Principles and global experience of applying robotic rehabilitation technologies in patients after stroke
This literature review is devoted to the study of recent advances in the field of neurorehabilitation using robotic technologies. Objective: to study best practices of applying robotic rehabilitation technologies in stroke patients, its clinical efficacy and influence on the molecular mechanisms of...
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| Format: | Article |
| Language: | English |
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Siberian State Medical University (Tomsk)
2019-08-01
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| Series: | Бюллетень сибирской медицины |
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| Online Access: | https://bulletin.ssmu.ru/jour/article/view/2321 |
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| author | E. S. Koroleva V. M. Alifirova A. V. Latypova S. V. Cheban V. A. Ott K. S. Brazovskiy I. V. Tolmachev N. G. Brazovskaya A. A. Semkina N. G. Kataeva |
| author_facet | E. S. Koroleva V. M. Alifirova A. V. Latypova S. V. Cheban V. A. Ott K. S. Brazovskiy I. V. Tolmachev N. G. Brazovskaya A. A. Semkina N. G. Kataeva |
| author_sort | E. S. Koroleva |
| collection | DOAJ |
| description | This literature review is devoted to the study of recent advances in the field of neurorehabilitation using robotic technologies. Objective: to study best practices of applying robotic rehabilitation technologies in stroke patients, its clinical efficacy and influence on the molecular mechanisms of neuroplasticity. Keywords were searched in the Web of Science, Core Collection, Scopus and PubMed databases. Results. Robotic neurorehabilitation occupies a certain place in the comprehensive rehabilitation of patients with motor deficiency after stroke. An interdisciplinary patient-oriented approach and consistency at all stages of medical rehabilitation are especially important when using rehabilitation methods that implement advances in robotics and information technologies in patients after stroke. Rehabilitation with the use of high-tech computerized rehabilitation systems operating in the biofeedback mode is one of the promising areas and requires further neurophysiological and laboratory studies to create scientifically based methodological approaches. It will have great social significance and tangible economic effects from improving the quality of neurorehabilitation and reducing its duration. |
| format | Article |
| id | doaj-art-e624482279da44458b254cb0c70e836f |
| institution | Kabale University |
| issn | 1682-0363 1819-3684 |
| language | English |
| publishDate | 2019-08-01 |
| publisher | Siberian State Medical University (Tomsk) |
| record_format | Article |
| series | Бюллетень сибирской медицины |
| spelling | doaj-art-e624482279da44458b254cb0c70e836f2025-08-20T03:37:41ZengSiberian State Medical University (Tomsk)Бюллетень сибирской медицины1682-03631819-36842019-08-0118222323310.20538/1682-0363-2019-2-223-2331524Principles and global experience of applying robotic rehabilitation technologies in patients after strokeE. S. Koroleva0V. M. Alifirova1A. V. Latypova2S. V. Cheban3V. A. Ott4K. S. Brazovskiy5I. V. Tolmachev6N. G. Brazovskaya7A. A. Semkina8N. G. Kataeva9Siberian State Medical University (SSMU)Siberian State Medical University (SSMU)Siberian State Medical University (SSMU)Siberian State Medical University (SSMU)Siberian State Medical University (SSMU)Siberian State Medical University (SSMU)Siberian State Medical University (SSMU)Siberian State Medical University (SSMU)Siberian State Medical University (SSMU)Siberian State Medical University (SSMU)This literature review is devoted to the study of recent advances in the field of neurorehabilitation using robotic technologies. Objective: to study best practices of applying robotic rehabilitation technologies in stroke patients, its clinical efficacy and influence on the molecular mechanisms of neuroplasticity. Keywords were searched in the Web of Science, Core Collection, Scopus and PubMed databases. Results. Robotic neurorehabilitation occupies a certain place in the comprehensive rehabilitation of patients with motor deficiency after stroke. An interdisciplinary patient-oriented approach and consistency at all stages of medical rehabilitation are especially important when using rehabilitation methods that implement advances in robotics and information technologies in patients after stroke. Rehabilitation with the use of high-tech computerized rehabilitation systems operating in the biofeedback mode is one of the promising areas and requires further neurophysiological and laboratory studies to create scientifically based methodological approaches. It will have great social significance and tangible economic effects from improving the quality of neurorehabilitation and reducing its duration.https://bulletin.ssmu.ru/jour/article/view/2321strokeneurorehabilitationrobotic rehabilitation technologiesneuroplasticitybiological feedbackthe principle of motor learningexoskeletons |
| spellingShingle | E. S. Koroleva V. M. Alifirova A. V. Latypova S. V. Cheban V. A. Ott K. S. Brazovskiy I. V. Tolmachev N. G. Brazovskaya A. A. Semkina N. G. Kataeva Principles and global experience of applying robotic rehabilitation technologies in patients after stroke Бюллетень сибирской медицины stroke neurorehabilitation robotic rehabilitation technologies neuroplasticity biological feedback the principle of motor learning exoskeletons |
| title | Principles and global experience of applying robotic rehabilitation technologies in patients after stroke |
| title_full | Principles and global experience of applying robotic rehabilitation technologies in patients after stroke |
| title_fullStr | Principles and global experience of applying robotic rehabilitation technologies in patients after stroke |
| title_full_unstemmed | Principles and global experience of applying robotic rehabilitation technologies in patients after stroke |
| title_short | Principles and global experience of applying robotic rehabilitation technologies in patients after stroke |
| title_sort | principles and global experience of applying robotic rehabilitation technologies in patients after stroke |
| topic | stroke neurorehabilitation robotic rehabilitation technologies neuroplasticity biological feedback the principle of motor learning exoskeletons |
| url | https://bulletin.ssmu.ru/jour/article/view/2321 |
| work_keys_str_mv | AT eskoroleva principlesandglobalexperienceofapplyingroboticrehabilitationtechnologiesinpatientsafterstroke AT vmalifirova principlesandglobalexperienceofapplyingroboticrehabilitationtechnologiesinpatientsafterstroke AT avlatypova principlesandglobalexperienceofapplyingroboticrehabilitationtechnologiesinpatientsafterstroke AT svcheban principlesandglobalexperienceofapplyingroboticrehabilitationtechnologiesinpatientsafterstroke AT vaott principlesandglobalexperienceofapplyingroboticrehabilitationtechnologiesinpatientsafterstroke AT ksbrazovskiy principlesandglobalexperienceofapplyingroboticrehabilitationtechnologiesinpatientsafterstroke AT ivtolmachev principlesandglobalexperienceofapplyingroboticrehabilitationtechnologiesinpatientsafterstroke AT ngbrazovskaya principlesandglobalexperienceofapplyingroboticrehabilitationtechnologiesinpatientsafterstroke AT aasemkina principlesandglobalexperienceofapplyingroboticrehabilitationtechnologiesinpatientsafterstroke AT ngkataeva principlesandglobalexperienceofapplyingroboticrehabilitationtechnologiesinpatientsafterstroke |