Mapeamento das práticas e abordagens de terapeutas ocupacionais na doença de Parkinson: uma revisão de escopo / Mapping of practices and approaches of occupational therapists in Parkinson's disease: a scoping review

Resumo Introdução A doença de Parkinson (DP) é a segunda no grupo das doenças neurodegenerativas crônicas progressivas, com alta prevalência e incidência anual. Portanto, faz-se necessário atualizar as opções terapêutico-ocupacionais, vigentes ou em desenvolvimento, para essa patologia. Objetivo Mapear as práticas e abordagens de terapeutas ocupacionais conduzidas por meio de intervenções terapêuticas na DP. Método Revisão conduzida em atenção ao "Preferred Reporting Items for Systematic reviews and Meta-Analyses extension for Scoping Reviews (PRISMA-ScR) Checklist", baseada na metodologia do Joanna Briggs Institute. A pergunta de pesquisa foi elaborada a partir do acrônimo PCC (Paciente, Conceito e Contexto), cujos termos principais e secundários foram consultados no DeCS/MeSH. As buscas foram realizadas em cinco plataformas científicas entre 2011 e 2020. Os pesquisadores cegos foram comparados pelo grau de concordância aferido pelo coeficiente kappa de Cohen. Resultados Os achados indicam que há pelo menos oito categorias de práticas e abordagens realizadas por terapeutas ocupacionais na DP. A maioria dos procedimentos é executado no domicílio. A pesquisa em ambiente ambulatorial é o grande cenário de produção de conhecimento na área. As estratégias focadas em condutas físicas e funcionais são as mais demandadas na DP, com resultados aferíveis, ao passo que as intervenções baseadas em ocupações manifestam resultados discretos. Conclusão As atuações do terapeuta ocupacional na DP têm ampla variabilidade, ocorrem em diferentes contextos e seus desfechos sugerem que nem todas as opções mapeadas apresentam resultados consistentes ou não são suficientemente detalhadas para favorecer uma melhor interpretação dos achados.

Abstract Introduction Parkinson's disease (PD) ranks second among progressive chronic neurodegenerative diseases, with high prevalence and annual incidence. Therefore, it is necessary to update the current and developing occupational therapy options for this pathology. Objective To map the practices and approaches of occupational therapists conducted through therapeutic interventions in PD. Method Review conducted following the Preferred Reporting Items for Systematic Reviews and Meta-Analyses extension for Scoping Reviews (PRISMA-ScR) Checklist, based on the methodology of the Joanna Briggs Institute. The research question was formulated using the PCC (Patient, Concept, and Context) acronym, with primary and secondary terms consulted in the DeCS/MeSH multilingual thesaurus. Searches were conducted on five scientific databases between 2011 and 2020. Blind researchers were compared by the degree of agreement measured by Cohen's kappa coefficient. Results The findings indicate that there are at least eight categories of practices and approaches performed by occupational therapists in PD. Most procedures are conducted at home. Research in outpatient environments is the primary setting for knowledge production in the field. Strategies focused on physical and functional behaviors are most in demand in PD, with measurable results, while occupation-based interventions show modest results. Conclusion The actions of occupational therapists in PD are highly variable, occur in different contexts, and their outcomes suggest that not all mapped options present consistent results or are not sufficiently detailed to favor a better interpretation of the findings.

Global Rehabilitation Health Worker Certification: Global Agenda, Local Imperative.

Rehabilitation, seen as a disability-specific service needed only by few of the world's population, has not been prioritized in countries and is under-resourced. A rehabilitation-ready health workforce is potentially the most important resource for improving functioning and the quality of life for the 2.41 billion people worldwide needing this care. In April 2019, CGFNS International, Inc., and the Association of Schools Advancing Health Professions (ASAHP) partnered to respond to the World Health Organization's Rehab 2030, which emphasizes the need for global action by professional organizations, development agencies, and civil society to develop and maintain a sustainable workforce for rehabilitation under different healthcare models in different economies. The global certification framework presented in this article provides a mechanism to validate rehabilitation knowledge and practice competence of individual health workers. The impact of certification on upgrading rehabilitation education and upskilling the world's rehabilitation health workforce cannot be overstated.

Classification of Mild Stroke: A Mapping Review.

Persons with mild stroke experience motor and cognitive impairments that negatively affect their health and quality of life. To address these deficits, it is essential for clinicians and researchers to precisely identify mild stroke survivors. Despite the fact that half of all strokes are categorized as mild, no standards exist on what constitutes a "mild" stroke. The purpose of this study is to summarize the current classification of mild stroke using a mapping review approach. Strategies to categorize "mild stroke" severity were explored in 188 papers indexed in the PubMed database. The results indicate that there was substantial variability in the procedures and scoring criteria used to determine mild stroke. To identify persons with mild stroke, researchers have largely applied assessment instruments developed to inform acute stroke care (eg, National Institutes of Health Stroke Scale, Modified Rankin Scale, Barthel Index). Unfortunately, these approaches demonstrate floor effects and fail to detect the long-term disabling impairments that often limit the outcomes of mild stroke survivors. Additional research is warranted to suggest an evidence-based mild stroke categorization strategy that enhances diagnosis, treatment, and referral decisions to the benefit of mild stroke survivors.

Interdisciplinary Approaches to Facilitate Return to Driving and Return to Work in Mild Stroke: A Position Paper.

Adults with mild stroke face substantial challenges resuming valued roles in the community. The term "mild" provides false representation of the lived experience for many adults with mild stroke who may continue to experience persistent challenges and unmet needs. Rehabilitation practitioners can identify and consequently intervene to facilitate improved independence, participation, and quality of life by facilitating function and reducing the burden of lost abilities among adults with mild stroke. The Health and Wellness Task Force identified 2 important, and often interdependent, goals that frequently arise among adults living with mild stroke that must be addressed to facilitate improved community reintegration: (1) return to driving and (2) return to work. Adults with mild stroke may not be receiving adequate rehabilitative services to facilitate community reintegration for several reasons but primarily because current practice models are not designed to meet such needs of this specific population. Thus, the Health and Wellness Task Force convened to review current literature and practice trends to (1) identify opportunities based on the evidence of assessment and interventions, for return to driving and return to work; and (2) identify gaps in the literature that must be addressed to take advantage of the opportunities. Based on findings, the task force proposes a new interdisciplinary practice model for adults with mild stroke who are too often discharged from the hospital to the community without needed services to enable successful return to driving and work.

Education and technology used to improve the quality of life for people with diabetes mellitus type II.

BACKGROUND: The incidence of type II diabetes mellitus (DMT2) is expected to continue to rise. Current research has analyzed various tools, strategies, programs, barriers, and support in regards to the self-management of this condition. However, past researchers have yet to analyze the education process; including the adaptation of specific strategies in activities of daily living and roles, as well as the influence of health care providers in the integration of these strategies. OBJECTIVES: The purpose of this qualitative case study was to identify the strengths and limitations of the current model of diabetes education in the United States and hypothesize how technology can impact quality of life. METHODS: Key informants on diabetes education were recruited from diabetes education centers through the American Association of Diabetes Educators. Semi-structured interviews were conducted with participants. RESULTS: Health care practitioners convey limited knowledge of DMT2. Individuals with DMT2 often have limited understanding of the implications of poor self-management. There appears to be no consistent standard of care for how to effectively incorporate self-management strategies. There is limited education for the use of technology in self-management. Diabetes educators describe that technology could be beneficial. CONCLUSION: Findings suggest the importance of the role of care providers in emphasizing the implications of poor self-management strategies; that a multidisciplinary approach may enhance the education process; and a need for further developments in technology to address DMT2 self-management strategies.

Error augmentation enhancing arm recovery in individuals with chronic stroke: a randomized crossover design.

BACKGROUND: Neurorehabilitation studies suggest that manipulation of error signals during practice can stimulate improvement in coordination after stroke. OBJECTIVE: To test visual display and robotic technology that delivers augmented error signals during training, in participants with stroke. METHODS: A total of 26 participants with chronic hemiparesis were trained with haptic (via robot-rendered forces) and graphic (via a virtual environment) distortions to amplify upper-extremity (UE) tracking error. In a randomized crossover design, the intervention was compared with an equivalent amount of practice without error augmentation (EA). Interventions involved three 45-minute sessions per week for 2 weeks, then 1 week of no treatment, and then 2 additional weeks of the alternate treatment. A therapist provided a visual cursor using a tracking device, and participants were instructed to match it with their hand. Haptic and visual EA was used with blinding of participant, therapist, technician-operator, and evaluator. Clinical measures of impairment were obtained at the beginning and end of each 2-week treatment phase as well as at 1 week and at 45 days after the last treatment. RESULTS: Outcomes showed a small, but significant benefit to EA training over simple repetitive practice, with a mean 2-week improvement in Fugl-Meyer UE motor score of 2.08 and Wolf Motor Function Test of timed tasks of 1.48 s. CONCLUSIONS: This interactive technology may improve UE motor recovery of stroke-related hemiparesis.

Arm control recovery enhanced by error augmentation.

Here we present results where nineteen stroke survivors with chronic hemiparesis simultaneously employed the trio of patient, therapist, and machine. Massed practice combined with error augmentation, where haptic (robotic forces) and graphic (visual display) distortions are used to enhance the feedback of error, was compared to massed practice alone. The 6-week randomized crossover design involved approximately 60 minutes of daily treatment three times per week for two weeks, followed by one week of rest, and then repeated using the alternate treatment protocol. A therapist provided a visual target using a tracking device that moved a cursor in front of the patient, who was instructed to maintain the cursor on the target. The patient, therapist, technician-operator, and rater were blinded to treatment type. Several clinical measures gauged outcomes at the beginning and end of each 2-week period and one week post training. Results showed incremental benefit across most but not all days, abrupt gains in performance, and a benefit to error augmentation training in final evaluations. This application of interactive technology may be a compelling new method for enhancing a therapist's productivity in stroke-rehabilitation.

Therapist-mediated post-stroke rehabilitation using haptic/graphic error augmentation.

Recent research has suggested that enhanced retraining for stroke patients using haptics (robotic forces) and graphics (visual display) to generate a practice environment that can artificially enhance error rather than reducing it, can stimulate new learning and foster accelerated recovery. We present an evaluation of early results of this novel post-stroke robotic-aided therapy trial that incorporates these ideas in a large VR system and simultaneously employs the patient, the therapist, and the technology to accomplish effective therapy.

Custom-designed haptic training for restoring reaching ability to individuals with poststroke hemiparesis.

We present an initial test of a technique for retraining reaching skills in patients with poststroke hemiparesis, in which errors are temporarily magnified to encourage learning and compensation. Individuals with poststroke hemiparesis held a horizontal plane robotic manipulandum that could exert a variety of forces while recording patients' movements. We measured how well the patients recovered movement straightness in a single visit to the laboratory (approximately 3 h). Following training, we returned forces to zero for an additional 50 movements to discern if aftereffects lasted. We found that all subjects showed immediate benefit from the training, although 3 of the 10 subjects did not retain these benefits for the remainder of the experiment. We discuss how these approaches demonstrate great potential for rehabilitation tools that augment error to facilitate functional recovery.

Evaluation of robotic training forces that either enhance or reduce error in chronic hemiparetic stroke survivors.

This investigation is one in a series of studies that address the possibility of stroke rehabilitation using robotic devices to facilitate "adaptive training." Healthy subjects, after training in the presence of systematically applied forces, typically exhibit a predictable "after-effect." A critical question is whether this adaptive characteristic is preserved following stroke so that it might be exploited for restoring function. Another important question is whether subjects benefit more from training forces that enhance their errors than from forces that reduce their errors. We exposed hemiparetic stroke survivors and healthy age-matched controls to a pattern of disturbing forces that have been found by previous studies to induce a dramatic adaptation in healthy individuals. Eighteen stroke survivors made 834 movements in the presence of a robot-generated force field that pushed their hands proportional to its speed and perpendicular to its direction of motion--either clockwise or counterclockwise. We found that subjects could adapt, as evidenced by significant after-effects. After-effects were not correlated with the clinical scores that we used for measuring motor impairment. Further examination revealed that significant improvements occurred only when the training forces magnified the original errors, and not when the training forces reduced the errors or were zero. Within this constrained experimental task we found that error-enhancing therapy (as opposed to guiding the limb closer to the correct path) to be more effective than therapy that assisted the subject.