A Controlled Clinical Study of Accelerated High-Dose Theta Burst Stimulation in Patients with Obsessive-Compulsive Disorder
CONCLUSION: Accelerated high-dose TBS is as safe and has comparable short-term efficacy to traditional 1-Hz rTMS for the clinical treatment of OCD. Further research is needed to explore optimal ahTBS parameters, validate the utility of this treatment modality, and identify factors predictive of rapid clinical response to guide clinical decision-making. This trial is registered with NCT05221632.PMID:38099081 | PMC:PMC10721349 | DOI:10.1155/2023/2741287 (Source: Neural Plasticity)
Source: Neural Plasticity - December 15, 2023 Category: Neurology Authors: Jin Jiang Ke Wan Yueling Liu Yan Tang Wenxin Tang Jian Liu Jiehua Ma Chuang Xue Lu Chen Huichang Qian Dandan Liu Xinxin Shen Ruijuan Fan Yongguang Wang Kai Wang Gongjun Ji Chunyan Zhu Source Type: research

A Controlled Clinical Study of Accelerated High-Dose Theta Burst Stimulation in Patients with Obsessive-Compulsive Disorder
CONCLUSION: Accelerated high-dose TBS is as safe and has comparable short-term efficacy to traditional 1-Hz rTMS for the clinical treatment of OCD. Further research is needed to explore optimal ahTBS parameters, validate the utility of this treatment modality, and identify factors predictive of rapid clinical response to guide clinical decision-making. This trial is registered with NCT05221632.PMID:38099081 | PMC:PMC10721349 | DOI:10.1155/2023/2741287 (Source: Neural Plasticity)
Source: Neural Plasticity - December 15, 2023 Category: Neurology Authors: Jin Jiang Ke Wan Yueling Liu Yan Tang Wenxin Tang Jian Liu Jiehua Ma Chuang Xue Lu Chen Huichang Qian Dandan Liu Xinxin Shen Ruijuan Fan Yongguang Wang Kai Wang Gongjun Ji Chunyan Zhu Source Type: research

A Controlled Clinical Study of Accelerated High-Dose Theta Burst Stimulation in Patients with Obsessive-Compulsive Disorder
CONCLUSION: Accelerated high-dose TBS is as safe and has comparable short-term efficacy to traditional 1-Hz rTMS for the clinical treatment of OCD. Further research is needed to explore optimal ahTBS parameters, validate the utility of this treatment modality, and identify factors predictive of rapid clinical response to guide clinical decision-making. This trial is registered with NCT05221632.PMID:38099081 | PMC:PMC10721349 | DOI:10.1155/2023/2741287 (Source: Neural Plasticity)
Source: Neural Plasticity - December 15, 2023 Category: Neurology Authors: Jin Jiang Ke Wan Yueling Liu Yan Tang Wenxin Tang Jian Liu Jiehua Ma Chuang Xue Lu Chen Huichang Qian Dandan Liu Xinxin Shen Ruijuan Fan Yongguang Wang Kai Wang Gongjun Ji Chunyan Zhu Source Type: research

A Controlled Clinical Study of Accelerated High-Dose Theta Burst Stimulation in Patients with Obsessive-Compulsive Disorder
CONCLUSION: Accelerated high-dose TBS is as safe and has comparable short-term efficacy to traditional 1-Hz rTMS for the clinical treatment of OCD. Further research is needed to explore optimal ahTBS parameters, validate the utility of this treatment modality, and identify factors predictive of rapid clinical response to guide clinical decision-making. This trial is registered with NCT05221632.PMID:38099081 | PMC:PMC10721349 | DOI:10.1155/2023/2741287 (Source: Neural Plasticity)
Source: Neural Plasticity - December 15, 2023 Category: Neurology Authors: Jin Jiang Ke Wan Yueling Liu Yan Tang Wenxin Tang Jian Liu Jiehua Ma Chuang Xue Lu Chen Huichang Qian Dandan Liu Xinxin Shen Ruijuan Fan Yongguang Wang Kai Wang Gongjun Ji Chunyan Zhu Source Type: research

A Controlled Clinical Study of Accelerated High-Dose Theta Burst Stimulation in Patients with Obsessive-Compulsive Disorder
CONCLUSION: Accelerated high-dose TBS is as safe and has comparable short-term efficacy to traditional 1-Hz rTMS for the clinical treatment of OCD. Further research is needed to explore optimal ahTBS parameters, validate the utility of this treatment modality, and identify factors predictive of rapid clinical response to guide clinical decision-making. This trial is registered with NCT05221632.PMID:38099081 | PMC:PMC10721349 | DOI:10.1155/2023/2741287 (Source: Neural Plasticity)
Source: Neural Plasticity - December 15, 2023 Category: Neurology Authors: Jin Jiang Ke Wan Yueling Liu Yan Tang Wenxin Tang Jian Liu Jiehua Ma Chuang Xue Lu Chen Huichang Qian Dandan Liu Xinxin Shen Ruijuan Fan Yongguang Wang Kai Wang Gongjun Ji Chunyan Zhu Source Type: research

Premotor and Posterior Parietal Cortex Activity is Increased for Slow, as well as Fast Walking Poststroke: An fNIRS Study
CONCLUSIONS: Brain activation is not linearly related to gait speed. Ipsilesional prefrontal cortex, bilateral premotor, and bilateral posterior parietal cortices are important areas for gait speed modulation and could be an area of interest for neurostimulation.PMID:37868191 | PMC:PMC10589070 | DOI:10.1155/2023/2403175 (Source: Neural Plasticity)
Source: Neural Plasticity - October 23, 2023 Category: Neurology Authors: Shannon B Lim Sue Peters Chieh-Ling Yang Lara A Boyd Teresa Liu-Ambrose Janice J Eng Source Type: research

Premotor and Posterior Parietal Cortex Activity is Increased for Slow, as well as Fast Walking Poststroke: An fNIRS Study
CONCLUSIONS: Brain activation is not linearly related to gait speed. Ipsilesional prefrontal cortex, bilateral premotor, and bilateral posterior parietal cortices are important areas for gait speed modulation and could be an area of interest for neurostimulation.PMID:37868191 | PMC:PMC10589070 | DOI:10.1155/2023/2403175 (Source: Neural Plasticity)
Source: Neural Plasticity - October 23, 2023 Category: Neurology Authors: Shannon B Lim Sue Peters Chieh-Ling Yang Lara A Boyd Teresa Liu-Ambrose Janice J Eng Source Type: research

Premotor and Posterior Parietal Cortex Activity is Increased for Slow, as well as Fast Walking Poststroke: An fNIRS Study
CONCLUSIONS: Brain activation is not linearly related to gait speed. Ipsilesional prefrontal cortex, bilateral premotor, and bilateral posterior parietal cortices are important areas for gait speed modulation and could be an area of interest for neurostimulation.PMID:37868191 | PMC:PMC10589070 | DOI:10.1155/2023/2403175 (Source: Neural Plasticity)
Source: Neural Plasticity - October 23, 2023 Category: Neurology Authors: Shannon B Lim Sue Peters Chieh-Ling Yang Lara A Boyd Teresa Liu-Ambrose Janice J Eng Source Type: research

Premotor and Posterior Parietal Cortex Activity is Increased for Slow, as well as Fast Walking Poststroke: An fNIRS Study
CONCLUSIONS: Brain activation is not linearly related to gait speed. Ipsilesional prefrontal cortex, bilateral premotor, and bilateral posterior parietal cortices are important areas for gait speed modulation and could be an area of interest for neurostimulation.PMID:37868191 | PMC:PMC10589070 | DOI:10.1155/2023/2403175 (Source: Neural Plasticity)
Source: Neural Plasticity - October 23, 2023 Category: Neurology Authors: Shannon B Lim Sue Peters Chieh-Ling Yang Lara A Boyd Teresa Liu-Ambrose Janice J Eng Source Type: research

Premotor and Posterior Parietal Cortex Activity is Increased for Slow, as well as Fast Walking Poststroke: An fNIRS Study
CONCLUSIONS: Brain activation is not linearly related to gait speed. Ipsilesional prefrontal cortex, bilateral premotor, and bilateral posterior parietal cortices are important areas for gait speed modulation and could be an area of interest for neurostimulation.PMID:37868191 | PMC:PMC10589070 | DOI:10.1155/2023/2403175 (Source: Neural Plasticity)
Source: Neural Plasticity - October 23, 2023 Category: Neurology Authors: Shannon B Lim Sue Peters Chieh-Ling Yang Lara A Boyd Teresa Liu-Ambrose Janice J Eng Source Type: research

Premotor and Posterior Parietal Cortex Activity is Increased for Slow, as well as Fast Walking Poststroke: An fNIRS Study
CONCLUSIONS: Brain activation is not linearly related to gait speed. Ipsilesional prefrontal cortex, bilateral premotor, and bilateral posterior parietal cortices are important areas for gait speed modulation and could be an area of interest for neurostimulation.PMID:37868191 | PMC:PMC10589070 | DOI:10.1155/2023/2403175 (Source: Neural Plasticity)
Source: Neural Plasticity - October 23, 2023 Category: Neurology Authors: Shannon B Lim Sue Peters Chieh-Ling Yang Lara A Boyd Teresa Liu-Ambrose Janice J Eng Source Type: research

Premotor and Posterior Parietal Cortex Activity is Increased for Slow, as well as Fast Walking Poststroke: An fNIRS Study
CONCLUSIONS: Brain activation is not linearly related to gait speed. Ipsilesional prefrontal cortex, bilateral premotor, and bilateral posterior parietal cortices are important areas for gait speed modulation and could be an area of interest for neurostimulation.PMID:37868191 | PMC:PMC10589070 | DOI:10.1155/2023/2403175 (Source: Neural Plasticity)
Source: Neural Plasticity - October 23, 2023 Category: Neurology Authors: Shannon B Lim Sue Peters Chieh-Ling Yang Lara A Boyd Teresa Liu-Ambrose Janice J Eng Source Type: research

Premotor and Posterior Parietal Cortex Activity is Increased for Slow, as well as Fast Walking Poststroke: An fNIRS Study
CONCLUSIONS: Brain activation is not linearly related to gait speed. Ipsilesional prefrontal cortex, bilateral premotor, and bilateral posterior parietal cortices are important areas for gait speed modulation and could be an area of interest for neurostimulation.PMID:37868191 | PMC:PMC10589070 | DOI:10.1155/2023/2403175 (Source: Neural Plasticity)
Source: Neural Plasticity - October 23, 2023 Category: Neurology Authors: Shannon B Lim Sue Peters Chieh-Ling Yang Lara A Boyd Teresa Liu-Ambrose Janice J Eng Source Type: research

Premotor and Posterior Parietal Cortex Activity is Increased for Slow, as well as Fast Walking Poststroke: An fNIRS Study
CONCLUSIONS: Brain activation is not linearly related to gait speed. Ipsilesional prefrontal cortex, bilateral premotor, and bilateral posterior parietal cortices are important areas for gait speed modulation and could be an area of interest for neurostimulation.PMID:37868191 | PMC:PMC10589070 | DOI:10.1155/2023/2403175 (Source: Neural Plasticity)
Source: Neural Plasticity - October 23, 2023 Category: Neurology Authors: Shannon B Lim Sue Peters Chieh-Ling Yang Lara A Boyd Teresa Liu-Ambrose Janice J Eng Source Type: research

Premotor and Posterior Parietal Cortex Activity is Increased for Slow, as well as Fast Walking Poststroke: An fNIRS Study
CONCLUSIONS: Brain activation is not linearly related to gait speed. Ipsilesional prefrontal cortex, bilateral premotor, and bilateral posterior parietal cortices are important areas for gait speed modulation and could be an area of interest for neurostimulation.PMID:37868191 | PMC:PMC10589070 | DOI:10.1155/2023/2403175 (Source: Neural Plasticity)
Source: Neural Plasticity - October 23, 2023 Category: Neurology Authors: Shannon B Lim Sue Peters Chieh-Ling Yang Lara A Boyd Teresa Liu-Ambrose Janice J Eng Source Type: research