Understanding people’s experiences of using the SaeboFlex® following a stroke

2020 ◽  
pp. 030802262094378
Author(s):  
Hayley Millard ◽  
Louise Gustafsson ◽  
Matthew Molineux ◽  
Katherine Richards
Keyword(s):  
Upper Limb ◽  
Phenomenological Study ◽  
Outpatient Service ◽  
Occupational Therapists ◽  
Outpatient Setting ◽  
Structured Interviews ◽  
Upper Limb Rehabilitation ◽  
Client Experiences ◽  
Limb Rehabilitation

Introduction This qualitative interpretive phenomenological study sought to understand the experiences of people using the SaeboFlex®, within an outpatient setting, following a stroke. Method Five adults who had experienced a stroke and had received the SaeboFlex® from occupational therapists in one outpatient service within the previous 12 months were recruited using convenience sampling. Semi-structured interviews were conducted, recorded, transcribed verbatim, and analysed using Braun and Clarke’s thematic analysis. Results Three themes emerged from the data: (a) hope for upper limb recovery: ‘you have got nothing to lose’; (b) the everyday experience of the SaeboFlex®: ‘just keeping it in a routine’; (c) the self-reported outcomes: ‘I can do more things you know … but there haven’t been any miracles’. Conclusion The findings highlight the important role of hope in the recovery of people following a stroke, and that participants continue to use the device despite limited goal achievement. The reports of limited transfer of training into everyday occupations, either with or without the device, is something that should be carefully considered. The SaeboFlex® is a tool that is promoted for upper limb rehabilitation, but which has limited evidence of effectiveness and mixed client experiences. Further research is required.

TOWARDS A CLINICALLY COMPLIANT UPPER LIMB PART-TASK TRAINER IN SIMULATED LEARNING PROGRAM

2015 ◽  
Vol 76 (4) ◽  
Author(s):  
Nurul Atiqah Othman ◽  
Noor Ayuni Che Zakaria ◽  
Cheng Yee Low ◽  
Fazah Akhtar Hanapiah ◽  
Takashi Komeda ◽  
...  
Keyword(s):  
Upper Limb ◽  
Clinical Assessment ◽  
Occupational Therapists ◽  
Learning Program ◽  
Patient Simulator ◽  
Rehabilitation Process ◽  
Upper Limb Rehabilitation ◽  
Simulated Learning ◽  
Limb Rehabilitation ◽  
Assessment Scales

Patient simulator is one of the methods physiotherapists and occupational therapists trainee use to improve their skills. The focus here is on spasticity as part of the upper motor neuron (UMN) syndrome. The rehabilitation process for patients with UMN syndrome and management of spasticity is very important because spasticity will affect function and quality of life. A rehabilitation process requires physicians, occupational therapists and physiotherapists to assess the spasticity level using clinical assessment methods. To engage directly with the patients, the clinicians should have enough skill and experience to reduce risk of injury to the patients. Thus, it is mandatory for the physiotherapists and occupational therapists trainee to go through comprehensive training before they can conduct the therapy session. This paper reveals the research urgency in therapist education tools for upper limb rehabilitation training and points out the significance of having compliance with clinical assessment scales.

Implementing evidence-based practice: A context analysis to examine use of task-based approaches to upper-limb rehabilitation

2018 ◽  
Vol 81 (5) ◽  
pp. 285-289
Author(s):  
Mary Vining Radomski ◽  
Mattie Anheluk ◽  
Christine Arulanantham ◽  
Marsha Finkelstein ◽  
Nancy Flinn
Keyword(s):  
Upper Limb ◽  
Evidence Based Practice ◽  
Contextual Factors ◽  
Occupational Therapists ◽  
Evidence Based ◽  
Context Analysis ◽  
Upper Limb Rehabilitation ◽  
Context Specific ◽  
Limb Rehabilitation ◽  
Practice Implementation

Statement of context Many occupational therapists experience challenges in implementing evidence-based practice, which may be best approached as a context-specific enterprise. Critical reflection on practice This practice analysis article reports the results of analyzing 24 home programs that occupational therapists issued to rehabilitation inpatients with stroke upon their discharge home. Home programs did not reflect a task-based approach to upper-limb recovery, even though this is supported by established evidence. Examination of contextual factors provides a framework to facilitate evidence implementation. Implications for practice Occupational therapists may optimize evidence-based practice implementation by first evaluating and addressing practice-specific contextual factors.

Upper-limb Rehabilitation Robot Based on Motor Imagery EEG

ROBOT ◽  
2011 ◽  
Vol 33 (3) ◽  
pp. 307-313 ◽  
Author(s):  
Baoguo XU ◽  
Si PENG ◽  
Aiguo SONG
Keyword(s):  
Motor Imagery ◽  
Upper Limb ◽  
Rehabilitation Robot ◽  
Upper Limb Rehabilitation ◽  
Limb Rehabilitation

Upper-limb Rehabilitation Robot Motion Control Based on Dynamic Interpolation

ROBOT ◽  
2012 ◽  
Vol 34 (5) ◽  
pp. 539 ◽  
Author(s):  
Lizheng PAN ◽  
Aiguo SONG ◽  
Guozheng XU ◽  
Huijun LI ◽  
Baoguo XU
Keyword(s):  
Motion Control ◽  
Upper Limb ◽  
Robot Motion ◽  
Rehabilitation Robot ◽  
Upper Limb Rehabilitation ◽  
Limb Rehabilitation

scholarly journals Artificial Intelligence-Based Wearable Robotic Exoskeletons for Upper Limb Rehabilitation: A Review

Sensors ◽  
2021 ◽  
Vol 21 (6) ◽  
pp. 2146
Author(s):  
Manuel Andrés Vélez-Guerrero ◽  
Mauro Callejas-Cuervo ◽  
Stefano Mazzoleni
Keyword(s):  
Artificial Intelligence ◽  
Upper Limb ◽  
Main Trend ◽  
Motor Rehabilitation ◽  
Rehabilitation Process ◽  
Upper Limb Rehabilitation ◽  
Multiple Sensors ◽  
Meta Analyses ◽  
Limb Rehabilitation ◽  
And Control

Processing and control systems based on artificial intelligence (AI) have progressively improved mobile robotic exoskeletons used in upper-limb motor rehabilitation. This systematic review presents the advances and trends of those technologies. A literature search was performed in Scopus, IEEE Xplore, Web of Science, and PubMed using the PRISMA (Preferred Reporting Items for Systematic Reviews and Meta-Analyses) methodology with three main inclusion criteria: (a) motor or neuromotor rehabilitation for upper limbs, (b) mobile robotic exoskeletons, and (c) AI. The period under investigation spanned from 2016 to 2020, resulting in 30 articles that met the criteria. The literature showed the use of artificial neural networks (40%), adaptive algorithms (20%), and other mixed AI techniques (40%). Additionally, it was found that in only 16% of the articles, developments focused on neuromotor rehabilitation. The main trend in the research is the development of wearable robotic exoskeletons (53%) and the fusion of data collected from multiple sensors that enrich the training of intelligent algorithms. There is a latent need to develop more reliable systems through clinical validation and improvement of technical characteristics, such as weight/dimensions of devices, in order to have positive impacts on the rehabilitation process and improve the interactions among patients, teams of health professionals, and technology.

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