脑卒中后足下垂相关研究的文献计量分析

doi:10.3969/j.issn.1006-9771.2024.06.008

Abstract

Abstract:

Objective To explore the research status and trends in the field of post-stroke foot drop.

Methods The literature on post-stroke foot drop was retrieved from the Web of Science Core Collection database from inception to January, 2024. The data were analyzed using VOSviewer and CiteSpace.

Results A total of 490 articles were included. The annul articles were published more and more year by year since 1992, peaking in 2020. The main institutions were located in USA. The literature focused on the fields of medicine, healthcare and clinical studies. There were as many as 230 papers on rehabilitation. The most frequency keywords were rehabilitation, hemiplegic gait, electrical stimulation, foot drop, and stroke, and so on. Keyword co-occurrence analysis showed ten major clusters as motor rehabilitation, neurorehabilitation technology, gait analysis, functional recovery technology, and assessment of rehabilitation treatment effects, and so on.

Conclusion Researches on the rehabilitation of post-stroke foot drop are moving towards the integration of technology and therapeutic methods, emphasizing the assessment of motor function and evidence of treatment effects, and exploring personalized rehabilitation plans.

Key words: stroke, foot drop, knowledge map, bibliometrics

CLC Number:

R743.3

LI Yanli, LIU Lanqun, XU Jimin, WANG Haifang. Post-stroke foot drop research： a bibliometrics analysis[J]. Chinese Journal of Rehabilitation Theory and Practice, 2024, 30(6): 686-692.

Figures/Tables 5

References 49

[1]	SONG S, PARK J, SONG G, et al. Usability of the Thera-Band^® to improve foot drop in stroke survivors[J]. NeuroRehabilitation, 2018, 42(4): 505-510.
[2]	FEIGIN V L, BRAININ M, NORRVING B, et al. World Stroke Organization (WSO): Global Stroke Fact Sheet 2022[J]. Int J Stroke, 2022, 17(1): 18-29. doi: 10.1177/17474930211065917 pmid: 34986727
[3]	DUNNING K, O'DELL M W, KLUDING P, et al. Peroneal stimulation for foot drop after stroke: a systematic review[J]. Am J Phys Med Rehabil, 2015, 94(8): 649-664.
[4]	SHI D, LI Z, YANG J, et al. Symptom experience and symptom burden of patients following first-ever stroke within 1 year: a cross-sectional study[J]. Neural Regen Res, 2018, 13(11): 1907-1912. doi: 10.4103/1673-5374.239440 pmid: 30233063
[5]	DE WIT D C, BUURKE J H, NIJLANT J M, et al. The effect of an ankle-foot orthosis on walking ability in chronic stroke patients: a randomized controlled trial[J]. Clin Rehabil, 2004, 18(5): 550-557. pmid: 15293489
[6]	ALNAJJAR F, ZAIER R, KHALID S, et al. Trends and technologies in rehabilitation of foot drop: a systematic review[J]. Expert Rev Med Devices, 2021, 18(1): 31-46. doi: 10.1080/17434440.2021.1857729 pmid: 33249938
[7]	SUN M, JIANG C, ZHANG J, et al. Meta-analysis of functional electrical stimulation combined with occupational therapy on post-stroke limb functional recovery and quality of life[J]. [ahead of print]. Cerebrovasc Dis, 2023. DOI: 10.1159/000535470.
[8]	王海芳, 徐敏杰, 李颖, 等. 脑卒中领域功能性近红外光谱技术研究的可视化分析[J]. 中国康复理论与实践, 2023, 29(12): 1405-1419. doi: 10.3969/j.issn.1006-9771.2023.12.005
	WANG H F, XU M J, LI Y, et al. Application of functional near-infrared spectroscopy in stroke: a visualized analysis[J]. Chin J Rehabil Theory Pract, 2023, 29(12): 1405-1419.
[9]	徐敏杰, 王博, 周莉, 等. 基于Web of Science数据库脑卒中后语言与非语言认知功能研究的可视化分析[J]. 中国康复理论与实践, 2023, 29(4): 452-464. doi: 10.3969/j.issn.1006-9771.2023.04.011
	XU M J, WANG B, ZHOU L, et al. Visual analysis of post-stroke verbal and non-verbal cognitive function studies based on Web of Science database[J]. Chin J Rehabil Theory Pract, 2023, 29(4): 452-464.
[10]	BASMAJIAN J V, KUKULKA C G, NARAYAN M G, et al. Biofeedback treatment of foot-drop after stroke compared with standard rehabilitation technique: effects on voluntary control and strength[J]. Arch Phys Med Rehabil, 1975, 56(6): 231-236.
[11]	FLOM R P, QUAST J E, BOLLER J D, et al. Biofeedback training to overcome poststroke foot-drop[J]. Geriatrics, 1976, 31(12): 47-51. pmid: 1001900
[12]	TAKEBE K, BASMAJIAN J V. Gait analysis in stroke patients to assess treatments of foot-drop[J]. Arch Phys Med Rehabil, 1976, 57(1): 305-310.
[13]	TAKEBE K, KUKULKA C G, NARAYAN M G, et al. Biofeedback treatment of foot drop after stroke compared with standard rehabilitation technique (part 2): effects on nerve conduction velocity and spasticity[J]. Arch Phys Med Rehabil, 1976, 57(1): 9-11.
[14]	MASSEY E W. Peroneal palsy in stroke patients[J]. Postgrad Med, 1982, 71(6): 109-111, 114. pmid: 7079199
[15]	RIBEIRO T S, GOMES DE SOUZA E S E M, REGALADO I C R, et al. Effects of load addition during gait training on weight-bearing and temporal asymmetry after stroke: a randomized clinical trial[J]. Am J Phys Med Rehabil, 2020, 99(3): 250-256.
[16]	ARNEZ-PANIAGUA V, RIFAI H, AMIRAT Y, et al. Adaptive control of an actuated-ankle-foot-orthosis[J]. IEEE Int Conf Rehabil Robot, 2017, 2017: 1584-1589.
[17]	LING H, GUO H, ZHOU H, et al. Effect of a rigid ankle foot orthosis and an ankle foot orthosis with an oil damper plantar flexion resistance on pelvic and thoracic movements of patients with stroke during gait[J]. Biomed Eng Online, 2023, 22(1): 9.
[18]	MIJIC M, SCHOSER B, YOUNG P. Efficacy of functional electrical stimulation in rehabilitating patients with foot drop symptoms after stroke and its correlation with somatosensory evoked potentials-a crossover randomised controlled trial[J]. Neurol Sci, 2023, 44(4): 1301-1310.
[19]	ALLEN C B, WILLIAMSON T K, NORWOOD S M, et al. Do Electrical stimulation devices reduce pain and improve function?: a comparative review[J]. Pain Ther, 2023, 12(6): 1339-1354.
[20]	SABUT S K, BHATTACHARYA S D, MANJUNATHA M. Functional electrical stimulation on improving foot drop gait in poststroke rehabilitation: a review of its technology and clinical efficacy[J]. Crit Rev Biomed Eng, 2013, 41(2): 149-160. doi: 10.1615/critrevbiomedeng.2013007621 pmid: 24580568
[21]	CHOI J B, LEE S H, PARK J S. Kinesiology taping and ankle foot orthosis equivalent therapeutic effects on gait function in stroke patients with foot drop: a preliminary study[J]. Medicine (Baltimore), 2023, 102(28): e34343.
[22]	THITITHUNWARAT N, KRITYAKIARANA W, KHEOWSRI S, et al. The effect of a modified elastic band orthosis on gait and balance in stroke survivors[J]. Prosthet Orthot Int, 2023, 47(5): 466-472. doi: 10.1097/PXR.0000000000000205 pmid: 36752760
[23]	FEUVRIER F, SIJOBERT B, AZEVEDO C, et al. Inertial measurement unit compared to an optical motion capturing system in post-stroke individuals with foot-drop syndrome[J]. Ann Phys Rehabil Med, 2020, 63(3): 195-201. doi: S1877-0657(19)30057-0 pmid: 31009801
[24]	LIN K W, HU C J, YANG W W, et al. Biomechanical evaluation and strength test of 3D-printed foot orthoses[J]. Appl Bionics Biomech, 2019, 2019: 4989534.
[25]	NUSSBAUM E L, HOUGHTON P, ANTHONY J, et al. Neuromuscular electrical stimulation for treatment of muscle impairment: critical review and recommendations for clinical practice[J]. Physiother Can, 2017, 69(5): 1-76. doi: 10.3138/ptc.2015-88 pmid: 29162949
[26]	HEFTER H, NICKELS W, ROSENTHAL D, et al. Continuous increase of efficacy under repetitive injections of Botulinum toxin type/A beyond the first treatment for adult spastic foot drop[J]. Toxins (Basel), 2021, 13(7): 466.
[27]	HARUYAMA K, KAWAKAMI M, OKADA K, et al. Pelvis-toe distance: 3-dimensional gait characteristics of functional limb shortening in hemiparetic stroke[J]. Sensors (Basel), 2021, 21(16): 5417.
[28]	ZHUANG Y, LENG Y, ZHOU J, et al. Voluntary control of an ankle joint exoskeleton by able-bodied individuals and stroke survivors using EMG-based admittance control scheme[J]. IEEE Trans Biomed Eng, 2021, 68(2): 695-705.
[29]	FU Y, ZHOU Z, GONG A, et al. Decoding of motor coordination imagery involving the lower limbs by the EEG-based brain network[J]. Comput Intell Neurosci, 2021, 2021: 5565824.
[30]	OUTERMANS J C, VAN PEPPEN R P, WITTINK H, et al. Effects of a high-intensity task-oriented training on gait performance early after stroke: a pilot study[J]. Clin Rehabil, 2010, 24(11): 979-987. doi: 10.1177/0269215509360647 pmid: 20719820
[31]	MORELAND J D, THOMSON M A, FUOCO A R. Electromyographic biofeedback to improve lower extremity function after stroke: a meta-analysis[J]. Arch Phys Med Rehabil, 1998, 79(2): 134-140.
[32]	MATHUNNY J J, KARTHIK V, DEVARAJ A, et al. A scoping review on recent trends in wearable sensors to analyze gait in people with stroke: from sensor placement to validation against gold-standard equipment[J]. Proc Inst Mech Eng H, 2023, 237(3): 309-326.
[33]	ZHONG B, GUO K, YU H, et al. Toward gait symmetry enhancement via a cable-driven exoskeleton powered by series elastic actuators[J]. IEEE Robotics Autom Lett, 2022, 7(2): 786-793.
[34]	NEVISIPOUR M, HONEYCUTT C F. Investigating the underlying biomechanical mechanisms leading to falls in long-term ankle-foot orthosis and functional electrical stimulator users with chronic stroke[J]. Gait Posture, 2022, 92: 144-152.
[35]	KARAKKATTIL P S, TRUDELLE-JACKSON E, MEDLEY A, et al. Effects of two different types of ankle-foot orthoses on gait outcomes in patients with subacute stroke: a randomized crossover trial[J]. Clin Rehabil, 2020, 34(8): 1094-1102. doi: 10.1177/0269215520927738 pmid: 32573271
[36]	SHI B, CHEN X, YUE Z, et al. Wearable ankle robots in post-stroke rehabilitation of gait: a systematic review[J]. Front Neurorobot, 2019, 13: 63.
[37]	ZOLLO L, ZACCHEDDU N, CIANCIO A L, et al. Comparative analysis and quantitative evaluation of ankle-foot orthoses for foot drop in chronic hemiparetic patients[J]. Eur J Phys Rehabil Med, 2015, 51(2): 185-196.
[38]	ZHU Y H, RUAN M, YUN R S, et al. Is leg-driven treadmill-based exoskeleton robot training beneficial to poststroke patients: a systematic review and meta-analysis[J]. Am J Phys Med Rehabil, 2023, 102(4): 331-339.
[39]	ABEY-NESBIT R, SCHLUTER P J, WILKINSON T J, et al. Risk factors for injuries in New Zealand older adults with complex needs: a national population retrospective study[J]. BMC Geriatr, 2021, 21(1): 630.
[40]	KARNIEL N, RAVEH E, SCHWARTZ I, et al. Functional electrical stimulation compared with ankle-foot orthosis in subacute post stroke patients with foot drop: a pilot study[J]. Assist Technol, 2021, 33(1): 9-16.
[41]	HE X, LEI L, YU G, et al. Asymmetric cortical activation in healthy and hemiplegic individuals during walking: a functional near-infrared spectroscopy neuroimaging study[J]. Front Neurol, 2022, 13: 1044982.
[42]	TANG H F, YANG B, LIN Q, et al. Dynamic biomechanical effect of lower body positive pressure treadmill training for hemiplegic gait rehabilitation after stroke: a case report[J]. World J Clin Cases, 2021, 9(3): 632-638.
[43]	BARRIOS-MURIEL J, ROMERO-SÁNCHEZ F, ALONSO-SÁNCHEZ F J, et al. Advances in orthotic and prosthetic manufacturing: a technology review[J]. Materials (Basel), 2020, 13(2): 295.
[44]	ZHAO H, XU H, WANG Z, et al. Analysis and evaluation of hemiplegic gait based on wearable sensor network[J]. Inf Fusion, 2023, 90: 382-391.
[45]	CHO J E, LEE W H, SHIN J H, et al. Effects of bi-axial ankle strengthening on muscle co-contraction during gait in chronic stroke patients: a randomized controlled pilot study[J]. Gait Posture, 2021, 87: 177-183.
[46]	MOHAN D M, KHANDOKER A H, WASTI S A, et al. Assessment methods of post-stroke gait: a scoping review of technology-driven approaches to gait characterization and analysis[J]. Front Neurol, 2021, 12: 650024.
[47]	MULDER L, ONUR O, KLEIS L, et al. Atypical neurologic presentations of new onset type 1 diabetes mellitus in pediatric age group: a report of five unusual cases and review of the literature[J]. J Pediatr Endocrinol Metab, 2014, 27(7/8): 749-756.
[48]	GANDOLLA M, NIERO L, MOLTENI F, et al. Brain plasticity mechanisms underlying motor control reorganization: pilot longitudinal study on post-stroke subjects[J]. Brain Sci, 2021, 11(3): 329.
[49]	STAEKENBORG S S, VAN DER FLIER W M, VAN STRAATEN E C, et al. Neurological signs in relation to type of cerebrovascular disease in vascular dementia[J]. Stroke, 2008, 39(2): 317-322. doi: 10.1161/STROKEAHA.107.493353 pmid: 18096841

Post-stroke foot drop research： a bibliometrics analysis

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