Peripheral nerves adjacent to spinal cord injury could help restore sensory motor regeneration in complete paralysis patients
Peripheral nerves adjacent to spinal cord injury could help restore sensory motor neurons regeneration Background and objectives: In people with spinal cord injury we hypothesize that peripheral nerves in the thoracic segment and accessory nerve and supra scapula nerve branches on the back of the...
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| Format: | Article |
| Language: | English |
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London Academic Publishing
2024-12-01
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| Series: | Romanian Neurosurgery |
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| Online Access: | http://journals.lapub.co.uk/index.php/roneurosurgery/article/view/2772 |
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| _version_ | 1841560245135998976 |
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| author | Mohammad Mousazadeh |
| author_facet | Mohammad Mousazadeh |
| author_sort | Mohammad Mousazadeh |
| collection | DOAJ |
| description |
Peripheral nerves adjacent to spinal cord injury could help restore sensory motor neurons regeneration
Background and objectives: In people with spinal cord injury we hypothesize that peripheral nerves in the thoracic segment and accessory nerve and supra scapula nerve branches on the back of the patient can be sacrificed to use them to stimulate regeneration in spinal cord injury due to trauma.
Method: To test this hypothesis, we establish a loop shape framework with distal end-to-end anastomosis of peripheral nerves adjacent to cord injury or anastomosis of the distal end of the accessory nerve and supra scapula nerve on the back of the patient and guide growth stimulation balance from the loop shape framework to injured side. We developed this novel technique and tested it in four individuals with complete sensory-motor paralysis as part of the ongoing clinical trial.
Result: Within 6 months time loop shape frame work stimulation novel technique mediated ASIA score improvement from A score to C score in case 1,2 and after 8 months case three can move his hand and foot, Mr. 4 sensory recovered from umbilical level to beneath of knee and the patient move proximal muscle voluntary (3/5).
Conclusion: This novel technique in neurosurgery opens a majestic path to recovery of spinal cord injury and brain regeneration.
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| format | Article |
| id | doaj-art-c2205cf2a2984120bd047027bfe2916e |
| institution | Kabale University |
| issn | 1220-8841 2344-4959 |
| language | English |
| publishDate | 2024-12-01 |
| publisher | London Academic Publishing |
| record_format | Article |
| series | Romanian Neurosurgery |
| spelling | doaj-art-c2205cf2a2984120bd047027bfe2916e2025-01-04T15:59:34ZengLondon Academic PublishingRomanian Neurosurgery1220-88412344-49592024-12-01384Peripheral nerves adjacent to spinal cord injury could help restore sensory motor regeneration in complete paralysis patientsMohammad Mousazadeh Peripheral nerves adjacent to spinal cord injury could help restore sensory motor neurons regeneration Background and objectives: In people with spinal cord injury we hypothesize that peripheral nerves in the thoracic segment and accessory nerve and supra scapula nerve branches on the back of the patient can be sacrificed to use them to stimulate regeneration in spinal cord injury due to trauma. Method: To test this hypothesis, we establish a loop shape framework with distal end-to-end anastomosis of peripheral nerves adjacent to cord injury or anastomosis of the distal end of the accessory nerve and supra scapula nerve on the back of the patient and guide growth stimulation balance from the loop shape framework to injured side. We developed this novel technique and tested it in four individuals with complete sensory-motor paralysis as part of the ongoing clinical trial. Result: Within 6 months time loop shape frame work stimulation novel technique mediated ASIA score improvement from A score to C score in case 1,2 and after 8 months case three can move his hand and foot, Mr. 4 sensory recovered from umbilical level to beneath of knee and the patient move proximal muscle voluntary (3/5). Conclusion: This novel technique in neurosurgery opens a majestic path to recovery of spinal cord injury and brain regeneration. http://journals.lapub.co.uk/index.php/roneurosurgery/article/view/2772peripheral nervesspinal cord injurysensory motor regeneration |
| spellingShingle | Mohammad Mousazadeh Peripheral nerves adjacent to spinal cord injury could help restore sensory motor regeneration in complete paralysis patients Romanian Neurosurgery peripheral nerves spinal cord injury sensory motor regeneration |
| title | Peripheral nerves adjacent to spinal cord injury could help restore sensory motor regeneration in complete paralysis patients |
| title_full | Peripheral nerves adjacent to spinal cord injury could help restore sensory motor regeneration in complete paralysis patients |
| title_fullStr | Peripheral nerves adjacent to spinal cord injury could help restore sensory motor regeneration in complete paralysis patients |
| title_full_unstemmed | Peripheral nerves adjacent to spinal cord injury could help restore sensory motor regeneration in complete paralysis patients |
| title_short | Peripheral nerves adjacent to spinal cord injury could help restore sensory motor regeneration in complete paralysis patients |
| title_sort | peripheral nerves adjacent to spinal cord injury could help restore sensory motor regeneration in complete paralysis patients |
| topic | peripheral nerves spinal cord injury sensory motor regeneration |
| url | http://journals.lapub.co.uk/index.php/roneurosurgery/article/view/2772 |
| work_keys_str_mv | AT mohammadmousazadeh peripheralnervesadjacenttospinalcordinjurycouldhelprestoresensorymotorregenerationincompleteparalysispatients |