Clinical practice recommendations for management of lateropulsion after stroke determined by a Delphi expert panel.

OBJECTIVE: People exhibiting post-stroke lateropulsion actively push their body across the midline to the more affected side and/or resist weight shift toward the less affected side. Despite its prevalence and associated negative rehabilitation outcomes, no clinical practice guidelines exist for the rehabilitation of post-stroke lateropulsion. We aimed to develop consensus-based clinical practice recommendations for managing post-stroke lateropulsion using an international expert panel. DESIGN: This Delphi panel process conformed with Guidance on Conducting and Reporting Delphi Studies recommendations. PARTICIPANTS: Panel members had demonstrated clinical and/or scientific background in the rehabilitation of people with post-stroke lateropulsion. MAIN MEASURES: The process consisted of four electronic survey rounds. Round One consisted of 13 open questions. Subsequent rounds ascertained levels of agreement with statements derived from Round One. Consensus was defined a priori as ≥75% agreement (agree or strongly agree), or ≥70% agreement after excluding 'unsure' responses. RESULTS: Twenty participants completed all four rounds. Consensus was achieved regarding a total of 119 recommendations for rehabilitation approaches and considerations for rehabilitation delivery, positioning, managing fear of falling and fatigue, optimal therapy dose, and discharge planning. Statements for which 'some agreement' (50%-74% agreement) was achieved and those for which recommendations remain to be clarified were recorded. CONCLUSIONS: These recommendations build on existing evidence to guide the selection of interventions for post-stroke lateropulsion. Future research is required to elaborate specific rehabilitation strategies, consider the impact of additional cognitive and perceptual impairments, describe positioning options, and detail optimal therapy dose for people with lateropulsion.

Treatment approaches for pusher behaviour: a scoping review.

BACKGROUND: Some individuals with hemiplegia show a postural disorder called pusher behavior. Various underlying theoretical mechanisms have been proposed, thus leading to various treatment approaches. OBJECTIVES: The aim of this scoping review is to identify and analyze the available evidence on the treatment approaches for pusher behavior. METHODS: Two independent reviewers conducted a literature search for original studies reporting on treatments for pusher behavior. Studies were searched in PubMed, Scopus, Web of Science, CINAHL and PEDro from their inception to December 2020. Treatment approaches were grouped in homogeneous areas based on the supposed underlying mechanism. To assess the reporting of the interventions, the Template for Intervention Description and Replication (TIDieR) was used. RESULTS: Thirty-one papers describing 45 interventions were included in the review. Most of the studies were case reports (i.e. including 1 person) (n = 16), followed by randomized controlled trials (n = 5), single subject design trials (n = 5), non-randomized controlled trials (n = 3), and case series (i.e. including more than 1 person) (n = 2). Treatment approaches were grouped into five categories: visual feedback, somatosensory cues, visual-somatosensory integration, brain stimulation, and other nonspecific treatments. The median number of TIDIeR items reported was 7 (range 4 to 10). CONCLUSION: Pusher behavior is still little-known. Five main categories of treatment approaches based on the alleged etiological underlying mechanisms have been identified. Most of studies are case reports; controlled trials should be further conducted. Intervention reporting should be improved to allow treatment replication in larger trials.

Accuracy of the Australian National Sub-Acute and Non-Acute Patient Classification in predicting rehabilitation length of stay for stroke survivors who are ≥65 years of age and have lateropulsion.

BACKGROUND: Lateropulsion is a common impairment after stroke. Regardless of stroke severity, functional recovery is slower in people with lateropulsion, resulting in requirement for longer rehabilitation duration. In Australia, inpatient rehabilitation funding is determined via the Australian National Sub-Acute and Non-Acute Patient Classification (AN-SNAP). AN-SNAP class is determined using age, diagnosis, weighted Functional Independence Measure (FIM) motor score, and FIM cognitive score. OBJECTIVES: To explore accuracy of the AN-SNAP to predict length of stay (LOS) for people with poststroke lateropulsion. METHODS: A retrospective database audit was undertaken. AN-SNAP predicted LOS for each participant was calculated based on 2019 calendar year national benchmarks. A multivariable linear regression model estimated mean differences in reported LOS and AN-SNAP predicted LOS after adjusting for lateropulsion severity (Four Point Pusher Score). A separate logistic regression model assessed whether FIM change during admission was associated with reported LOS exceeding AN-SNAP predicted LOS. RESULTS: Data were available from 1126 admissions. Reported LOS exceeding AN-SNAP predicted LOS was associated with greater lateropulsion severity on admission. Where AN-SNAP predicted LOS was longer, those with no lateropulsion on admission showed shorter reported than predicted LOS. Greater improvement in FIM during rehabilitation was associated with increased odds of reported LOS exceeding AN-SNAP predicted LOS (OR 1.02, 95%CI 1.01-1.03, p < .001). CONCLUSIONS: Inclusion of a measure of poststroke lateropulsion in the AN-SNAP classification model would result in more accurate LOS predictions to inform funding. Costs of longer rehabilitation LOS may be countered by optimized long-term physical function, reducing requirement for ongoing care.

Effect of transcranial direct current stimulation combined with constraint-induced weight training of the affected lower limb on Pusher syndrome after stroke / 中国康复理论与实践

ObjectiveTo investigate the effect of transcranial direct current stimulation (tDCS) combined with constraint-induced weight training (CIWT) on Pusher syndrome after stroke. MethodsA total of 60 stroke inpatients with Pusher syndrome in the First Affiliated Hospital of Soochow University from January to December, 2021 were randomly divided into tDCS group, CIWT group and combination group, with 20 cases in each group. The three groups accepted routine rehabilitation training, the tDCS group received anode tDCS, the CIWT group received CIWT of the affected lower limb, and the combination group received CIWT of the affected lower limb and tDCS, for eight weeks. They were assessed with Berg Balance Scale (BBS), Fugl-Meyer Assessment-Lower Extremities (FMA-LE), Burke Lateropulsion Scale (BLS) and Holden Walking Functional Ambulation Category (FAC) before and after treatment. ResultsAfter treatment, the scores of BBS, FMA-LE, BLS and FAC improved (|t| > 1.452, P < 0.05) in all the groups, and improved the most in the combination group (|F| > 1.827, P < 0.05). ConclusiontDCS combined with CIWT of the affected lower extremity can effectively improve the function of stroke patients with Pusher syndrome.

Tilted 3D visual scenes influence lateropulsion: A single case study of pusher syndrome.

INTRODUCTION: Hemiparetic stroke patients with so-called "pusher syndrome" (synonyms: contraversive lateropulsion, contraversive pushing) use their non-paretic extremities to push toward their paralyzed side and actively resist external posture correction. The disorder is associated with a distorted perception of postural vertical combined with a maintained, or little deviating perception of visual upright. With the aim of reducing this mismatch, and thus reducing contraversive lateropulsion, we manipulated the orientation of visual input in a virtual reality setup. METHOD: We presented healthy subjects and an acute stroke patient with severe pusher syndrome a 3D visual scene that was either upright or tilted in roll plane by 20°. By moving the sitting participants in roll plane to the left and right, we assessed the occurrence of contraversive lateropulsion, namely the active resistance to external posture manipulation. RESULTS: With the 3D visual scene oriented upright, the patient with pusher syndrome showed the typical active resistance against tilts toward the ipsilesional side. He used his non-paretic arm to block the examiner's attempt to move the body axis toward that side. With the visual scene tilted to the ipsiversive left, his pathological resistance was significantly reduced. Statistically, the tolerated body tilt angles no longer differed from those of healthy subjects. CONCLUSIONS: We conclude that even short presentations of tilted 3D visual input can reduce symptoms of severe contraversive lateropulsion. The technique provides potential for a new treatment method of pusher syndrome and offers a simple, straightforward approach that can be effortlessly integrated in clinical practice. TRIAL REGISTRATION: German Clinical Trials Register (DRKS00026700).

Post-stroke lateropulsion terminology: pushing for agreement amongst experts.

Post-stroke lateropulsion is prevalent. The global inconsistency in terminology used to describe the condition presents obstacles in accurately comparing research results, reaching consensus on use of measurement tools, agreeing upon a consistent approach to rehabilitation, and translating research to clinical practice. Commencing in 2021, 20 international experts undertook a Delphi Process that aimed to compile clinical practice recommendations for the rehabilitation of lateropulsion. As a part of the process, the panel agreed to aim to reach consensus regarding terminology used to describe the condition. Improved understanding of the condition could lead to improved management, which will enhance patient outcomes after stroke and increase efficiency of healthcare resource utilisation. While consensus was not reached, the panel achieved some agreement that 'lateropulsion' is the preferred term to describe the phenomenon of 'active pushing of the body across the midline toward the more affected side, and / or actively resisting weight shift toward the less affected side'. This group recommends that 'lateropulsion' is used in future research and in clinical practice.

The association between contraversive lateropulsion and outcomes post stroke: A systematic review.

BACKGROUND: Contraversive lateropulsion is a common post-stroke impairment. Rehabilitation outcomes in stroke survivors exhibiting lateropulsion may differ from those without lateropulsion. OBJECTIVES: To systematically review evidence regarding associations between:1. Presence/severity of lateropulsion after stroke and functional outcome, rehabilitation length of stay, and discharge destination;2. Stroke-related factors and resolution of lateropulsion, functional outcome, rehabilitation length of stay, and discharge destination in affected stroke survivors. METHODS: Medline, CINAHL, and Embase databases were searched. Journal articles published in English reporting on resolution of lateropulsion, length of stay, functional outcome, and/or discharge destination associated with post-stroke lateropulsion were included for review. Studies that did not include a comparison group (stroke survivors without lateropulsion, or sub-groups of participants with lateropulsion based on stroke-related factors), animal studies, and studies reporting only on ipsiversive lateropulsion and/or lateral medullary syndrome were excluded. Two authors independently assessed studies for inclusion. Included studies were evaluated using the Risk of Bias Assessment Tool for Nonrandomized Studies. RESULTS: Screening identified 133 articles. Seven articles met inclusion criteria. People with contraversive lateropulsion after stroke can achieve similar improvements in function as those without lateropulsion, increasing likelihood of discharge home, but require longer rehabilitation durations to do so. CONCLUSIONS: The finding that longer rehabilitation durations are required for people with post-stroke lateropulsion to achieve their functional potential and increase likelihood of discharge home has implications for resourcing rehabilitation services. Given an additional three to four weeks in rehabilitation, people with post-stroke lateropulsion can achieve functional improvements function similar to those without lateropulsion.

Post-stroke lateropulsion and rehabilitation outcomes: a retrospective analysis.

PURPOSE: A person with post-stroke lateropulsion actively pushes themselves toward their hemiplegic side, or resists moving onto their non-hemiplegic side. This study aimed to determine the association of lateropulsion severity with: • Change in function (Functional Independence Measure - FIM) and lateropulsion severity (Four-Point Pusher Score - 4PPS) during inpatient rehabilitation; • Inpatient rehabilitation length of stay (LOS); • Discharge destination from inpatient rehabilitation. METHODS: Retrospective data for 1,087 participants (aged ≥65 years) admitted to a stroke rehabilitation unit (2005-2018) were analysed using multivariable regression models. RESULTS: Complete resolution of lateropulsion was seen in 69.4% of those with mild lateropulsion on admission (n = 160), 49.3% of those with moderate lateropulsion (n = 142), and 18.8% of those with severe lateropulsion (n = 181). Average FIM change was lower in those with severe lateropulsion on admission than those with no lateropulsion (p < 0.001). Higher admission 4PPS was associated with reduced FIM efficiency (p < 0.001), longer LOS (p < 0.001), (adjusted mean LOS: 35.6 days for those with severe lateropulsion versus 27.0 days for those without), and reduced likelihood of discharge home (p < 0.001). CONCLUSION: Post-stroke lateropulsion is associated with reduced functional improvement and likelihood of discharge home. However, given a longer rehabilitation duration, most stroke survivors with moderate to severe lateropulsion can achieve important functional improvement.Implications for RehabilitationWhile people with post-stroke lateropulsion can be difficult to treat and require more resources than those without lateropulsion, the majority of those affected, even in severe cases, can make meaningful recovery with appropriate rehabilitation.Although those with moderate to severe post-stroke lateropulsion may have poorer outcomes (longer LOS and reduced likelihood of discharge home) it is still important to advocate for access to rehabilitation for this patient group to give them the opportunity for optimal functional recovery.

Case Report: Visual Deprivation in Pusher Syndrome Complicated by Hemispatial Neglect After Basal Ganglia Stroke.

We aimed to explore whether motor function and activities of daily life (ADL) could be improved with the application of visual deprivation in two patients with Pusher syndrome complicated by hemispatial neglect after right basal ganglia stroke. We assessed two stroke patients suffering from severe motor disturbances, both tilting heavily to the left, with diagnoses of Pusher syndrome and left hemispatial neglect. Vision in the left eye was deprived using patches during clinical rehabilitation. Motor function promotion was confirmed using the Burke Lateropulsion Scale (BLS), Fugl-Meyer Balance Scale (FMBS), and Holden grade (HG), while the Barthel index (BI) assessed ADL immediately and 1 week after intervention. Both patients regained standing balance immediately using visual deprivation, as well as walking ability, although both scored 0 on the FMBS and HG. After 1 week of treatment, one patient increased to 11 and 3 on the FMBS and HG, respectively, while the BLS score decreased from 12 to 2, and the ADL increased from 23 to 70. The other patient demonstrated increases to 10 and 3 on the FMBS and HG, respectively, with the BLS decreasing from 13 to 3, and the ADL increasing from 25 to 60. Therefore, in the rehabilitation treatment of Pusher syndrome complicated by hemispatial neglect due to basal ganglia stroke, visual deprivation can significantly improve motor function and shorten the treatment course.

Is Lateropulsion Really Related with a Specific Lesion of the Brain?

Lateropulsion (pusher syndrome) is an important barrier to standing and gait after stroke. Although several studies have attempted to elucidate the relationship between brain lesions and lateropulsion, the effects of specific brain lesions on the development of lateropulsion remain unclear. Thus, the present study investigated the effects of stroke lesion location and size on lateropulsion in right hemisphere stroke patients. The present retrospective cross-sectional observational study assessed 50 right hemisphere stroke patients. Lateropulsion was diagnosed and evaluated using the Scale for Contraversive Pushing (SCP). Voxel-based lesion symptom mapping (VLSM) analysis with 3T-MRI was used to identify the culprit lesion for SCP. We also performed VLSM controlling for lesion volume as a nuisance covariate, in a multivariate model that also controlled for other factors contributing to pusher behavior. VLSM, combined with statistical non-parametric mapping (SnPM), identified the specific region with SCP. Lesion size was associated with lateropulsion. The precentral gyrus, postcentral gyrus, inferior frontal gyrus, insula and subgyral parietal lobe of the right hemisphere seemed to be associated with the lateropulsion; however, after adjusting for lesion volume as a nuisance covariate, no lesion areas were associated with the SCP scores. The size of the right hemisphere lesion was the only factor most strongly associated with lateropulsion in patients with stroke. These results may be useful for planning rehabilitation strategies of restoring vertical posture and understanding the pathophysiology of lateropulsion in stroke patients.

Body Lateropulsion in Stroke: Case Report and Systematic Review of Stroke Topography and Outcome.

INTRODUCTION: Body lateropulsion (BLP) is seen in neurological lesions involving the pathways responsible for body position and verticality. We report a case of isolated body lateropulsion (iBLP) as the presentation of lateral medullary infarction and conducted a systematic literature review. METHODS: MEDLINE and EMBASE databases were searched up to December 3, 2020. INCLUSION CRITERIA: age ≥ 18, presence of BLP, confirmed stroke on imaging. EXCLUSION CRITERIA: age < 18, qualitative reviews, studies with inadequate patient data. Statistical analysis was performed using IBM® SPSS® Statistics 20. RESULTS: A 64-year-old man presented with acute-onset iBLP. Brain MRI demonstrated acute infarction in the right caudolateral medulla. His symptoms progressed with ipsilateral Horner syndrome over the next 24 hours and contralateral hemisensory loss 10 days later. Repeat MRI showed an increase in infarct size. BLP resolved partially at discharge. Systematic review: 418 abstracts were screened; 59 studies were selected reporting 103 patients. Thirty-three patients had iBLP (32%). BLP was ipsilateral to stroke in 70 (68%) and contralateral in 32 (32%). The most common stroke locations were medulla (n = 63, 59%), pons (n = 16, 15%), and cerebellum (n = 16, 15%). Four strokes were cortical, 3 frontal and 1 temporoparietal (3%). The most common etiology was large-artery atherosclerosis (LAA) in 20 patients (32%), followed by small-vessel occlusion in 12 (19%). Seventeen (27%) had large-vessel occlusion (LVO), 12 involving the vertebral artery. Sixty (98%) had some degree of resolution of BLP; complete in 41 (70%). Median time-to-resolution was 14 days (IQR 10-21). There was no relationship between time-to-resolution and age, sex, side of BLP or side of stroke. CONCLUSION: BLP was commonly seen with medullary infarction and was the isolated finding in one-third. LAA and LVO were the most common etiologies. Recovery of BLP was early and complete in most cases.

The importance of the insular cortex for vestibular and spatial syndromes.

BACKGROUND AND PURPOSE: The aim of the study was to identify the neuroanatomical correlates and associations of neuropsychological syndromes after acute unilateral right-hemisphere brain lesions. The neuropsychological syndromes considered were orientation in three-dimensional space such as tilts of the subjective visual vertical or of the subjective haptic vertical, pusher syndrome, visual neglect and unawareness of paresis (anosognosia for hemiparesis). These neuropsychological phenomena have been found to occur separately or in different combinations after lesions to the right insular cortex. METHOD: Magnetic resonance imaging scans were obtained from 82 patients with acute right-hemispheric stroke. A lesion-behavior mapping analysis was conducted to specify the neuroanatomical correlates of the above-mentioned neuropsychological syndromes. RESULTS: In all analyses of the individual neuropsychological syndromes the insular cortex was affected. CONCLUSIONS: Thus, the insular cortex is involved in (self-)perception and orientation within a three-dimensional space. Since isolated lesions of the insular cortex did not induce the above neuropsychological phenomena, there have to be other regions involved.

Features and Rehabilitation of Pusher Syndrome after Parietal Lobe Hemorrhage: A Case Report / 中国康复理论与实践

Objective:To explore the features and rehabilitation of Pusher syndrome (PS). Methods:A female patient was reported and the literatures were reviewed. Results:The patient presented moderate ipsilateral, deep sensory disturbance, left spatial neglect and disuse. White matter degeneration was found. After four-week rehabilitation, the score of Scale for Contraversive Pushing decreased from 2.5 to 0.75, and her hand function recovered to assistant hand. Conclusion:The degeneration of white matter develops rapidly in PS patient, while the recovery of motor function is relatively slow, and need longer and comprehensive rehabilitation, especially the exercise therapy and somatosensory stimulation.

Perception of Verticality and Vestibular Disorders of Balance and Falls.

Objective: To review current knowledge of the perception of verticality, its normal function and disorders. This is based on an integrative graviceptive input from the vertical semicircular canals and the otolith organs. Methods: The special focus is on human psychophysics, neurophysiological and imaging data on the adjustments of subjective visual vertical (SVV) and the subjective postural vertical. Furthermore, examples of mathematical modeling of specific vestibular cell functions for orientation in space in rodents and in patients are briefly presented. Results: Pathological tilts of the SVV in the roll plane are most sensitive and frequent clinical vestibular signs of unilateral lesions extending from the labyrinths via the brainstem and thalamus to the parieto-insular vestibular cortex. Due to crossings of ascending graviceptive fibers, peripheral vestibular and pontomedullary lesions cause ipsilateral tilts of the SVV; ponto-mesencephalic lesions cause contralateral tilts. In contrast, SVV tilts, which are measured in unilateral vestibular lesions at thalamic and cortical levels, have two different characteristic features: (i) they may be ipsi- or contralateral, and (ii) they are smaller than those found in lower brainstem or peripheral lesions. Motor signs such as head tilt and body lateropulsion, components of ocular tilt reaction, are typical for vestibular lesions of the peripheral vestibular organ and the pontomedullary brainstem (vestibular nucleus). They are less frequent in midbrain lesions (interstitial nucleus of Cajal) and rare in cortical lesions. Isolated body lateropulsion is chiefly found in caudal lateral medullary brainstem lesions. Vestibular function in the roll plane and its disorders can be mathematically modeled by an attractor model of angular head velocity cell and head direction cell function. Disorders manifesting with misperception of the body vertical are the pusher syndrome, the progressive supranuclear palsy, or the normal pressure hydrocephalus; they may affect roll and/or pitch plane. Conclusion: Clinical determinations of the SVV are easy and reliable. They indicate acute unilateral vestibular dysfunctions, the causative lesion of which extends from labyrinth to cortex. They allow precise topographical diagnosis of side and level in unilateral brainstem or peripheral vestibular disorders. SVV tilts may coincide with or differ from the perception of body vertical, e.g., in isolated body lateropulsion.

Treatment interventions for pusher syndrome: A case series.

BACKGROUND: Pusher syndrome (PS) is a clinical disorder that causes decreased postural balance and active pushing away from the non-hemiparetic side in patients with right or left brain damage. Therapists are challenged by needing to manage both the hemiparetic and the pushing/non-hemiparetic sides. There is a minimal amount of evidence about effective treatment interventions for PS. OBJECTIVE: To describe treatment interventions that reduce pushing behavior and improve functional outcomes in patients with PS. METHODS: Five individuals (aged 42-76, admitted 5-16 days post-stroke) with PS participated in this case series. The participants received 90 minutes of physical therapy (5 days/week) with an average length of stay of 27 days. Treatment focused on regaining their sense of midline (balance and transfers), mobility retraining, and neuro re-education activities. Outcome measures examined pushing behavior, transfer ability, and sitting balance. RESULTS: All five participants demonstrated improvements in pushing behavior, balance and transfer status. CONCLUSIONS: These outcomes provide preliminary evidence of decreased pushing behavior, and improved balance and transfers following a program of interventions designed to improve the functional outcomes of patients with PS. Larger studies are needed to confirm these findings, and whether these interventions are effective for patients with less severe pushing behavior.

Pusher syndrome improved by secondary newly developed stroke

@#Pusher syndrome is a neurological disorder where the patient actively pushes away from the non-hemiparetic side following brain damage. We experienced a case in whom intractable pusher syndrome associated with thalamic hemorrhage improved following a newly developed pontine infarction. A 63-year-old man showed severe pusher syndrome after an initial thalamic hemorrhage. After approximately 2 years, a pontine infarction developed and improved the persistent pusher syndrome. We postulate that it resulted from involvement of the medial lemniscus with interruption of the distorted upward proprioceptive signal of body orientation.

[Metavestibular disorders and disorders of higher vestibular function]. / Metavestibuliarnye rasstroistva i vestibuliarnye narusheniia vysshego urovnia.

Vertigo, instability, oscillopsia and concomitant autonomic disorders are classical and well-known symptoms of vestibular disorders. At the same time, recent studies suggest that there are more complicated vestibular dysfunctions caused by the cortical projections of the vestibular system. The central vestibular system includes parietal temporal cortex and insular, anterior intraparietal sulcus, posterior parietal and medial parts of the superior temporal gyrus, singular gyrus retrosplenial cortex, hippocampus and parahippocampal area. The central part of the vestibular system closely interacts with other afferent systems forming a multisensory structure of higher brain functions. Dysfunctions of higher vestibular function play an important role in the development of clinical syndromes including pusher syndrome, room tilt illusion, unilateral spatial neglect syndrome, impairment of spatial memory and navigation. These syndromes can develop due to the direct damage of the cortical vestibular system or as a result of disconnection between the vestibular cortex and other parts of the sensory cortex.

Case-Control Study of Impairments Associated with Recovery from "Pusher Syndrome" after Stroke: Logistic Regression Analyses.

BACKGROUND: Comparing cohorts with similar functional and motor status at admission to inpatient rehabilitation may delineate demographics or impairments associated with recovery from lateropulsion, also known as "pusher syndrome," after stroke based on lesion side. The aim of this case-control study was to determine how demographics and severity of stroke impairments at admission to inpatient rehabilitation distinguish patients who recover from lateropulsion from those who do not. METHODS: Patients with admission motor Functional Independence Measure (FIM) scores less than 31 and contralesional lower extremity Fugl-Meyer motor scores less than 19 out of 34 were included. Burke Lateropulsion Scales score of 2 or higher at the time of discharge from inpatient rehabilitation indicated persistent lateropulsion; a score of 0 or 1 indicated resolved lateropulsion. Logistic regression tests included age, gender, admission Motricity Index score, limb placement error, and cognitive FIM score. χ2 analyses compared groups for neglect. RESULTS: For patients with left brain lesion, older age and worse admission motor status distinguished those with persistent lateropulsion at discharge. For right brain lesion, related factors were older age, greater admission limb placement error, and lower cognitive FIM scores. Visuospatial neglect did not influence recovery from lateropulsion. CONCLUSIONS: Older age and severe impairments were associated with delayed recovery from lateropulsion in a manner specific to lesion side in a sample with motor and functional deficits. The study provides evidence that lesion side and admission characteristics are useful in early decision making for the duration of rehabilitation, selection of interventions, and discharge planning.

Effects of Single Kneeling Trunk Intensive Training on Balance in Patients with Pusher Syndrome after Stroke / 中国康复理论与实践

Objective To observe the effect of single kneeling position trunk intensive training on the balance of patients with stroke Pusher syndrome. Methods From January, 2014 to February, 2016, forty patients with stroke Pusher syndrome were randomly divided into observation group and control group equally. They all accepted routine rehabilitation, while the observation group added a trunk intensive training with one knee kneeled. They were assessed with Berg Balance Scale (BBS), Fugl-Meyer Assessment (FMA) of lower limb and Sheikh's Scale of Trunk Control before and after training. Results The scores of BBS, lower limb FMA and trunk control improved in both groups after eight weeks of treatment (t>1.756, P1.827, P<0.05). Conclusion Single kneeling trunk intensive training can effectively improve the balance in stroke patients with Pusher syndrome.

Effects of interactive visual feedback training on post-stroke pusher syndrome: a pilot randomized controlled study.

OBJECTIVE: We investigated the effects of a computer-generated interactive visual feedback training program on the recovery from pusher syndrome in stroke patients. DESIGN: Assessor-blinded, pilot randomized controlled study. PARTICIPANTS: A total of 12 stroke patients with pusher syndrome were randomly assigned to either the experimental group (N = 7, computer-generated interactive visual feedback training) or control group (N = 5, mirror visual feedback training). MAIN OUTCOME MEASURES: The scale for contraversive pushing for severity of pusher syndrome, the Berg Balance Scale for balance performance, and the Fugl-Meyer assessment scale for motor control were the outcome measures. Patients were assessed pre- and posttraining. RESULTS: A comparison of pre- and posttraining assessment results revealed that both training programs led to the following significant changes: decreased severity of pusher syndrome scores (decreases of 4.0 ± 1.1 and 1.4 ± 1.0 in the experimental and control groups, respectively); improved balance scores (increases of 14.7 ± 4.3 and 7.2 ± 1.6 in the experimental and control groups, respectively); and higher scores for lower extremity motor control (increases of 8.4 ± 2.2 and 5.6 ± 3.3 in the experimental and control groups, respectively). Furthermore, the computer-generated interactive visual feedback training program produced significantly better outcomes in the improvement of pusher syndrome (p < 0.01) and balance (p < 0.05) compared with the mirror visual feedback training program. CONCLUSIONS: Although both training programs were beneficial, the computer-generated interactive visual feedback training program more effectively aided recovery from pusher syndrome compared with mirror visual feedback training.