This study investigates the combined effects of multi-modality therapy, including mild hyperbaric therapy (mHBT), photobiomodulation (PBM), and molecular hydrogen therapy (MH), on cognitive rehabilitation in individua...This study investigates the combined effects of multi-modality therapy, including mild hyperbaric therapy (mHBT), photobiomodulation (PBM), and molecular hydrogen therapy (MH), on cognitive rehabilitation in individuals with mild-to-moderate traumatic brain injury (TBI). A total of 15 participants (7 males, 8 females, ages ranging from 20 to 78 years) diagnosed with mild-to-moderate TBI underwent 10 sessions of combined therapy. Cognitive performance was assessed using standardized neuropsychological tests before and after treatment, measuring cognitive processing speed, neural responsiveness, and executive function. The results demonstrated significant improvements across all metrics, including a 28.3 ms reduction in P300 latency, a 1.2 mV increase in P300 voltage, and reductions in completion times for the Trail-Making Tests A (14 seconds) and B (19 seconds). These findings suggest that multi-modality therapy may enhance cognitive recovery in TBI patients, with notable benefits across age and gender groups. Further research with larger sample sizes and extended follow-up is required to validate these results and explore their broader clinical applications.展开更多
A 60-year-old female with post-concussion syndrome (PCS) presented with persistent cognitive deficits and functional limitations following a slip and fall. She underwent a multimodal therapeutic protocol including hyp...A 60-year-old female with post-concussion syndrome (PCS) presented with persistent cognitive deficits and functional limitations following a slip and fall. She underwent a multimodal therapeutic protocol including hyperbaric therapy (HBT), photobiomodulation (PBM), and molecular hydrogen (MH) therapy over 10 sessions. Pre- and post-treatment assessments demonstrated significant improvements in cognitive function and neurophysiological markers, as evidenced by WAVi EEG and Trail Making Test (TMT) results. This case highlights the potential of a non-invasive, multimodal therapeutic approach to address persistent post-concussion symptoms, an area with limited effective interventions. Findings suggest that integrating these therapies into standard rehabilitation protocols may enhance recovery trajectories, particularly for patients with persistent cognitive symptoms. This case report explores the clinical course, treatment efficacy, and the potential for combining these therapies in addressing complex neurological recovery.展开更多
This case report examines the impact of mild hyperbaric oxygen therapy (mHBOT) on cognitive function and symptom relief in a 35-year-old male presenting with concussive symptoms (CS) following a motor vehicle accident...This case report examines the impact of mild hyperbaric oxygen therapy (mHBOT) on cognitive function and symptom relief in a 35-year-old male presenting with concussive symptoms (CS) following a motor vehicle accident (MVA). The patient underwent 10 mHBOT sessions over five weeks (40 minutes per session at 1.5 ATA with 32% oxygen). Post-treatment assessments revealed significant improvements, including an increase in P300 voltage from 4.2 µV to 9.2 µV, aligning with the normative range of 8 - 21 µV. Electroencephalogram (EEG) analysis demonstrated enhanced alpha and theta band activity, reflecting improved cognitive processing and attentional regulation. Clinically, the patient reported reduced headache severity, improved sleep quality, and decreased pain intensity. These findings suggest that mHBOT may support neuroplasticity, mitigate inflammation, and restore cognitive function in patients with CS. Further research, including randomized controlled trials (RCTs), is warranted to validate mHBOT’s efficacy and explore its long-term benefits in traumatic brain injury (TBI) rehabilitation.展开更多
文摘This study investigates the combined effects of multi-modality therapy, including mild hyperbaric therapy (mHBT), photobiomodulation (PBM), and molecular hydrogen therapy (MH), on cognitive rehabilitation in individuals with mild-to-moderate traumatic brain injury (TBI). A total of 15 participants (7 males, 8 females, ages ranging from 20 to 78 years) diagnosed with mild-to-moderate TBI underwent 10 sessions of combined therapy. Cognitive performance was assessed using standardized neuropsychological tests before and after treatment, measuring cognitive processing speed, neural responsiveness, and executive function. The results demonstrated significant improvements across all metrics, including a 28.3 ms reduction in P300 latency, a 1.2 mV increase in P300 voltage, and reductions in completion times for the Trail-Making Tests A (14 seconds) and B (19 seconds). These findings suggest that multi-modality therapy may enhance cognitive recovery in TBI patients, with notable benefits across age and gender groups. Further research with larger sample sizes and extended follow-up is required to validate these results and explore their broader clinical applications.
文摘A 60-year-old female with post-concussion syndrome (PCS) presented with persistent cognitive deficits and functional limitations following a slip and fall. She underwent a multimodal therapeutic protocol including hyperbaric therapy (HBT), photobiomodulation (PBM), and molecular hydrogen (MH) therapy over 10 sessions. Pre- and post-treatment assessments demonstrated significant improvements in cognitive function and neurophysiological markers, as evidenced by WAVi EEG and Trail Making Test (TMT) results. This case highlights the potential of a non-invasive, multimodal therapeutic approach to address persistent post-concussion symptoms, an area with limited effective interventions. Findings suggest that integrating these therapies into standard rehabilitation protocols may enhance recovery trajectories, particularly for patients with persistent cognitive symptoms. This case report explores the clinical course, treatment efficacy, and the potential for combining these therapies in addressing complex neurological recovery.
文摘This case report examines the impact of mild hyperbaric oxygen therapy (mHBOT) on cognitive function and symptom relief in a 35-year-old male presenting with concussive symptoms (CS) following a motor vehicle accident (MVA). The patient underwent 10 mHBOT sessions over five weeks (40 minutes per session at 1.5 ATA with 32% oxygen). Post-treatment assessments revealed significant improvements, including an increase in P300 voltage from 4.2 µV to 9.2 µV, aligning with the normative range of 8 - 21 µV. Electroencephalogram (EEG) analysis demonstrated enhanced alpha and theta band activity, reflecting improved cognitive processing and attentional regulation. Clinically, the patient reported reduced headache severity, improved sleep quality, and decreased pain intensity. These findings suggest that mHBOT may support neuroplasticity, mitigate inflammation, and restore cognitive function in patients with CS. Further research, including randomized controlled trials (RCTs), is warranted to validate mHBOT’s efficacy and explore its long-term benefits in traumatic brain injury (TBI) rehabilitation.
