Effects of Neck Taping in the Treatment of Hemispatial Neglect in Chronic Stroke Patients: A Pilot, Single Blind, Randomized Controlled Trial.

Background and objectives: Hemispatial neglect is a common consequence of stroke, with an estimated incidence of 23%. Interventions for treating hemispatial neglect may be categorized as either top-down or bottom-up processing. The aim of top-down approaches is to train the person to voluntarily compensate for their neglect. Such approaches require awareness of the disorder and a high level of active participation by the patient. Differently, bottom-up approaches are based on manipulation of a patient's sensory environment and so require less awareness of behavioral bias. In line with the latter, it is conceivable that elastic therapeutic taping applied to the left neck surface may provide bottom-up inputs that reduce hemispatial neglect symptoms. The aim of this study was to assess the effect of therapeutic neck taping on visuo-spatial abilities, neck motion, and kinesthetic sensibility in chronic stroke patients with hemispatial neglect. Materials and Methods: After randomization, 12 chronic stroke patients with hemispatial neglect received 30 consecutive days of real (treatment group) or sham (control group) neck taping. The outcomes were as follows: Stars Cancellation Test; neck active range of motion; Letter Cancellation Test; Comb and Razor Test; Cervical Joint Position Error Test evaluated before and after one month of taping. Results: Between-group comparison showed significant differences only for the Cervical Joint Position Error Test after treatment (p = 0.009). Conclusions: Our preliminary findings support the hypothesis that neck taping might improve cervicocephalic kinesthetic sensibility in chronic stroke patients with hemispatial neglect. Further studies are needed to strengthen our results and better investigate the effects of elastic therapeutic taping on visuo-spatial abilities in stroke patients with hemispatial neglect.

Short-wave diathermy for spastic equinus foot in chronic stroke patients: a proof-of-concept pilot study.

BACKGROUND: Physical modalities may be useful to manage poststroke spasticity. Shortwave diathermy has been demonstrated to improve extensibility of the myotendinous tissue. Spasticity may alter morphology of the muscle and its elastic properties. Our main aim was to evaluate the effects of shortwave diathermy on spastic equinus foot in stroke patients. METHODS: Ten chronic stroke patients with spastic equinus foot received 10 shortwave diathermy sessions, 5 days/week for 2 consecutive weeks to the spastic calf muscles. Clinical (modified Ashworth Scale and ankle dorsiflexion passive range of motion) and ultrasound (spastic gastrocnemius muscle echo intensity and hardness percentage measured by sonoelastography) evaluation was done before, after treatment, and at two weeks of follow-up. RESULTS: A significant difference in calf muscle spasticity (P=0.004), ankle passive range of motion (P=0.014), and spastic gastrocnemius muscle hardness percentage (P=0.004) was found after treatment. A significant difference in calf muscle spasticity (P=0.004) was found also at the follow-up evaluation. CONCLUSIONS: Our preliminary findings support the hypothesis that shortwave diathermy might improve calf muscle tone, ankle passive range of motion, and gastrocnemius muscle elasticity in chronic stroke patients with spastic equinus. This might be due to the deep thermal effects coupled with the rheological direct action of shortwave diathermy on spastic muscles.

May ultrasonography be considered a useful tool for bedside screening of dysphagia in patients with acute stroke? A cohort study.

BACKGROUND: Dysphagia is a primary risk factor for pneumonia and affects around 50% of acute stroke patients. Systematic bedside swallowing screening of acute stroke patients is recommended before oral intake. Currently there is lack of comprehensive dysphagia assessment tools with robust good accuracy, clinical utility and cost-effectiveness. An altered hyoid bone movement may represent a major risk factor for aspiration. Ultrasonography quantitatively measures hyoid-larynx approximation, which was found reduced in stroke patients with dysphagia. Although ultrasonography was suggested for assessing stroke patients with dysphagia, there is lack of evidence about the acute phase of stroke. Thus, our aim was to investigate the use of ultrasonography for bedside screening of dysphagia in acute stroke patients. METHODS: Nineteen acute stroke patients were included. Each patient performed clinical bedside screening for dysphagia by means of the Gugging Swallow Screen and the Functional Oral Intake Scale. Furthermore, all patients underwent ultrasonography in order to measure the distance between the thyroid cartilage and hyoid bone during swallowing (water bolus of 3 mL). The hyoid-larynx approximation distance (obtained by subtracting [a-b] the shortest distance between the hyoid bone and thyroid cartilage during swallowing (b) from the initial resting distance (a) and degree {[(a-b)/a]×100} were calculated). RESULTS: The Functional Oral Intake Scale showed a significant direct association with the hyoid-larynx approximation distance (P=0.011) and degree (P=0.005). Also, the Gugging Swallow Screen showed a significant direct association with the hyoid-larynx approximation distance (P=0.008) and degree (P=0.004). The hyoid-larynx approximation distance and degree were significantly reduced in dysphagic patients. CONCLUSIONS: Our findings support the use of ultrasonography in aid of swallowing clinical (non-instrumental) evaluation for the bedside screening of dysphagia in acute stroke patients.

Combined transcranial Direct Current Stimulation and robot-assisted arm training in patients with stroke: a systematic review.

BACKGROUND: Upper limb motor deficits in patients with severe stroke often remain unresolved over time. Combining transcranial Direct Current Stimulation with robotic therapy is an innovative neurorehabilitation approach that holds promise to improve upper limb impairment after stroke. OBJECTIVE: To investigate the effects of robotic training in combination with transcranial Direct Current Stimulation for treating poststroke upper limb impairment. METHODS: PubMed, MEDLINE, Cochrane Library, and EMBASE electronic databases were searched using keywords, MeSH terms, and strings: "Stroke"[MeSH] AND ("Upper Extremity"[MeSH] OR "upper limb") AND ("Transcranial Direct Current Stimulation" [MeSH] OR "tDCS") AND ("robotics" OR "robotic therapy"). Full-text articles published in English up to October 2020 were included. Each was rated for quality according to the Physiotherapy Database (PEDro) score: eight out of eleven scored more than 8 points; their results were considered reliable for this review. RESULTS: Of the total of 171 publications retrieved, 11 met the inclusion criteria. The results of studies that examined the same outcome measures were pooled to draw conclusions on the effectiveness of transcranial Direct Current Stimulation and robot-assisted training in corticomotor excitability, upper limb kinematics, muscle strength and tone, function, disability, and quality of life after stroke. CONCLUSIONS: To date, there is insufficient evidence to support the hypothesis that transcranial Direct Current Stimulation enhances the effects of robot-assisted arm training in poststroke patients. Further studies with more accurate, comparable and standardized methodology are needed in order to better define the effects of robotic training in combination with transcranial Direct Current Stimulation on poststroke upper limb impairment. Therefore, given the scarce resources available to rehabilitation researches, other, more promising approaches should be given attention.

Does Botulinum Toxin Treatment Affect the Ultrasonographic Characteristics of Post-Stroke Spastic Equinus? A Retrospective Pilot Study.

Equinovarus/equinus foot is a pattern most commonly treated with botulinum toxin type A in patients with post-stroke spasticity involving the lower limbs; the gastrocnemius is the muscle most frequently injected. Spastic equinovarus/equinus can present a mixture of conditions, including spasticity, muscle/tendon shortening, muscle weakness and imbalance. In this study, we wanted to determine whether botulinum toxin treatment affects the ultrasonographic characteristics of post-stroke spastic equinus. The same dose of AbobotulinumtoxinA was injected into the gastrocnemius medialis and lateralis of 21 chronic stroke patients with spastic equinus. Clinical (Ashworth scale and ankle range of motion) and ultrasound (conventional and sonoelastography) evaluation of the treated leg was carried out before and 4 weeks after injection. No significant effects of botulinum toxin treatment on the ultrasonographic characteristics of spastic equinus were observed. As expected, there were significant improvements in ankle passive dorsiflexion range of motion and calf muscle spasticity at 1 month after treatment. There was a direct association between Achilles tendon elasticity and calf muscle spasticity at baseline evaluation. Larger studies with a long-term timeline of serial evaluations are needed to further investigate the possible effects of botulinum toxin injection on spastic muscle characteristics in patients with post-stroke spasticity.

Diagnostic nerve block in prediction of outcome of botulinum toxin treatment for spastic equinovarus foot after stroke: A retrospective observational study.

OBJECTIVE: To evaluate the role of diagnostic nerve block in predicting the outcome of subsequent botulinum toxin type A treatment for spastic equinovarus foot due to chronic stroke. DESIGN: Retrospective observational study. PATIENTS: Fifty chronic stroke patients with spastic equinovarus foot. METHODS: Each patient was given diagnostic tibial nerve block (lidocaine 2% perineural injection) assessment followed by botulinum toxin type A inoculation into the same muscles as had been targeted by the nerve block. All patients were evaluated before diagnostic nerve block, after the nerve block, and 4 weeks after botulinum toxin injection. Outcomes were ankle dorsiflexion passive range of motion of the affected side, and calf muscle spasticity, measured with the modified Ashworth scale and the Tardieu Scale. RESULTS: Significant improvements were measured after diagnostic nerve block and botulinum toxin injection compared with the baseline condition. Diagnostic nerve block led to significantly greater improvements in all outcomes than botulinum toxin injection. CONCLUSION: This study confirmed diagnostic nerve block as a valuable screening tool in deciding whether to treat spastic equinovarus with botulinum toxin. However, the results support the evidence that diagnostic nerve block results in a greater reduction in muscle overactivity than does botulinum toxin type A in patients with spastic equinovarus due to stroke.

Robot-assisted arm training for treating adult patients with distal radius fracture: a proof-of-concept pilot study.

BACKGROUND: Fracture of the distal radius is a common wrist injury. As to its management after orthopedic (conservative or surgical) treatment, there is weak evidence for conventional rehabilitation interventions. Despite the increasing interest for robot-assisted arm therapy as to neurological disabilities and its growing diffusion in rehabilitation facilities, no previous study investigated the feasibility of robotic training on arm orthopedic impairment. AIM: To evaluate the feasibility in terms of efficacy of robot-assisted arm training on upper limb impairment in patients with fracture of the distal radius. DESIGN: Proof-of-concept, pilot, randomized controlled trial. SETTING: University hospital. POPULATION: Twenty adult outpatients with distal radius fracture due to wrist injury. METHODS: All participants underwent ten, 1-hour (40 minutes of arm training + 20 minutes of conventional occupational therapy) training sessions, five days a week for two consecutive weeks. They were randomly assigned to two groups: patients allocated to the Robotic Arm Training group received arm training by means of a robotic device and patients allocated to the Conventional Arm Training group performed arm training following a conventional rehabilitation program. All patients were evaluated before, immediately after treatment and at four weeks of follow-up. The following outcomes were considered at the affected arm: forearm pronation/supination and wrist extension/flexion passive and active range of motion; maximal pinch and grip strength; the Patient-Rated Wrist and Hand Evaluation. RESULTS: No difference was found between groups as to the primary (wrist active and passive range of motion) and secondary (pinch and grip strength; Patient-Rated Wrist and Hand Evaluation Score) outcomes at all time points. Within-group comparisons showed similar improvements at all time points as to all outcomes considered in both groups. CONCLUSIONS: Our preliminary findings support the hypothesis that robot-assisted arm training might be a feasible tool for treating upper limb impairment in adult patients with distal radius fracture treated conservatively or surgically. CLINICAL REHABILITATION IMPACT: The treatment of arm impairment consequent to distal radius fractures by means of robot-assisted arm training may allow therapists to focus on functional rehabilitation during occupational (individual) therapy and supervise (more than one) patients simultaneously during robotic training sessions.

Combined effects of backward treadmill training and botulinum toxin type A therapy on gait and balance in patients with chronic stroke: A pilot, single-blind, randomized controlled trial.

BACKGROUND: Backward walking is recommended to improve the components of physiological gait in neurological disease. Botulinum toxin type A is an effective safe first line-treatment for post-stroke spasticity. OBJECTIVE: To compare the effects of backward treadmill training (BTT) versus standard forward treadmill training (FTT) on motor impairment in patients with chronic stroke receiving botulinum toxin type A therapy. METHODS: Eighteen chronic stroke patients were randomly assigned to receive BTT (n = 7) or FTT (n = 11) as adjunct to botulinum toxin type A therapy. A total of twelve 40-minute sessions (3 sessions/week for 4 weeks) of either BTT or FTT were conducted. A blinded assessor evaluated the patients before and after treatment. The primary outcome was the 10-meter Walking Test (10 MWT). Secondary outcomes were the modified Ashworth Scale, gait analysis, and stabilometric assessment. RESULTS: Between-group comparison showed a significant change on the 10 MWT (P = 0.008) and on stabilometric assessment [length of centre of pressure CoP (P = 0.001) and sway area (P = 0.002) eyes open and length of CoP (P = 0.021) and sway area (P = 0.008) eyes closed] after treatment. CONCLUSIONS: Greater improvement in gait and balance was noted after BTT than after FTT as an adjunct to botulinum toxin therapy in patients with chronic stroke.

Effects of robot-assisted gait training combined with virtual reality on motor and cognitive functions in patients with multiple sclerosis: A pilot, single-blind, randomized controlled trial.

BACKGROUND: Studies on robot-assisted gait training rehabilitation in multiple sclerosis have reported positive effects on mobility and quality of life. However, their effects on cognitive functions are difficult to determine because not all trials have included cognition assessments. Virtual reality-based training provides enhanced opportunity for stimulating cognitive abilities by repetitive practice, feedback information, and motivation for endurance practice. OBJECTIVE: To compare the effects of innovative robot-assisted gait training combined with virtual reality versus standard robot-assisted gait training on information processing speed, sustained attention, working memory, and walking endurance in patients with multiple sclerosis. METHODS: Seventeen outpatients were randomly assigned to receive robot-assisted gait training either with or without virtual reality. The robot assisted gait training + virtual reality group underwent end-effector system training engendered by virtual reality. The standard training group underwent end-effector system training. A blinded rater evaluated patients before and after treatment and at one month follow-up. The outcome measures were the Paced Auditory Serial Addition Test, Phonemic Fluency Test, Novel Task, Digit Symbol, Multiple Sclerosis Quality of Life-54, 2-Minutes Walk Test, 10-Meter Walking Test, Berg Balance Scale, gait analysis, and stabilometric assessment. RESULTS: Between-group comparisons showed a significant change on the 2-Minutes Walk Test (p = 0.023) after treatment in the robot-assisted gait training + virtual reality group. Significant improvement were obtained also in executive functions (p = 0.012). Both gains were maintained at the 1-month follow-up evaluation (p = 0.012, p = 0.012) in the robot-assisted gait training + virtual reality group. Both group improved quality of life after treatment (Multiple Sclerosis Quality of Life-54: Mental Health p = 0.018, Physical Health p = 0.017). CONCLUSIONS: Both training lead to positive influenced on executive functions. However larger positive effects on gait ability were noted after robot-assisted gait training engendered by virtual reality with multiple sclerosis. Robot-assisted gait training provides a therapeutic alternative and motivational of traditional motor rehabilitation.

Primary mitochondrial myopathy: Clinical features and outcome measures in 118 cases from Italy.

OBJECTIVE: To determine whether a set of functional tests, clinical scales, patient-reported questionnaires, and specific biomarkers can be considered reliable outcome measures in patients with primary mitochondrial myopathy (PMM), we analyzed a cohort of Italian patients. METHODS: Baseline data were collected from 118 patients with PMM, followed by centers of the Italian network for mitochondrial diseases. We used the 6-Minute Walk Test (6MWT), Timed Up-and-Go Test (x3) (3TUG), Five-Times Sit-To-Stand Test (5XSST), Timed Water Swallow Test (TWST), and Test of Masticating and Swallowing Solids (TOMASS) as functional outcome measures; the Fatigue Severity Scale and West Haven-Yale Multidimensional Pain Inventory as patient-reported outcome measures; and FGF21, GDF15, lactate, and creatine kinase (CK) as biomarkers. RESULTS: A total of 118 PMM cases were included. Functional outcome measures (6MWT, 3TUG, 5XSST, TWST, and TOMASS) and biomarkers significantly differed from healthy reference values and controls. Moreover, functional measures correlated with patients' perceived fatigue and pain severity. Patients with either mitochondrial or nuclear DNA point mutations performed worse in functional measures than patients harboring single deletion, even if the latter had an earlier age at onset but similar disease duration. Both the biomarkers FGF21 and GDF15 were significantly higher in the patients compared with a matched control population; however, there was no relation with severity of disease. CONCLUSIONS: We characterized a large cohort of PMM by evaluating baseline mitochondrial biomarkers and functional scales that represent potential outcome measures to monitor the efficacy of treatment in clinical trials; these outcome measures will be further reinvestigated longitudinally to define the natural history of PMM.

Effects of two different protocols of cerebellar transcranial direct current stimulation combined with transcutaneous spinal direct current stimulation on robot-assisted gait training in patients with chronic supratentorial stroke: A single blind, randomized controlled trial.

BACKGROUND: The neural organization of locomotion involves motor patterns generated by spinal interneuronal networks and supraspinal structures, which are approachable by noninvasive stimulation techniques. Recent evidences supported the hypothesis that transcranial direct current stimulation (combined with transcutaneous spinal direct current stimulation) may actually enhance the effects of robot-assisted gait training in chronic stroke patients. The cerebellum has many connections to interact with neocortical areas and may provide some peculiar plasticity mechanisms. So, it has been proposed as "non-lesioned entry" to the motor or cognitive system for the application of noninvasive stimulation techniques in patients with supratentorial stroke. OBJECTIVE: To compare the effects of two different protocols of cerebellar transcranial direct current stimulation combined with transcutaneous spinal direct current stimulation on robotic gait training in patients with chronic supratentorial stroke. METHODS: Forty patients with chronic supratentorial stroke were randomly assigned into two groups. All patients received ten, 20-minute robotic gait training sessions, five days a week, for two consecutive weeks. Group 1 underwent cathodal transcranial direct current stimulation over the contralesional cerebellar hemisphere + cathodal transcutaneous spinal direct current stimulation in combination with robotic training. Group 2 underwent cathodal transcranial direct current stimulation over the ipsilesional cerebellar hemisphere + cathodal transcutaneous spinal direct current stimulation in combination with robotic training. The primary outcome was the 6-minute walk test performed before, after, and at follow-up at 2 and 4 weeks post-treatment. RESULTS: No significant difference in the 6-minute walk test between groups was found at the first post-treatment evaluation (P = 0.976), as well as at the 2-week (P = 0.178) and the 4-week (P = 0.069) follow-up evaluations. Both groups showed significant within-group improvements in the 6-minute walk test at all time points.∥Conclusions: Our findings support the hypothesis that cathodal transcranial direct current stimulation over the contralesional or ipsilesional cerebellar hemisphere in combination with cathodal transcutaneous spinal direct current stimulation may lead to similar effects on robotic gait training in chronic supratentorial stroke patients.

Anatomical landmarks for tibial nerve motor branches in the management of spastic equinovarus foot after stroke: An ultrasonographic study.

OBJECTIVE: To identify the anatomical landmarks of tibial motor nerve branches to the gastrocnemii, soleus and tibialis posterior muscles for selective motor nerve blocks in the management of spastic equinovarus foot. DESIGN: Observational study. PATIENTS: Twenty-five chronic stroke patients with spastic equinovarus foot. METHODS: Motor nerve branches to the gastrocnemii, soleus and tibialis posterior muscles were tracked in the affected leg, using ultrasonography, and located in the space (vertical, horizontal and deep) according to the position of the fibular head (proximal/distal) and a virtual line from the middle of the popliteal fossa to the Achilles tendon insertion (medial/lateral). RESULTS: Mean coordinates for the gastrocnemius medialis motor branch were: 1.5 cm (standard deviation (SD) 2.7) vertical (proximal), 1.7 cm (SD 1.3) horizontal (medial), 1.1 cm (SD 0.4) deep; for the gastrocnemius lateralis motor branch: 0.9 cm (SD 2.2) vertical (proximal), 1.8 cm (SD 1.7) horizontal (lateral), 1.0 cm (SD 0.3) deep; for the soleus motor branch: 1.4 cm (SD 1.1) vertical (distal), 1.6 cm (SD 0.7) horizontal (lateral), 2.8 cm (SD 0.7) deep; and for the tibialis posterior motor branch: 4.3 cm (SD 1.5) vertical (distal), 1.9 cm (SD 0.9) horizontal (lateral), 4.2 cm (SD 0.8) deep. CONCLUSION: These findings may help in the identification of tibial motor nerve branches to the gastrocnemii, soleus and tibialis posterior muscles for selective motor nerve blocks in the management of spastic equinovarus foot.

Effects of Robot-Assisted Training for the Unaffected Arm in Patients with Hemiparetic Cerebral Palsy: A Proof-of-Concept Pilot Study.

On a voluntary basis, 10 adolescents with hemiparesis due to cerebral palsy and 11 neurologically healthy control subjects participated in this proof-of-concept pilot study. The aim was to examine the effects of robot-assisted training for the unaffected arm in patients with hemiparetic cerebral palsy. Baseline comparison between the unaffected arm of the hemiparetic patients with cerebral palsy and the dominant arm of healthy control subjects showed significant differences on the Jebsen-Taylor Hand Function test and action planning ability tests. Within-group comparison after ten 30-minute sessions (five days a week for two consecutive weeks) of robot-assisted training for the unaffected arm showed significant improvements in patients with cerebral palsy on the Jebsen-Taylor Hand Function test (performed at both hands) and action planning ability test (evaluated at the unaffected arm). Our findings are in line with previous evidences of action planning deficits at the unaffected arm in patients with hemiparetic cerebral palsy and support the hypothesis that robot-assisted training for the unaffected arm may be useful to improve manual dexterity and action planning in patients with hemiparesis due to cerebral palsy.