Cybernic treatment with wearable cyborg Hybrid Assistive Limb (HAL) improves ambulatory function in patients with slowly progressive rare neuromuscular diseases: a multicentre, randomised, controlled crossover trial for efficacy and safety (NCY-3001)

Cybernic treatment with wearable cyborg Hybrid Assistive Limb (HAL) improves ambulatory function in patients with slowly progressive rare neuromuscular diseases: a multicentre, randomised, controlled crossover trial for efficacy and safety (NCY-3001)

Abstract Background Rare neuromuscular diseases such as spinal muscular atrophy, spinal bulbar muscular atrophy, muscular dystrophy, Charcot-Marie-Tooth disease, distal myopathy, sporadic inclusion body myositis, congenital myopathy, and amyotrophic lateral sclerosis lead to incurable amyotrophy and...

Full description

Bibliographic Details
Main Authors: Takashi Nakajima, Yoshiyuki Sankai, Shinjiro Takata, Yoko Kobayashi, Yoshihito Ando, Masanori Nakagawa, Toshio Saito, Kayoko Saito, Chiho Ishida, Akira Tamaoka, Takako Saotome, Tetsuo Ikai, Hisako Endo, Kazuhiro Ishii, Mitsuya Morita, Takashi Maeno, Kiyonobu Komai, Tetsuhiko Ikeda, Yuka Ishikawa, Shinichiro Maeshima, Masashi Aoki, Michiya Ito, Tatsuya Mima, Toshihiko Miura, Jun Matsuda, Yumiko Kawaguchi, Tomohiro Hayashi, Masahiro Shingu, Hiroaki Kawamoto
Format: Article
Language:English
Published: BMC 2021-07-01
Series:Orphanet Journal of Rare Diseases
Subjects:
Neuromuscular disease
Hybrid Assistive Limb (HAL)
Cybernics
Gait exercise
Online Access:https://doi.org/10.1186/s13023-021-01928-9
id doaj-ed7f4c135ae64e09a59542a10d0c155d
record_format Article
collection DOAJ
language English
format Article
sources DOAJ
author Takashi Nakajima
Yoshiyuki Sankai
Shinjiro Takata
Yoko Kobayashi
Yoshihito Ando
Masanori Nakagawa
Toshio Saito
Kayoko Saito
Chiho Ishida
Akira Tamaoka
Takako Saotome
Tetsuo Ikai
Hisako Endo
Kazuhiro Ishii
Mitsuya Morita
Takashi Maeno
Kiyonobu Komai
Tetsuhiko Ikeda
Yuka Ishikawa
Shinichiro Maeshima
Masashi Aoki
Michiya Ito
Tatsuya Mima
Toshihiko Miura
Jun Matsuda
Yumiko Kawaguchi
Tomohiro Hayashi
Masahiro Shingu
Hiroaki Kawamoto
spellingShingle Takashi Nakajima
Yoshiyuki Sankai
Shinjiro Takata
Yoko Kobayashi
Yoshihito Ando
Masanori Nakagawa
Toshio Saito
Kayoko Saito
Chiho Ishida
Akira Tamaoka
Takako Saotome
Tetsuo Ikai
Hisako Endo
Kazuhiro Ishii
Mitsuya Morita
Takashi Maeno
Kiyonobu Komai
Tetsuhiko Ikeda
Yuka Ishikawa
Shinichiro Maeshima
Masashi Aoki
Michiya Ito
Tatsuya Mima
Toshihiko Miura
Jun Matsuda
Yumiko Kawaguchi
Tomohiro Hayashi
Masahiro Shingu
Hiroaki Kawamoto
Cybernic treatment with wearable cyborg Hybrid Assistive Limb (HAL) improves ambulatory function in patients with slowly progressive rare neuromuscular diseases: a multicentre, randomised, controlled crossover trial for efficacy and safety (NCY-3001)
Orphanet Journal of Rare Diseases
Neuromuscular disease
Hybrid Assistive Limb (HAL)
Cybernics
Gait exercise
author_facet Takashi Nakajima
Yoshiyuki Sankai
Shinjiro Takata
Yoko Kobayashi
Yoshihito Ando
Masanori Nakagawa
Toshio Saito
Kayoko Saito
Chiho Ishida
Akira Tamaoka
Takako Saotome
Tetsuo Ikai
Hisako Endo
Kazuhiro Ishii
Mitsuya Morita
Takashi Maeno
Kiyonobu Komai
Tetsuhiko Ikeda
Yuka Ishikawa
Shinichiro Maeshima
Masashi Aoki
Michiya Ito
Tatsuya Mima
Toshihiko Miura
Jun Matsuda
Yumiko Kawaguchi
Tomohiro Hayashi
Masahiro Shingu
Hiroaki Kawamoto
author_sort Takashi Nakajima
title Cybernic treatment with wearable cyborg Hybrid Assistive Limb (HAL) improves ambulatory function in patients with slowly progressive rare neuromuscular diseases: a multicentre, randomised, controlled crossover trial for efficacy and safety (NCY-3001)
title_short Cybernic treatment with wearable cyborg Hybrid Assistive Limb (HAL) improves ambulatory function in patients with slowly progressive rare neuromuscular diseases: a multicentre, randomised, controlled crossover trial for efficacy and safety (NCY-3001)
title_full Cybernic treatment with wearable cyborg Hybrid Assistive Limb (HAL) improves ambulatory function in patients with slowly progressive rare neuromuscular diseases: a multicentre, randomised, controlled crossover trial for efficacy and safety (NCY-3001)
title_fullStr Cybernic treatment with wearable cyborg Hybrid Assistive Limb (HAL) improves ambulatory function in patients with slowly progressive rare neuromuscular diseases: a multicentre, randomised, controlled crossover trial for efficacy and safety (NCY-3001)
title_full_unstemmed Cybernic treatment with wearable cyborg Hybrid Assistive Limb (HAL) improves ambulatory function in patients with slowly progressive rare neuromuscular diseases: a multicentre, randomised, controlled crossover trial for efficacy and safety (NCY-3001)
title_sort cybernic treatment with wearable cyborg hybrid assistive limb (hal) improves ambulatory function in patients with slowly progressive rare neuromuscular diseases: a multicentre, randomised, controlled crossover trial for efficacy and safety (ncy-3001)
publisher BMC
series Orphanet Journal of Rare Diseases
issn 1750-1172
publishDate 2021-07-01
description Abstract Background Rare neuromuscular diseases such as spinal muscular atrophy, spinal bulbar muscular atrophy, muscular dystrophy, Charcot-Marie-Tooth disease, distal myopathy, sporadic inclusion body myositis, congenital myopathy, and amyotrophic lateral sclerosis lead to incurable amyotrophy and consequent loss of ambulation. Thus far, no therapeutic approaches have been successful in recovering the ambulatory ability. Thus, the aim of this trial was to evaluate the efficacy and safety of cybernic treatment with a wearable cyborg Hybrid Assistive Limb (HAL, Lower Limb Type) in improving the ambulatory function in those patients. Results We conducted an open-label, randomised, controlled crossover trial to test HAL at nine hospitals between March 6, 2013 and August 8, 2014. Eligible patients were older than 18 years and had a diagnosis of neuromuscular disease as specified above. They were unable to walk for 10 m independently and had neither respiratory failure nor rapid deterioration in gait. The primary endpoint was the distance passed during a two-minute walk test (2MWT). The secondary endpoints were walking speed, cadence, and step length during the 10-m walk test (10MWT), muscle strength by manual muscle testing (MMT), and a series of functional measures. Adverse events and failures/problems/errors with HAL were also evaluated. Thirty patients were randomly assigned to groups A or B, with each group of 15 receiving both treatments in a crossover design. The efficacy of a 40-min walking program performed nine times was compared between HAL plus a hoist and a hoist only. The final analysis included 13 and 11 patients in groups A and B, respectively. Cybernic treatment with HAL resulted in a 10.066% significantly improved distance in 2MWT (95% confidence interval, 0.667–19.464; p = 0.0369) compared with the hoist only treatment. Among the secondary endpoints, the total scores of MMT and cadence at 10MWT were the only ones that showed significant improvement. The only adverse effects were slight to mild myalgia, back pain, and contact skin troubles, which were easily remedied. Conclusions HAL is a new treatment device for walking exercise, proven to be more effective than the conventional method in patients with incurable neuromuscular diseases. Trial registration: JMACTR, JMA-IIA00156
topic Neuromuscular disease
Hybrid Assistive Limb (HAL)
Cybernics
Gait exercise
url https://doi.org/10.1186/s13023-021-01928-9
work_keys_str_mv AT takashinakajima cybernictreatmentwithwearablecyborghybridassistivelimbhalimprovesambulatoryfunctioninpatientswithslowlyprogressiverareneuromusculardiseasesamulticentrerandomisedcontrolledcrossovertrialforefficacyandsafetyncy3001
AT yoshiyukisankai cybernictreatmentwithwearablecyborghybridassistivelimbhalimprovesambulatoryfunctioninpatientswithslowlyprogressiverareneuromusculardiseasesamulticentrerandomisedcontrolledcrossovertrialforefficacyandsafetyncy3001
AT shinjirotakata cybernictreatmentwithwearablecyborghybridassistivelimbhalimprovesambulatoryfunctioninpatientswithslowlyprogressiverareneuromusculardiseasesamulticentrerandomisedcontrolledcrossovertrialforefficacyandsafetyncy3001
AT yokokobayashi cybernictreatmentwithwearablecyborghybridassistivelimbhalimprovesambulatoryfunctioninpatientswithslowlyprogressiverareneuromusculardiseasesamulticentrerandomisedcontrolledcrossovertrialforefficacyandsafetyncy3001
AT yoshihitoando cybernictreatmentwithwearablecyborghybridassistivelimbhalimprovesambulatoryfunctioninpatientswithslowlyprogressiverareneuromusculardiseasesamulticentrerandomisedcontrolledcrossovertrialforefficacyandsafetyncy3001
AT masanorinakagawa cybernictreatmentwithwearablecyborghybridassistivelimbhalimprovesambulatoryfunctioninpatientswithslowlyprogressiverareneuromusculardiseasesamulticentrerandomisedcontrolledcrossovertrialforefficacyandsafetyncy3001
AT toshiosaito cybernictreatmentwithwearablecyborghybridassistivelimbhalimprovesambulatoryfunctioninpatientswithslowlyprogressiverareneuromusculardiseasesamulticentrerandomisedcontrolledcrossovertrialforefficacyandsafetyncy3001
AT kayokosaito cybernictreatmentwithwearablecyborghybridassistivelimbhalimprovesambulatoryfunctioninpatientswithslowlyprogressiverareneuromusculardiseasesamulticentrerandomisedcontrolledcrossovertrialforefficacyandsafetyncy3001
AT chihoishida cybernictreatmentwithwearablecyborghybridassistivelimbhalimprovesambulatoryfunctioninpatientswithslowlyprogressiverareneuromusculardiseasesamulticentrerandomisedcontrolledcrossovertrialforefficacyandsafetyncy3001
AT akiratamaoka cybernictreatmentwithwearablecyborghybridassistivelimbhalimprovesambulatoryfunctioninpatientswithslowlyprogressiverareneuromusculardiseasesamulticentrerandomisedcontrolledcrossovertrialforefficacyandsafetyncy3001
AT takakosaotome cybernictreatmentwithwearablecyborghybridassistivelimbhalimprovesambulatoryfunctioninpatientswithslowlyprogressiverareneuromusculardiseasesamulticentrerandomisedcontrolledcrossovertrialforefficacyandsafetyncy3001
AT tetsuoikai cybernictreatmentwithwearablecyborghybridassistivelimbhalimprovesambulatoryfunctioninpatientswithslowlyprogressiverareneuromusculardiseasesamulticentrerandomisedcontrolledcrossovertrialforefficacyandsafetyncy3001
AT hisakoendo cybernictreatmentwithwearablecyborghybridassistivelimbhalimprovesambulatoryfunctioninpatientswithslowlyprogressiverareneuromusculardiseasesamulticentrerandomisedcontrolledcrossovertrialforefficacyandsafetyncy3001
AT kazuhiroishii cybernictreatmentwithwearablecyborghybridassistivelimbhalimprovesambulatoryfunctioninpatientswithslowlyprogressiverareneuromusculardiseasesamulticentrerandomisedcontrolledcrossovertrialforefficacyandsafetyncy3001
AT mitsuyamorita cybernictreatmentwithwearablecyborghybridassistivelimbhalimprovesambulatoryfunctioninpatientswithslowlyprogressiverareneuromusculardiseasesamulticentrerandomisedcontrolledcrossovertrialforefficacyandsafetyncy3001
AT takashimaeno cybernictreatmentwithwearablecyborghybridassistivelimbhalimprovesambulatoryfunctioninpatientswithslowlyprogressiverareneuromusculardiseasesamulticentrerandomisedcontrolledcrossovertrialforefficacyandsafetyncy3001
AT kiyonobukomai cybernictreatmentwithwearablecyborghybridassistivelimbhalimprovesambulatoryfunctioninpatientswithslowlyprogressiverareneuromusculardiseasesamulticentrerandomisedcontrolledcrossovertrialforefficacyandsafetyncy3001
AT tetsuhikoikeda cybernictreatmentwithwearablecyborghybridassistivelimbhalimprovesambulatoryfunctioninpatientswithslowlyprogressiverareneuromusculardiseasesamulticentrerandomisedcontrolledcrossovertrialforefficacyandsafetyncy3001
AT yukaishikawa cybernictreatmentwithwearablecyborghybridassistivelimbhalimprovesambulatoryfunctioninpatientswithslowlyprogressiverareneuromusculardiseasesamulticentrerandomisedcontrolledcrossovertrialforefficacyandsafetyncy3001
AT shinichiromaeshima cybernictreatmentwithwearablecyborghybridassistivelimbhalimprovesambulatoryfunctioninpatientswithslowlyprogressiverareneuromusculardiseasesamulticentrerandomisedcontrolledcrossovertrialforefficacyandsafetyncy3001
AT masashiaoki cybernictreatmentwithwearablecyborghybridassistivelimbhalimprovesambulatoryfunctioninpatientswithslowlyprogressiverareneuromusculardiseasesamulticentrerandomisedcontrolledcrossovertrialforefficacyandsafetyncy3001
AT michiyaito cybernictreatmentwithwearablecyborghybridassistivelimbhalimprovesambulatoryfunctioninpatientswithslowlyprogressiverareneuromusculardiseasesamulticentrerandomisedcontrolledcrossovertrialforefficacyandsafetyncy3001
AT tatsuyamima cybernictreatmentwithwearablecyborghybridassistivelimbhalimprovesambulatoryfunctioninpatientswithslowlyprogressiverareneuromusculardiseasesamulticentrerandomisedcontrolledcrossovertrialforefficacyandsafetyncy3001
AT toshihikomiura cybernictreatmentwithwearablecyborghybridassistivelimbhalimprovesambulatoryfunctioninpatientswithslowlyprogressiverareneuromusculardiseasesamulticentrerandomisedcontrolledcrossovertrialforefficacyandsafetyncy3001
AT junmatsuda cybernictreatmentwithwearablecyborghybridassistivelimbhalimprovesambulatoryfunctioninpatientswithslowlyprogressiverareneuromusculardiseasesamulticentrerandomisedcontrolledcrossovertrialforefficacyandsafetyncy3001
AT yumikokawaguchi cybernictreatmentwithwearablecyborghybridassistivelimbhalimprovesambulatoryfunctioninpatientswithslowlyprogressiverareneuromusculardiseasesamulticentrerandomisedcontrolledcrossovertrialforefficacyandsafetyncy3001
AT tomohirohayashi cybernictreatmentwithwearablecyborghybridassistivelimbhalimprovesambulatoryfunctioninpatientswithslowlyprogressiverareneuromusculardiseasesamulticentrerandomisedcontrolledcrossovertrialforefficacyandsafetyncy3001
AT masahiroshingu cybernictreatmentwithwearablecyborghybridassistivelimbhalimprovesambulatoryfunctioninpatientswithslowlyprogressiverareneuromusculardiseasesamulticentrerandomisedcontrolledcrossovertrialforefficacyandsafetyncy3001
AT hiroakikawamoto cybernictreatmentwithwearablecyborghybridassistivelimbhalimprovesambulatoryfunctioninpatientswithslowlyprogressiverareneuromusculardiseasesamulticentrerandomisedcontrolledcrossovertrialforefficacyandsafetyncy3001
_version_ 1721308957908140032
spelling doaj-ed7f4c135ae64e09a59542a10d0c155d2021-07-11T11:31:22ZengBMCOrphanet Journal of Rare Diseases1750-11722021-07-0116111810.1186/s13023-021-01928-9Cybernic treatment with wearable cyborg Hybrid Assistive Limb (HAL) improves ambulatory function in patients with slowly progressive rare neuromuscular diseases: a multicentre, randomised, controlled crossover trial for efficacy and safety (NCY-3001)Takashi Nakajima0Yoshiyuki Sankai1Shinjiro Takata2Yoko Kobayashi3Yoshihito Ando4Masanori Nakagawa5Toshio Saito6Kayoko Saito7Chiho Ishida8Akira Tamaoka9Takako Saotome10Tetsuo Ikai11Hisako Endo12Kazuhiro Ishii13Mitsuya Morita14Takashi Maeno15Kiyonobu Komai16Tetsuhiko Ikeda17Yuka Ishikawa18Shinichiro Maeshima19Masashi Aoki20Michiya Ito21Tatsuya Mima22Toshihiko Miura23Jun Matsuda24Yumiko Kawaguchi25Tomohiro Hayashi26Masahiro Shingu27Hiroaki Kawamoto28Departments of Neurology and Rehabilitation Medicine, National Hospital Organization Niigata National HospitalCenter for Cybernics Research, University of TsukubaDepartment of Orthopedics and Rehabilitation, National Hospital Organization Tokushima National HospitalDepartment of Physical Rehabilitation, National Center Hospital, National Center of Neurology and PsychiatryDivision of Neurology, Department of Internal Medicine, Jichi Medical UniversityDepartment of Neurology, Kyoto Prefectural University of MedicineDivision of Child Neurology, Department of Neurology, National Hospital Organization Osaka Toneyama Medical CenterInstitute of Medical Genetics, Tokyo Women’s Medical UniversityDepartment of Neurology, National Hospital Organization Iou National HospitalDepartment of Neurology, Faculty of Medicine, University of TsukubaDepartment of Physical Rehabilitation, National Center Hospital, National Center of Neurology and PsychiatryDepartment of Rehabilitation, Tokyo Women’s Medical UniversityDepartments of Neurology and Rehabilitation Medicine, National Hospital Organization Niigata National HospitalDepartment of Neurology, Faculty of Medicine, University of TsukubaDivision of Neurology, Department of Internal Medicine, Jichi Medical UniversityDepartment of Physical Rehabilitation, National Center Hospital, National Center of Neurology and PsychiatryDepartment of Neurology, National Hospital Organization Iou National HospitalDepartments of Neurology and Rehabilitation Medicine, National Hospital Organization Niigata National HospitalDepartment of Pediatric Neurology, National Hospital Organization Hokkaido Medical CenterDepartment of Rehabilitation Medicine II, School of Medicine, Fujita Health UniversityDepartment of Neurology, Tohoku University Graduate School of MedicineHealth Administration and Policy, Tohoku University Graduate School of MedicineHuman Brain Research Center, Kyoto University Graduate School of MedicineDepartment of Rehabilitation, National Hospital Organization Hokkaido Medical CenterGraduate School of Humanities and Social Sciences, Shizuoka UniversityALS/MND Support Center SakuraCYBERDYNE Inc.CYBERDYNE Inc.CYBERDYNE Inc.Abstract Background Rare neuromuscular diseases such as spinal muscular atrophy, spinal bulbar muscular atrophy, muscular dystrophy, Charcot-Marie-Tooth disease, distal myopathy, sporadic inclusion body myositis, congenital myopathy, and amyotrophic lateral sclerosis lead to incurable amyotrophy and consequent loss of ambulation. Thus far, no therapeutic approaches have been successful in recovering the ambulatory ability. Thus, the aim of this trial was to evaluate the efficacy and safety of cybernic treatment with a wearable cyborg Hybrid Assistive Limb (HAL, Lower Limb Type) in improving the ambulatory function in those patients. Results We conducted an open-label, randomised, controlled crossover trial to test HAL at nine hospitals between March 6, 2013 and August 8, 2014. Eligible patients were older than 18 years and had a diagnosis of neuromuscular disease as specified above. They were unable to walk for 10 m independently and had neither respiratory failure nor rapid deterioration in gait. The primary endpoint was the distance passed during a two-minute walk test (2MWT). The secondary endpoints were walking speed, cadence, and step length during the 10-m walk test (10MWT), muscle strength by manual muscle testing (MMT), and a series of functional measures. Adverse events and failures/problems/errors with HAL were also evaluated. Thirty patients were randomly assigned to groups A or B, with each group of 15 receiving both treatments in a crossover design. The efficacy of a 40-min walking program performed nine times was compared between HAL plus a hoist and a hoist only. The final analysis included 13 and 11 patients in groups A and B, respectively. Cybernic treatment with HAL resulted in a 10.066% significantly improved distance in 2MWT (95% confidence interval, 0.667–19.464; p = 0.0369) compared with the hoist only treatment. Among the secondary endpoints, the total scores of MMT and cadence at 10MWT were the only ones that showed significant improvement. The only adverse effects were slight to mild myalgia, back pain, and contact skin troubles, which were easily remedied. Conclusions HAL is a new treatment device for walking exercise, proven to be more effective than the conventional method in patients with incurable neuromuscular diseases. Trial registration: JMACTR, JMA-IIA00156https://doi.org/10.1186/s13023-021-01928-9Neuromuscular diseaseHybrid Assistive Limb (HAL)CybernicsGait exercise

Similar Items