Browse the latest research summaries in the field of biomedical for spinal cord injury patients and caregivers.
Showing 171-180 of 904 results
Sensors, 2023 • June 28, 2023
The study evaluated the impact of different arm-holding conditions and external pelvic loading on gait stability and muscle activation during walker-assisted walking using the mTPAD. Results indicated...
KEY FINDING: Applying a downward force on the pelvis during walking leads to narrower strides and increased overall foot loading, suggesting changes in gait stability.
Pain, 2024 • January 1, 2024
This study demonstrates that drug-free PLG nanoparticles can effectively reduce neuropathic pain following spinal cord injury (SCI) in mice. The nanoparticles work by modulating the immune response, p...
KEY FINDING: Acute treatment with PLG nanoparticles following thoracic SCI significantly reduces tactile and cold hypersensitivity scores in a durable fashion.
Nature Communications, 2023 • July 7, 2023
This author correction addresses an error in the original article concerning the effects of MN-EV and MN-MSC treatments on the inflammatory response in spinal cord lesions following SCI. The correctio...
KEY FINDING: The correction clarifies that MN-MSC treatment, not MN-EV treatment, resulted in a statistically significant increase in the anti-inflammatory cytokine TGF-β.
Journal of NeuroEngineering and Rehabilitation, 2023 • July 16, 2023
This retrospective study aimed to understand the clinical use and decision-making behind overground exoskeleton gait training (OEGT) for patients with neurological injuries during inpatient rehabilita...
KEY FINDING: Patients demonstrated progressive tolerance for OEGT over successive sessions, as shown by increasing time upright and walking, step count, and decreased assistance required by the exoskeleton.
Journal of NeuroEngineering and Rehabilitation, 2023 • November 18, 2023
The short-term usability of the RELab tenoexo was thoroughly evaluated with a mixed methods approach, which generated valuable data to improve the RHO in future iterations. In addition, learnings that...
KEY FINDING: The RELab tenoexo provided an immediate functional benefit to the users, resulting in a mean improvement of the ARAT score by 5.8 points.
Journal of Nanobiotechnology, 2024 • December 6, 2023
This study developed electroconductive hydrogels composed of tannic acid (TA) and polypyrrole (PPy), incorporating exosomes with immunomodulatory properties to enhance spinal cord injury (SCI) repair....
KEY FINDING: M2-Exos-laden electroconductive hydrogels stimulate the growth of neural stem cells and axons in the dorsal root ganglion and modulate microglial M2 polarization.
BioMedical Engineering OnLine, 2024 • January 26, 2024
The study investigates the feasibility of using depth cameras and pressure mats as alternatives to force plates in a visual feedback balance training system coupled with functional electrical stimulat...
KEY FINDING: The depth camera showed higher Pearson’s correlation (r > 98) and lower root mean squared error (RMSE < 10 mm) than the pressure mat (r > 0.82; RMSE < 4.5 mm) when compared with the force plate overall.
Bioactive Materials, 2024 • January 19, 2024
This study developed conductive aligned CNT/GelMA hydrogel fibers using rotating liquid bath electrospinning, mimicking neural axon structure and conductivity. In vitro, these fibers supported PC12 ce...
KEY FINDING: CNT/GelMA hydrogel fibers supported PC12 cell proliferation and aligned adhesion, which was enhanced by electrical stimulation (ES).
PLoS ONE, 2024 • November 1, 2024
The study introduces an unsupervised learning method for real-time and continuous gait phase detection, addressing limitations in current rehabilitation robotic systems. The method uses a pre-trained ...
KEY FINDING: The developed neural network model exhibits an average time error of less than 11.51 ms across all walking conditions, indicating its suitability for real-time applications.
Advanced Science, 2024 • March 21, 2024
The study introduces a novel nano complex designed for targeted repair of spinal cord injuries (SCI). The nano complex, consisting of a microRNA-loaded core camouflaged by a stem cell membrane modifie...
KEY FINDING: The nano complex promotes axon regrowth, modulates the local inflammatory microenvironment, and enhances functional recovery of SCI in mice, without causing treatment-related secondary injury.