Physical Rehabilitation Approach Research Articles

A Physical Rehabilitation Approach for Parkinson's Disease: A Systematic Literature Review.

Parkinson's disease (PD) is one of the most common neurological ailments. With diverse motor affectations (postural instability, resting tremor, bradykinesia, and rigidity), people with Parkinson's disease (PwP) have a broad spectrum of non-motor symptoms. These include autonomic function changes, cognitive deterioration, neuropsychiatric difficulties, and sleep interruptions. Psychological disturbances, such as anxiety and sadness, are common among PwP. This discomfort is often accompanied by a decrease in general functioning, both at work and in social contacts. Furthermore, people who are experiencing psychological distress have a quick decrease in both physical and cognitive capacities. Furthermore, Pwp who also suffer from anxiety and depression are more likely to acquire dementia. It is worth noting that studies have shown good outcomes in the treatment of physical disabilities in PWP and the various therapeutics available for each affected body part, such as in the legs when they have walking problems, resting tremor in their hands, or micrography, which is a common symptom in these patients. The medical researchdatabases PubMed/Medline, Google Scholar, and the Cochrane Library were used to look for relevant materials. Upon meticulous scrutiny, a thorough investigation was conducted on the papers at hand. A total of 10 publications were meticulously selected based on stringent qualifying criteria. The present investigation examines various perspectives regarding the physical rehabilitation of individuals diagnosed with PD. The majority of therapeutic interventions employed revolve around cutting-edge technologies, such as virtual reality (VR), combined with exercise regimens. These interventions have demonstrated notable statistical significance in terms of enhancing various physical aspects, including endurance, performance, gait capacity, perception, and overall independence in daily life activities. One of the gathered studies makes use of the therapeutic benefits of yoga to help PwP deal with their anxiety and improve their mental health.Based on the aforementioned information, further investigation is required to ascertain the optimal approach for physical rehabilitation management and develop diverse strategies aimed at assisting individuals with PD in attaining physical autonomy.

The Efficacy of Physical Therapy and Rehabilitation Approaches in Chronic Migraine: A Systematic Review and Meta-Analysis.

Pharmacological treatment is the primary approach in chronic migraine (CM), although non-drug interventions such as physical therapy are used as adjunct treatments. We aimed to review the efficacy of physical therapy and rehabilitation approaches for CM and their impact on quality of life (QoL) and disability. This systematic review followed the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guidelines and included randomized controlled trials (RCTs) in adults with CM. The primary outcomes were changes in intensity, frequency, duration of headache, disability, and QoL. Methodological quality was assessed using the Physiotherapy Evidence Database (PEDro) scale. Data synthesis and quantitative analysis were conducted on relevant studies. Seven RCTs were included in the narrative review, and five of them were eligible for quantitative analysis. Aerobic exercise (AE), osteopathic manipulative treatment (OMT), occipital transcutaneous electrical stimulation (OTES), acupressure, hydrotherapy, instrument-assisted soft tissue mobilization (IASTM), facial proprioceptive neuromuscular facilitation (FPNF), and connective tissue massage (CTM) were used in CM. AE combined with pharmacological therapy reduced the frequency, duration, and intensity of headache. OMT combined with medication improved QoL and reduced disability, intensity of pain, and migraine days per month. Hydrotherapy combined with medication also resulted in improvements in the intensity of headache, frequency, and overall QoL. IASTM and OTES reduced the intensity of headache, alleviated neck pain, and improved QoL, although there were conflicting findings following OTES alone on disability and intensity of headache. Both FPNF and CTM reduced the intensity of headache. Acupressure as an adjunct to medication did not show additional benefits on the intensity of headache and QoL. Quantitative analysis of the data showed that manual physical therapy combined with medication reduced the intensity of headache (p = 0.0796), and manual or AE combined with medication reduced the headache days per month (p = 0.047). A limited number of RCTs investigating the efficacy of physical therapy and rehabilitation approaches show promise in improving headache symptoms, reducing disability, and enhancing QoL in CM. Meta-analysis of the data also supported favorable outcomes for both intensity and headache days per month. Further research is needed to better understand the efficacy, optimal duration, and safety of physical therapy and rehabilitation approaches for CM, and to explore alternative interventions.

Action observation for upper limb rehabilitation after stroke.

Action observation (AO) is a physical rehabilitation approach that facilitates the occurrence of neural plasticity through the activation of the mirror-neural system, promoting motor recovery in people with stroke. To assess whether AO enhances upper limb motor function in people with stroke. We searched the Cochrane Stroke Group Trials Register (last searched 18 May 2021), the Cochrane Central Register of Controlled Trials (18 May 2021), MEDLINE (1946 to 18 May 2021), Embase (1974 to 18 May 2021), and five additional databases. We also searched trial registries and reference lists. Randomized controlled trials (RCTs) of AO alone or associated with physical practice in adults after stroke. The primary outcome was upper limb (arm and hand) motor function. Secondary outcomes included dependence on activities of daily living (ADL), motor performance, cortical activation, quality of life, and adverse effects. Two review authors independently selected trials according to the predefined inclusion criteria, extracted data, assessed risk of bias using RoB 1, and applied the GRADE approach to assess the certainty of the evidence. The reviews authors contacted trial authors for clarification and missing information. We included 16 trials involving 574 individuals. Most trials provided AO followed by the practice of motor actions. Training varied between 1 day and 8 weeks of therapy, 10 to 90 minutes per session. The time of AO ranged from 1 minute to 10 minutes for each motor action, task or movement observed. The total number of motor actions ranged from 1 to 3. Control comparisons included sham observation, physical therapy, and functional activity practice. AO improved arm function (standardized mean difference (SMD) 0.39, 95% confidence interval (CI) 0.17 to 0.61; 11 trials, 373 participants; low-certainty evidence); and improved hand function (mean difference (MD) 2.76, 95% CI 1.04 to 4.49; 5 trials, 178 participants; low-certainty evidence). AO did not improve ADL performance (SMD 0.37, 95% CI -0.34 to 1.08; 7 trials, 302 participants; very low-certainty evidence), or quality of life (MD 5.52, 95% CI -30.74 to 41.78; 2 trials, 30 participants; very low-certainty evidence). We were unable to pool the other secondary outcomes (motor performance and cortical activation). Only two trials reported adverse events without significant adverse effects. The effects of AO are small for arm function compared to any control group; for hand function the effects are large, but not clinically significant. For both, the certainty of evidence is low. There is no evidence of benefit or detriment from AO on ADL and quality of life of people with stroke; however, the certainty of evidence is very low. As such, our confidence in the effect estimate is limited because it will likely change with future research.

BCI-FES With Multimodal Feedback for Motor Recovery Poststroke.

An increasing number of research teams are investigating the efficacy of brain-computer interface (BCI)-mediated interventions for promoting motor recovery following stroke. A growing body of evidence suggests that of the various BCI designs, most effective are those that deliver functional electrical stimulation (FES) of upper extremity (UE) muscles contingent on movement intent. More specifically, BCI-FES interventions utilize algorithms that isolate motor signals—user-generated intent-to-move neural activity recorded from cerebral cortical motor areas—to drive electrical stimulation of individual muscles or muscle synergies. BCI-FES interventions aim to recover sensorimotor function of an impaired extremity by facilitating and/or inducing long-term motor learning-related neuroplastic changes in appropriate control circuitry. We developed a non-invasive, electroencephalogram (EEG)-based BCI-FES system that delivers closed-loop neural activity-triggered electrical stimulation of targeted distal muscles while providing the user with multimodal sensory feedback. This BCI-FES system consists of three components: (1) EEG acquisition and signal processing to extract real-time volitional and task-dependent neural command signals from cerebral cortical motor areas, (2) FES of muscles of the impaired hand contingent on the motor cortical neural command signals, and (3) multimodal sensory feedback associated with performance of the behavioral task, including visual information, linked activation of somatosensory afferents through intact sensorimotor circuits, and electro-tactile stimulation of the tongue. In this report, we describe device parameters and intervention protocols of our BCI-FES system which, combined with standard physical rehabilitation approaches, has proven efficacious in treating UE motor impairment in stroke survivors, regardless of level of impairment and chronicity.

Assessing High‐ and Low‐intensity Physical Rehabilitation Approaches to Address Skeletal Muscle Dysfunction Following Volumetric Muscle Loss

INTRODUCTIONVolumetric muscle loss (VML), the removal of a large volume of muscle tissue due to surgery or severe trauma is characterized by persistent contractile and metabolic deficits. There is a need to identify clinically translatable physical rehabilitation approaches to address VML; however, optimal parameters of physical rehabilitation strategies such as intensity, progression, and volume have not been well‐established. The primary objective of this study was to determine if the prescribed intensity of two clinically translatable rehabilitation strategies, i.e., whole‐body vibration and voluntary wheel running, influenced skeletal muscle mass and function after VML. We hypothesized that physical rehabilitation would improve muscle function versus leaving the injury untreated, and that magnitude of improvement would be influenced by intensity of physical rehabilitation. METHODS: 12‐week‐old, male C57BL/6 mice (N=55) were assigned to one of 5 groups: uninjured, VML with no rehabilitation (VML), high‐resistance wheel running (HR), low‐resistance wheel running (LR), high‐magnitude vibration (H‐Vib, 1.0g), and low‐magnitude vibration (L‐Vib, 0.6g). Mice underwent unilateral VML injury to the primary ankle plantarflexors (gastrocnemius, soleus, plantaris muscles). Physical rehabilitation strategies were administered for 8‐weeks starting 3‐days after VML injury. To determine rehabilitation effectiveness, muscle mass, muscle strength (i.e., in vivopeak‐isometric torque), and muscle metabolic function (permeabilized muscle fibers oxygen consumption and electron conductance) were assessed. RESULTS: Compared to uninjured mice, VML without rehabilitation resulted in 27% less muscle mass (p<0.01), 36% less peak‐isometric torque (p<0.01), 22% less maximal oxygen consumption (p<0.01) and 36% less electron conductance (p<0.01). Vibration: There were no statistically significant differences among groups for muscle mass or mitochondrial function (p≥0.50). Peak‐isometric torque was 24% greater in H‐Vib (p<0.01), but not L‐Vib mice, compared to VML. Wheel running:HR, but not LR, had 11% greater muscle mass compared to VML (p<0.05). Peak‐isometric torque was 22% greater in both HR and LR compared to VML (p<0.05). Metabolic function was not statistically different among groups. CONCLUSION: Our primary finding is that vibration and wheel running are capable of producing positive adaptations in VML‐injured muscle. Furthermore, results from this study suggest that intensity as a rehabilitation variable should be considered when developing and validating strategies to address functional deficits in VML‐injured muscle. Ongoing and future research is needed to determine the molecular signaling pathways affected by these rehabilitation strategies, and more importantly, why metabolic adaptations are lacking.

HABIT+tDCS: a study protocol of a randomised controlled trial (RCT) investigating the synergistic efficacy of hand-arm bimanual intensive therapy (HABIT) plus targeted non-invasive brain stimulation to improve upper extremity function in school-age children with unilateral cerebral palsy

IntroductionUnilateral spastic cerebral palsy (USCP) is characterised by movement deficits primarily on one body side. The best available upper extremity (UE) therapies are costly and intensive. Thus, there is an...

Therapeutic Benefits of Short-Arm Human Centrifugation in Multiple Sclerosis-A New Approach.

Short-arm human centrifugation (SAHC) is proposed as a robust countermeasure to treat deconditioning and prevent progressive disability in a case of secondary progressive multiple sclerosis. Based on long-term physiological knowledge derived from space medicine and missions, artificial gravity training seems to be a promising physical rehabilitation approach toward the prevention of musculoskeletal decrement due to confinement and inactivity. So, the present study proposes a novel infrastructure based on SAHC to investigate the hypothesis that artificial gravity ameliorates the degree of disability. The patient was submitted to a 4-week training programme including three weekly sessions of 30 min of intermittent centrifugation at 1.5–2 g. During sessions, cardiovascular, muscle oxygen saturation (SmO2) and electroencephalographic (EEG) responses were monitored, whereas neurological and physical performance tests were carried out before and after the intervention. Cardiovascular parameters improved in a way reminiscent of adaptations to aerobic exercise. SmO2 decreased during sessions concomitant with increased g load, and, as training progressed, SmO2 of the suffering limb dropped, both effects suggesting increased oxygen use, similar to that seen during hard exercise. EEG showed increased slow and decreased fast brain waves, with brain reorganization/plasticity evidenced through functional connectivity alterations. Multiple-sclerosis-related disability and balance capacity also improved. Overall, this study provides novel evidence supporting SAHC as a promising therapeutic strategy in multiple sclerosis, based on mechanical loading, thereby setting the basis for future randomized controlled trials.

Physical rehabilitation approach to temporomandibular disorders—a clinical case

Introduction: Temporomandibular disorders are an umbrella term covering pain and dysfunction of the temporomandibular joint, masticatory muscles and associated structures. These conditions can negatively affect body posture, daily activities, and quality of life. The challenges in the entire diagnostic process and the complex treatment indicate the need of a multidisciplinary approach to temporomandibular disorders. Aim: The aim of this article is to monitor the effectiveness of an individualized rehabilitation plan for temporomandibular dysfunction . Materials and Methods: A 58-year-old woman diagnosed with a severe temporomandibular joint dysfunction underwent a 10-day rehabilitation course, including laser puncture, ultrasound, interference current therapy, manual lymphatic drainage, muscle relaxing techniques, and fitball. Results: We founded a significant improvement in De Fonseca index, total Quality of Life score and range of motion as a result of the treatment. Conclusion: The personalized administration of physical and rehabilitation modalities acts not only as a focused therapy, but determines the long-term effectiveness of the treatment of temporomandibular disorders.

Applying Game-Based Approaches for Physical Rehabilitation of Poststroke Patients: A Systematic Review.

Objective A large number of patients need critical physical rehabilitation after the stroke. This study aimed to review and report the result of published studies, in which newly emerged games were employed for physical rehabilitating in poststroke patients. Materials and Methods This systematic review study was performed based on the PRISMA method. A comprehensive search of PubMed, Scopus, IEEE Xplore Digital Library, and ISI Web of Science was conducted from January 1, 2014, to November 9, 2020, to identify related articles. Studies have been entered in this review based on inclusion and exclusion criteria, in which new games have been used for physical rehabilitation. Results Of the 1326 retrieved studies, 60 of them met our inclusion criteria. Virtual reality-oriented games were the most popular type of physical rehabilitation approach for poststroke patients. “The Nintendo Wii Fit” game was used more than other games. The reviewed games were mostly operated to balance training and limb mobilization. Based on the evaluation results of the utilized games, only in three studies, applied games were not effective. In other studies, games had effective outcomes for target body members. Conclusions The results indicate that modern games are efficient in poststroke patients' physical rehabilitation and can be used alongside conventional methods.

To contrast and reverse skeletal muscle weakness by Full-Body In-Bed Gym in chronic COVID-19 pandemic syndrome

Mobility-impaired persons, either very old or younger but suffering with systemic neuromuscular disorders or chronic organ failures, spend small amounts of time for daily physical activity, contributing to aggravate their poor mobility by resting muscle atrophy. Sooner or later the limitations to their mobility enforce them to bed and to more frequent hospitalizations. We include among these patients at risk those who are negative for the SARS-COV-2 infection, but suffering with COVID-19 pandemic syndrome. Beside managements of psychological symptoms, it is mandatory to offer to the last group physical rehabilitation approaches easy to learn and self-managed at home. Inspired by the proven capability to recover skeletal muscle contractility and strength by home-based volitional exercises and functional electrical stimulation, we suggest also for chronic COVID-19 pandemic syndrome a 10-20 min long daily routine of easy and safe physical exercises that can activate, and recover from weakness, the main 400 skeletal muscles used for every-day mobility activities. Persons can do many of them in bed (Full-Body in-Bed Gym), and hospitalized patients can learn this light training before leaving the hospital. It is, indeed, an extension of well-established cardiovascular-respiratory rehabilitation training performed after heavy surgical interventions. Blood pressure readings, monitored before and after daily routine, demonstrate a transient decrease in peripheral resistance due to increased blood flow of many muscles. Continued regularly, Full-Body in-Bed Gym may help maintaining independence of frail people, including those suffering with the COVID-19 pandemic syndrome.

To contrast and reverse skeletal muscle weakness by Full-Body In-Bed Gym in chronic COVID-19 pandemic syndrome.

Mobility-impaired persons, either very old or younger but suffering with systemic neuromuscular disorders or chronic organ failures, spend small amounts of time for daily physical activity, contributing to aggravate their poor mobility by resting muscle atrophy. Sooner or later the limitations to their mobility enforce them to bed and to more frequent hospitalizations. We include among these patients at risk those who are negative for the SARS-COV-2 infection, but suffering with COVID-19 pandemic syndrome. Beside managements of psychological symptoms, it is mandatory to offer to the last group physical rehabilitation approaches easy to learn and self-managed at home. Inspired by the proven capability to recover skeletal muscle contractility and strength by home-based volitional exercises and functional electrical stimulation, we suggest also for chronic COVID-19 pandemic syndrome a 10–20 min long daily routine of easy and safe physical exercises that can activate, and recover from weakness, the main 400 skeletal muscles used for every-day mobility activities. Persons can do many of them in bed (Full-Body in-Bed Gym), and hospitalized patients can learn this light training before leaving the hospital. It is, indeed, an extension of well-established cardiovascular-respiratory rehabilitation training performed after heavy surgical interventions. Blood pressure readings, monitored before and after daily routine, demonstrate a transient decrease in peripheral resistance due to increased blood flow of many muscles. Continued regularly, Full-Body in-Bed Gym may help maintaining independence of frail people, including those suffering with the COVID-19 pandemic syndrome.

Physical Therapy and Rehabilitation Approaches in Patients with Carpal Tunnel Syndrome.

Physical therapy involves a set of factors and methods that affect the biological processes in the body. It is widely used, relatively inexpensive, non-invasive, and easy to apply. Physiotherapy is also used in the treatment of patients with carpal tunnel syndrome (CTS). This syndrome represents the most common compressive mononeuropathy of the upper limb and leads to significant disability. Hence, its successful treatment leads to significant benefits for both the patient and society. There is no established algorithm for the use of physical therapy in these patients. In this publication, we present the physiotherapeutic methods used for the treatment of CTS both before and after surgical treatment.

Is it time to redefine the role of low-dose radiotherapy for benign disease?

It is estimated that 24% of the general adult population is currently suffering from osteoarthritis (OA), affecting 10% of men and 18% of women over 60 years of age in...

Action observation for upper limb rehabilitation after stroke.

Action observation (AO) is a physical rehabilitation approach that facilitates the occurrence of neural plasticity through the activation of the mirror-neural system, promoting motor recovery in people with stroke. To assess whether action observation enhances motor function and upper limb motor performance and cortical activation in people with stroke. We searched the Cochrane Stroke Group Trials Register (last searched 4 September 2017), the Central Register of Controlled Trials (24 October 2017), MEDLINE (1946 to 24 October 2017), Embase (1974 to 24 October 2017) and five additional databases. We also searched trial registries and reference lists. Randomized controlled trials (RCTs) of AO, alone or associated with physical practice in adults after stroke. The primary outcome was upper limb motor function. Secondary outcomes included dependence on activities of daily living (ADL), motor performance, cortical activation, quality of life, and adverse effects. Two review authors independently selected trials according to the pre-defined inclusion criteria, extracted data, assessed risk of bias, and applied the GRADE approach to assess the quality of the evidence. The reviews authors contacted trial authors for clarification and missing information. We included 12 trials involving 478 individuals. A number of trials showed a high risk of bias and others an unclear risk of bias due to poor reporting. The quality of the evidence was 'low' for most of the outcomes and 'moderate' for hand function, according to the GRADE system. In most of the studies, AO was followed by some form of physical activity. the impact of AO on arm function showed a small significant effect (standardized mean difference (SMD) 0.36, 95% CI 0.13 to 0.60; 8 studies; 314 participants; low-quality evidence); and a large significant effect (mean difference (MD) 2.90, 95% CI 1.13 to 4.66; 3 studies; 132 participants; moderate-quality evidence) on hand function. there was a large significant effect for ADL outcome (SMD 0.86, 95% CI 0.11 to 1.61; 4 studies, 226 participants; low-quality evidence). We were unable to pool other secondary outcomes to extract the evidence. Only two studies reported adverse effects without significant adverse AO events. We found evidence that AO is beneficial in improving upper limb motor function and dependence in activities of daily living (ADL) in people with stroke, when compared with any control group; however, we considered the quality of the evidence to be low. We considered the effect of AO on hand function to be large, but it does not appear to be clinically relevant, although we considered the quality of the evidence as moderate. As such, our confidence in the effect estimate is limited because it will likely change with future research.

Outcomes of a 5-day physiotherapy programme for functional (psychogenic) motor disorders.

Patients with functional motor disorder (FMD) are commonly seen by physiotherapists and there is growing evidence to support a physical rehabilitation approach. There are, however, few descriptions in the literature of the content of successful physiotherapy treatment. This prospective cohort study reports the practicalities and outcomes of a pilot 5-day physiotherapy programme. Patients were referred from a specialist movement disorders clinic. The treatment consisted of education and movement retraining, with a long-term self-management focus. Education and movement retraining was based on a pathophysiological model for FMD that stresses the importance of self-focussed attention and illness belief. Patients were assessed at baseline, end of treatment and 3-month follow-up. 47 patients completed the programme, mean symptom duration was 5.5 years, 64 % were unemployed due to ill health. At the end of treatment, 65 % rated their symptoms as "very much improved" or "much improved", this reduced to 55 % at 3 months. At follow-up, there was a significant improvement in physical domains of the SF-36, Berg Balance Scale and 10 Metre Timed Walk. Measures of mental health did not change. This prospective cohort study adds to the growing evidence that supports the use of specialist physiotherapy treatment for FMD. Improvements here were made despite the cohort having characteristics associated with poor prognosis. We argue that specific treatment techniques are important and have the potential to improve physical function, quality of life and may prove to be a cost-effective treatment for selected patients with FMD.

A value-based practice model of rehabilitation: consumers’ recommendations in action

The purpose of this paper is to present a model of rehabilitation practice that is based on the recommendations of consumers who used rehabilitation services and have a life-changing physical impairment (spinal cord injury – SCI). This value-based practice model is based on two qualitative studies. The first study developed the framework (social adaptation) for a new practice model based on values. The second study, described in this paper, used the framework to learn about recommendations for change in the rehabilitation process. Participants in the second study were 80 volunteers who live with a SCI in the community, across the province of Ontario, Canada. A snowball strategy was used to recruit interested participants. Participants were involved in face-to-face interviews which included questions on what helped and hindered their initial rehabilitation process, and their recommendations for change. In this paper, we described a model that demonstrates how consumer input is essential in shaping a comprehensive rehabilitation process. The model is based on overarching value statements that express the worthiness of all individuals, the value of the lived experience of disability and the responsibility of the rehabilitation process to enable client autonomy. Four “values in action” are articulated: caring and respect for the individual and his/her personhood; applying the lived experience of disability; fostering autonomy; and promoting hopefulness. These values have been initially described in another paper based on a specific subset of 15 women living with SCI related to body issues during rehabilitation. This paper builds on this value work and we develop key practices for a progressive rehabilitation culture and model, based on the larger study group of 80 participants (men and women with SCI). This value-based model, when integrated with traditional, physical improvement-focused rehabilitation, has the potential to create a more effective process by offering clients better support as they go through the complex process of re-building their lives and making the transition back to the community.Implications for RehabilitationWe suggest that the Values in the Action Rehabilitation Practice Model that emphasized social adaptation be used along side the physical rehabilitation approach to enhance client-based practice.That peers with disabilities work collaboratively with rehabilitation professionals within a culture that acknowledges and reimburses their knowledge and expertise.Rehabilitation professionals learn about the lived experience of disability and systemic issues by being involved in grass-roots community organizations.

Physical Rehabilitation Approaches for the Recovery of Function and Mobility After Stroke

Physical Rehabilitation Approaches for the Recovery of Function and Mobility After Stroke

Physical rehabilitation approaches for the recovery of function and mobility following stroke.

Various approaches to physical rehabilitation may be used after stroke, and considerable controversy and debate surround the effectiveness of relative approaches. Some physiotherapists base their treatments on a single approach; others use a mixture of components from several different approaches. To determine whether physical rehabilitation approaches are effective in recovery of function and mobility in people with stroke, and to assess if any one physical rehabilitation approach is more effective than any other approach.For the previous versions of this review, the objective was to explore the effect of 'physiotherapy treatment approaches' based on historical classifications of orthopaedic, neurophysiological or motor learning principles, or on a mixture of these treatment principles. For this update of the review, the objective was to explore the effects of approaches that incorporate individual treatment components, categorised as functional task training, musculoskeletal intervention (active), musculoskeletal intervention (passive), neurophysiological intervention, cardiopulmonary intervention, assistive device or modality.In addition, we sought to explore the impact of time after stroke, geographical location of the study, dose of the intervention, provider of the intervention and treatment components included within an intervention. We searched the Cochrane Stroke Group Trials Register (last searched December 2012), the Cochrane Central Register of Controlled Trials (CENTRAL) (The Cochrane Library Issue 12, 2012), MEDLINE (1966 to December 2012), EMBASE (1980 to December 2012), AMED (1985 to December 2012) and CINAHL (1982 to December 2012). We searched reference lists and contacted experts and researchers who have an interest in stroke rehabilitation. Randomised controlled trials (RCTs) of physical rehabilitation approaches aimed at promoting the recovery of function or mobility in adult participants with a clinical diagnosis of stroke. Outcomes included measures of independence in activities of daily living (ADL), motor function, balance, gait velocity and length of stay. We included trials comparing physical rehabilitation approaches versus no treatment, usual care or attention control and those comparing different physical rehabilitation approaches. Two review authors independently categorised identified trials according to the selection criteria, documented their methodological quality and extracted the data. We included a total of 96 studies (10,401 participants) in this review. More than half of the studies (50/96) were carried out in China. Generally the studies were heterogeneous, and many were poorly reported.Physical rehabilitation was found to have a beneficial effect, as compared with no treatment, on functional recovery after stroke (27 studies, 3423 participants; standardised mean difference (SMD) 0.78, 95% confidence interval (CI) 0.58 to 0.97, for Independence in ADL scales), and this effect was noted to persist beyond the length of the intervention period (nine studies, 540 participants; SMD 0.58, 95% CI 0.11 to 1.04). Subgroup analysis revealed a significant difference based on dose of intervention (P value < 0.0001, for independence in ADL), indicating that a dose of 30 to 60 minutes per day delivered five to seven days per week is effective. This evidence principally arises from studies carried out in China. Subgroup analyses also suggest significant benefit associated with a shorter time since stroke (P value 0.003, for independence in ADL).We found physical rehabilitation to be more effective than usual care or attention control in improving motor function (12 studies, 887 participants; SMD 0.37, 95% CI 0.20 to 0.55), balance (five studies, 246 participants; SMD 0.31, 95% CI 0.05 to 0.56) and gait velocity (14 studies, 1126 participants; SMD 0.46, 95% CI 0.32 to 0.60). Subgroup analysis demonstrated a significant difference based on dose of intervention (P value 0.02 for motor function), indicating that a dose of 30 to 60 minutes delivered five to seven days a week provides significant benefit. Subgroup analyses also suggest significant benefit associated with a shorter time since stroke (P value 0.05, for independence in ADL).No one physical rehabilitation approach was more (or less) effective than any other approach in improving independence in ADL (eight studies, 491 participants; test for subgroup differences: P value 0.71) or motor function (nine studies, 546 participants; test for subgroup differences: P value 0.41). These findings are supported by subgroup analyses carried out for comparisons of intervention versus no treatment or usual care, which identified no significant effects of different treatment components or categories of interventions. Physical rehabilitation, comprising a selection of components from different approaches, is effective for recovery of function and mobility after stroke. Evidence related to dose of physical therapy is limited by substantial heterogeneity and does not support robust conclusions. No one approach to physical rehabilitation is any more (or less) effective in promoting recovery of function and mobility after stroke. Therefore, evidence indicates that physical rehabilitation should not be limited to compartmentalised, named approaches, but rather should comprise clearly defined, well-described, evidenced-based physical treatments, regardless of historical or philosophical origin.

Physiotherapy treatment approaches following stroke: major update of Cochrane systematic review of evidence

Introduction: Physiotherapists traditionally base stroke rehabilitation practice on global ‘approaches’ (e.g. Bobath and Motor Learning approaches). A 2007 Cochrane systematic review explored the effect of different physiotherapy approaches for stroke, but failed to include all foreign-language (particularly Chinese) trials. We aim to update this Cochrane review, restructuring to incorporate all current international evidence relating to effectiveness of physiotherapy treatment approaches. Method: Our Cochrane review update is based on searches of electronic databases (including CENTRAL, MEDLINE, EMBASE, CINAHL, AMED) from 2005-December 2012. Foreign-language abstracts have been translated. Two independent reviewers applied selection criteria with disagreements resolved by a third reviewer. Two review authors will independently categorise the interventions within identified trials, document methodological quality, and extract data. Cochrane risk of bias tool will be used to assess methodological quality. Data from included studies will be pooled within meta-analyses, calculating standardised mean differences and 95% confidence intervals, using a random-effects model, for disability, motor impairment and participation outcomes. Results: (June 2013) We considered 11,576 titles, screened 592 abstracts and included 75 new RCTs (n = 896, plus 13 awaiting assessment). 49/75 RCTs were completed in China. 38/75 RCTs compare a physical rehabilitation approach with no rehabilitation. Our updated review synthesises evidence from 95 trials (n = 10,048). Data extraction is ongoing and meta-analyses will be completed by October 2013. Conclusion: This major Cochrane review update substantially increases the volume of evidence, with trials including over 10,000 participants, providing the most comprehensive, up-to-date synthesis of international evidence relating to the effect of physiotherapy treatment approaches after stroke.

Components of rehabilitation of 18-22 years old patients with respiratory diseases

The paper describes the physical rehabilitation approach aimed at prevention respiratory diseases in young age. The goal of the research was development and experimental justification of physical rehabilitation program for students of higher educational establishments with respiratory diseases based on the use of cyclic exercise with increased intensity. It was found that the use of complex rehabilitation program resulted in the renewal of youth’s health, increase of performance and functional capacities of respiratory system, and development of basic physical abilities.