvi Kaurani, Ana Vitoria Moreira de Marchi Apolaro, Keerthi Kunchala, Shriya Maini, Huda A F Rges, Ashley Isaac, Mohit Lakkimsetti, Mohammed Raake, Zahra Nazir
Cureus.2024;[Epub] CrossRef
Neuromodulation Therapies in Pre-Clinical Models of Traumatic Brain Injury: Systematic Review and Translational Applications
Shanan Surendrakumar, Thallita Kelly Rabelo, Ana Carolina P. Campos, Adriano Mollica, Agessandro Abrahao, Nir Lipsman, Matthew J. Burke, Clement Hamani
Journal of Neurotrauma.2023; 40(5-6): 435. CrossRef
Effects of single session transcranial direct current stimulation on aerobic performance and one arm pull-down explosive force of professional rock climbers
Jia Luo, Caihua Fang, Sen Huang, Jinlong Wu, Bowen Liu, Jingxuan Yu, Wen Xiao, Zhanbing Ren
Frontiers in Physiology.2023;[Epub] CrossRef
Electrical stimulation methods and protocols for the treatment of traumatic brain injury: a critical review of preclinical research
D. Ziesel, M. Nowakowska, S. Scheruebel, K. Kornmueller, U. Schäfer, R. Schindl, C. Baumgartner, M. Üçal, T. Rienmüller
Journal of NeuroEngineering and Rehabilitation.2023;[Epub] CrossRef
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Güven AKÇAY, Recep BAYDEMİR
Cukurova Medical Journal.2023; 48(3): 972. CrossRef
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International Journal of Molecular Sciences.2022; 23(3): 1800. CrossRef
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Rasoul Kaviannejad, Seyed Morteza Karimian, Esmail Riahi, Ghorbangol Ashabi
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Cortical Electrical Stimulation Ameliorates Traumatic Brain Injury-Induced Sensorimotor and Cognitive Deficits in Rats
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Frontiers in Neural Circuits.2021;[Epub] CrossRef
Rodent models used in preclinical studies of deep brain stimulation to rescue memory deficits
Matthieu Faillot, Antoine Chaillet, Stéphane Palfi, Suhan Senova
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Optogenetic Modulation for the Treatment of Traumatic Brain Injury
Samantha L. Delaney, Julian L. Gendreau, Marissa D'Souza, Austin Y. Feng, Allen L. Ho
Stem Cells and Development.2020; 29(4): 187. CrossRef
Cathodal Transcranial Direct-Current Stimulation Selectively Decreases Impulsivity after Traumatic Brain Injury in Rats
Kris M. Martens, Kristen M. Pechacek, Cassandra G. Modrak, Virginia J. Milleson, Binxing Zhu, Cole Vonder Haar
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Enhancing rehabilitation and functional recovery after brain and spinal cord trauma with electrical neuromodulation
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Current Opinion in Neurology.2019; 32(6): 828. CrossRef
Beyond the target area: an integrative view of tDCS-induced motor cortex modulation in patients and athletes
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Journal of NeuroEngineering and Rehabilitation.2019;[Epub] CrossRef

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Effects of Early Cranioplasty on the Restoration of Cognitive and Functional Impairments: Byung Wook Kim, Tae Uk Kim, Jung Keun Hyun; Ann Rehabil Med 2017;41(3):354-361. Published online June 29, 2017; DOI: https://doi.org/10.5535/arm.2017.41.3.354

Abstract
PDF

Objective

To delineate the effect of early cranioplasty on the recovery of cognitive and functional impairments in patients who received decompressive craniectomy after traumatic brain injury or spontaneous cerebral hemorrhage.

Methods

Twenty-four patients who had received cranioplasty were selected and divided according to the period from decompressive craniectomy to cranioplasty into early (≤90 days) and late (>90 days) groups. The Korean version of the Mini-Mental State Examination (K-MMSE), Korean version of the Modified Barthel Index (K-MBI), and Functional Independence Measure (FIM) were evaluated at admission just after decompressive craniectomy and during the follow-up period after cranioplasty.

Results

Twelve patients were included in the early group, and another 13 patients were included in the late group. The age, gender, type of lesion, and initial K-MMSE, K-MBI, and FIM did not significantly differ between two groups. However, the total gain scores of the K-MMSE and FIM in the early group (4.50±7.49 and 9.42±15.96, respectively) increased more than those in the late group (−1.08±3.65 and −0.17±17.86, respectively), and some of K-MMSE subscores (orientation and language) and FIM subcategories (self-care and transfer-locomotion) in the early group increased significantly when compared to those in the late group without any serious complications. We also found that the time to perform a cranioplasty was weakly, negatively correlated with the K-MMSE gain score (r=−0.560).

Conclusion

Early cranioplasty might be helpful in restoring cognitive and functional impairments, especially orientation, language ability, self-care ability, and mobility in patients with traumatic brain injury or spontaneous cerebral hemorrhage.

Citations

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Outcome of Early Cranioplasty in Trephine Syndrome or Paradoxical Brain Herniation: A Case Report and Literature Review
Zarbakhta Ashfaq, Hamza Ahmed, Adnan Khan, Aisha Mufti
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Jia-hua Zhou, Ju-lei Wang, Di Yang, Ying-xi Wu, Wei Zhang, Huai-zhou Qin, Chao Wang, Jiang Li
Journal of Craniofacial Surgery.2024;[Epub] CrossRef
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Case Report

Diagnostic Challenge of Diffusion Tensor Imaging in a Patient With Hemiplegia After Traumatic Brain Injury: Hye Eun Shin, Hoon Chang Suh, Si Hyun Kang, Kyung Mook Seo, Don-Kyu Kim, Hae-Won Shin; Ann Rehabil Med 2017;41(1):153-157. Published online February 28, 2017; DOI: https://doi.org/10.5535/arm.2017.41.1.153

Abstract
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A 51-year-old man showed hemiplegia on his right side after a traumatic brain injury (TBI). On initial brain computed tomography (CT) scan, an acute subdural hemorrhage in the right cerebral convexity and severe degrees of midline shifting and subfalcine herniation to the left side were evident. On follow-up brain magnetic resonance imaging (MRI), there were multiple microhemorrhages in the left parietal and occipital subcortical regions. To explain the occurrence of right hemiplegia after brain damage which dominantly on the right side of brain, we used diffusion tensor imaging (DTI) to reconstruct the corticospinal tract (CST), which showed nearly complete injury on the left CST. We also performed motor-evoked potentials, and stimulation of left motor cortex evoked no response on both sides of upper extremity. We report a case of patient with hemiplegia after TBI and elucidation of the case by DTI rather than CT and MRI.

Citations

Citations to this article as recorded by

Diffusion-Tensor-Tractography-Based Diagnosis for Injury of Corticospinal Tract in a Patient with Hemiplegia Following Traumatic Brain Injury
Chan-Hyuk Park, Su-Hong Kim, Han-Young Jung
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Delayed Extensive White Matter Injury Caused by a Subdural Hemorrhage and Role of Corticospinal Tract Integrity
Kyoung Bo Lee, Sang Cheol Yoon, Joon Sung Kim, Bo Young Hong, Jung Geun Park, Won Jin Sung, Hye Jung Park, Seong Hoon Lim
Brain & Neurorehabilitation.2019;[Epub] CrossRef