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Articles published in Journal of Novel Physiotherapies have been cited by esteemed scholars and scientists all around the world. Journal of Novel Physiotherapies has got h-index 21, which means every article in Journal of Novel Physiotherapies has got 21 average citations.
Following are the list of articles that have cited the articles published in Journal of Novel Physiotherapies.
| 2024 | 2023 | 2022 | 2021 | 2020 | 2019 | 2018 | 2017 | 2016 | |
|---|---|---|---|---|---|---|---|---|---|
Total published articles |
90 | 96 | 59 | 60 | 27 | 28 | 33 | 56 | 50 |
Research, Review articles and Editorials |
43 | 80 | 27 | 11 | 11 | 16 | 0 | 0 | 0 |
Research communications, Review communications, Editorial communications, Case reports and Commentary |
2 | 8 | 6 | 8 | 5 | 2 | 0 | 0 | 0 |
Conference proceedings |
0 | 2 | 0 | 0 | 0 | 0 | 106 | 139 | 165 |
Citations received as per Google Scholar, other indexing platforms and portals |
237 | 336 | 325 | 312 | 315 | 322 | 316 | 231 | 220 |
| Journal total citations count | 3145 |
| Journal impact factor | 4.86 |
| Journal 5 years impact factor | 7.24 |
| Journal cite score | 6.76 |
| Journal h-index | 21 |
| Journal h-index since 2019 | 16 |
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Tsubasa S, Imai R, Morioka M (2016) Efforts of Neuro Rehabilitation for Chronic Pain.In Japan Physical Therapy Academic Conference Vol. 43 Suppl. No. 1 (The 50th Annual Meeting of the Japan Physical Therapy Association National Academic Training Conference) Collection) 2016 Apr 20 (pp. 37-41). Public benefit organization The Japan Physical Therapy Association. |
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æââ°Ã¨â¤ç§â¬Ã¤Â¹â¹, çâ°ä¸ÂçâºÂ´Ã¦Â¨Â¹ (2013) ãâ¨ãÆâãÆâ¡Ã£Æ³ãâ¹ã«基ãÂ¥ãÂÂæ©è¡ÅçÂâ å¦çâ¢âæ³⢠(ãâ·ãƳãÆÂãâ¸ãâ¦ãÆ , å°âéââ¬Ã©Â Ë域ç â究éƨ会神çµÅçÂâ å¦çâ¢âæ³â¢Ã§â°Â¹Ã¥Ë¥ãâȋÆÆãâ·ãƧãƳ, 第 48 Ã¥âºÅ¾Ã¦â¥æōÂâ å¦çâ¢âæ³â¢Ã¥Â¦è¡â大会 (Ã¥ÂÂå¤å±â¹)). çÂâ å¦çâ¢âæ³â¢Ã¥Â¦ 40: 649-654. |
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ALa N, JCNa A, DSb N, TILa A, ETa K (2015) Research & Reviews: Journal of Medical and Health Sciences. |
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Yano H, Tanaka N, Kamibayashi K, Saitou H, Iwata H (2015) Development of a Portable Gait Rehabilitation System for Home-Visit Rehabilitation. The Scientific World Journal. |
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Hesse S, Schattat N, Mehrholz J, Werner C (2013) Evidence of end-effector based gait machines in gait rehabilitation after CNS lesion. NeuroRehabilitation 33: 77-84. |
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森岡å⨠(2013) çâ¼çââºÃ§Ââ å¦çâ¢âæ³â¢Ã£Â®ç â究ãÆËãÆâãÆÆãâ¯ãâ¹ (大会éâ¢Â·Ã¤Â¼Âçâȋâ·ãƳãÆÂãâ¸ãâ¦ãÆ , 第 48 Ã¥âºÅ¾Ã¦â¥æōÂâ å¦çâ¢âæ³â¢Ã¥Â¦è¡â大会 (Ã¥ÂÂå¤å±â¹)). çÂâ å¦çâ¢âæ³â¢Ã¥Â¦ 40: 513-518. |
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Morioka S, Nobusako S, Hirakawa Y, Osumi M, Imai R (2013) Neurorehabilitation of chronic pain: Relationships among pain, motion, and perception. Int J Phys Med Rehabil 1: 2. |
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Arazpour M, Samadian M, Ebrahimzadeh K, Bani MA, Hutchins SW (2016) The influence of orthosis options on walking parameters in spinal cord-injured patients: a literature review. Spinal cord 54: 412-422. |
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Arazpour M, Bani MA, Hutchins SW, Curran S, Javanshir MA, et al. (2014) Influence of orthotic gait training with powered hip orthosis on walking in paraplegic patients. Disability and Rehabilitation: Assistive Technology 9: 226-230. |
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Arazpour M, Hutchins SW, Bani MA (2014) The efficacy of powered orthoses on walking in persons with paraplegia. Prosthetics and orthotics international 18: 0309364613520031. |
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Huo W, Mohammed S, Moreno JC, Amirat Y (2016) Lower limb wearable robots for assistance and rehabilitation: A state of the art. IEEE Systems Journal 10: 1068-1081. |
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Yoshibumi B, Toshiaki S, Hiroyasu I (2016) çâ¢Â°Ã£Âªãââ¹Ã§Ââ¹Ã¥ÂŽç¸®å¼·åº¦ãââçâ¨ãÂâãŸæ¯ÂæÅâ¡Ã¥Â¯Â¾Ã§Â«â¹Ã©Ââ¹Ã¥â¹â¢Ã£â¤ãÆ¡ãƼãâ¸ãÂÅèâŠé«âéÂâ¹Ã¥â¹â¢Ã§Â¥Å¾Ã§ÂµÅã®èËË奮æâ¬Â§Ã£Â¨èâ¡ÂªÃ¥Â¾â¹Ã§Â¥Å¾Ã§ÂµÅæ´»åâ¹â¢Ã£Â«åŠã¼ãÂâ¢Ã¥Â½Â±Ã©Å¸Â¿. Rigakuryoho Kagaku 31. |
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æââ¡Ã©â¡Å½Ã¤Â½Âæââ¡, éË´æŨ俊æËŽ, 岩æÅËå®Âæ³° (2016) éÂâ¹Ã¥â¹â¢Ã£â¤ãÆ¡ãƼãâ¸ãÂÅèâŠé«âéÂâ¹Ã¥â¹â¢Ã§Â¥Å¾Ã§ÂµÅã®èËË奮æâ¬Â§Ã£ÂŠãâËã³èâ¡ÂªÃ¥Â¾â¹Ã§Â¥Å¾Ã§ÂµÅæ´»åâ¹â¢Ã£Â«åŠã¼ãÂâ¢Ã¥Â½Â±Ã©Å¸Â¿. éâ¢è¥¿çÂâ å¦çâ¢âæ³⢠16: 31-36. |
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Zhang Z, Yang Q, Leng Y, Yang Y, Ge S (2015) Classification of intention understanding using EEG-NIRS bimodal system. InWavelet Active Media Technology and Information Processing (ICCWAMTIP), 2015 12th International Computer Conference, IEEE. |
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Sun HC (2015) The neural basis of visual material properties in the human brain (Doctoral dissertation, University of Birmingham). |
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æââ¡Ã©â¡Å½Ã¤Â½Âæââ¡, éË´æŨ俊æËŽ, 岩æÅËå®Âæ³° (2016) çâ¢Â°Ã£Âªãââ¹Ã§Ââ¹Ã¥ÂŽç¸®å¼·åº¦ãââçâ¨ãÂâãŸæ¯ÂæÅâ¡Ã¥Â¯Â¾Ã§Â«â¹Ã©Ââ¹Ã¥â¹â¢Ã£â¤ãÆ¡ãƼãâ¸ãÂÅèâŠé«âéÂâ¹Ã¥â¹â¢Ã§Â¥Å¾Ã§ÂµÅã®èËË奮æâ¬Â§Ã£Â¨èâ¡ÂªÃ¥Â¾â¹Ã§Â¥Å¾Ã§ÂµÅæ´»åâ¹â¢Ã£Â«åŠã¼ãÂâ¢Ã¥Â½Â±Ã©Å¸Â¿. çÂâ å¦çâ¢âæ³â¢Ã§Â§âå¦ 31: 117-125. |
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Sun HC, Welchman AE, Chang DH, Di Luca M (2016) Look but don't touch: Visual cues to surface structure drive somatosensory cortex. Neuroimage 128: 353-361. |
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MA CC (2015) Effect of a Discomfort-ââ¬ÂInducing Textured Insole on Balance and Gait (Doctoral dissertation, University of Illinois at Chicago). |
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Ma CC, Lee YJ, Chen B, Aruin AS (2016) Immediate and short-term effects of wearing a single textured insole on symmetry of stance and gait in healthy adults. Gait & Posture 49: 190-195. |
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Beffara B, Bret AG, Vermeulen N, Mermillod M (2016) Resting high frequency heart rate variability selectively predicts cooperative behavior. Physiology & behavior 164: 417-428. |
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