Background: Mobilization with movement (MWM) is an effective intervention for increasing range of motion (ROM) and function without pain. Objectives: The purpose of this study is to comprehensively characterize the functional effects of MWM applied to the ankle joint in patients with stroke. Design: Systematic Review and Meta-analysis. Methods: International electronic databases, CINAHL, Embase, MEDLINE, PubMed, and Google scholar were included and identified after review by two investigators in July 2023 according to PRISMA guidelines. Data were synthesized using software provided by Cochran and analyzed using a random effects model with reweighting to account for heterogeneity between participants. Results: After excluding duplicate studies, 14 of the 19 articles screened through the abstracts were excluded, resulting in a total of five studies involving 109 participants with stroke. MWM showed significant differences in ankle ROM [overall effect (Z=3.27, P=0.00)], gait speed [overall effect (Z=3.33, P=0.00)], and cadence [overall effect (Z=2.49, P=0.01)]. Conclusion: The results of the meta-analysis confirmed that MWM is effective in improving ankle ROM and gait parameters in patients with stroke.
Background: Kinesio taping is being applied to improve ankle dorsiflexion in stroke patients. Currently, the elasticity of kinesio taping is applied in various ways. Objectives: To investigated the effect of tibialis anterior kinesio taping elasticity level on gait speed in stroke patients. Design: A randomized cross-over pilot study. Methods: A total of 12 study subjects were allowed to experience three conditions within a single group. The three conditions are strong elastic taping condition, weak elastic taping condition, and non-elastic taping condition. Study subjects were randomly assigned to each condition sequentially. For the evaluation, gait variables (cadence, gait speed, stride length) were measured 24 hours after applying the taping appropriate for each condition. Results: The strong elastic taping condition significantly increased gait variables compared to the weak elastic taping and non-elastic taping conditions (P<.05). Weak elastic taping significantly increased gait variables compared to non-elastic taping (P<.05). Conclusion: As tibialis anterior kinesio taping elasticity increased, gait variables significantly improved in stroke patients.
Background: Stroke patients experience a variety of physical problems due to neurological problems, including difficulties with trunk control. Trunk taping is used to improve gait in stroke patients. Objectives: To investigated the immediate effect of thoracic and abdominal elastic taping on gait parameters (the dynamic balance and gait speed) in stroke patients. Design: Quasi experimental study. Methods: A total of 24 study subjects were randomly assigned to the experimental group (thoracic and abdominal taping, 12 people), and the control group (sham taping, 12 people). All subjects had timed up and go (TUG) test and 10 meter walk test (10MWT) measured before and after taping. Results: After taping, the TUG test and 10MWT results were significantly reduced only in the study group (P<.05). The TUG test and 10MWT results of the study group were significantly decreased compared to the control group. Conclusion: The thoracic and abdominal taping was found to improve trunk control in stroke patients, thereby improving dynamic balance and walking speed.
Background: Core muscle weakness occurs due to trunk asymmetry and spinal malalignment after stroke. Core exercise is being implemented to improve trunk control and sitting position in stroke patients.
Objectives: To investigated the effects of core muscle electrical stimulation on trunk control and dynamic balance in stroke patients.
Design: Quasi-experimental study.
Methods: A total of 30 stroke patients were recruited and divided into two groups: experimental group (core muscle electrical stimulation group) and control group (sham core muscle electrical stimulation group). Trunk impairment scale (TIS) was used to measure trunk control. BioRescue was used to measure sitting dynamic balance.
Results: In both groups, all TIS scores and sitting dynamic balance abilities were improved increased significantly after intervention (P<.05). Changes in TIS scores and sitting dynamic balance abilities were significantly greater in the experimental group than the control group (P<.05).
Conclusion: It was found that core muscle electrical stimulation can be used as an effective method for trunk control and balance recovery in stroke patients.
Background: In order to improve the daily life of stroke patients, it is necessary to restore walking performance. Improving gait performance is one of the main goals for stroke rehabilitation.
Objectives: To investigate the change in gait parameters through evaluation of one stroke patient before, during, and after wearing the weight vest.
Design: A case study.
Methods: This study is an ABA study design. In principle, one assessment per day (A1) was measured three times without wearing the weight vest. Intervention assessment (B) was performed 6 times while wearing the weight vest. The second baseline evaluation (A2) was measured three times with the weight vest removed again.
Results: The gait speed was increased when the weight vest was removed than when the weight vest was worn. Also, gait symmetry increased when wearing the weight vest.
Conclusion: Wearing the weight vest can reduce the gait asymmetry in stroke patients and increase the gait speed after wearing the weight vest.
Background: Women patients who have undergone high tibial osteotomy need management to control walking and balance and to enable functional daily life. In that way, land-based physical therapy and aquatic physical therapy were performed.
Objectives: To investigated the effect of land-based and aquatic physical therapy on the balance and walking of women who had undergone high tibial osteotomy.
Design: Randomized control trial.
Methods: In all, this randomized controlled trial enrolled 21 patients with high tibial osteotomy who received land-based physical therapy (LP, n=7), aquatic physical therapy (AP, n=7), and land-based and aquatic physical therapy (LAP, n=7). Single-leg standing balance, 10-m walk test, and Knee injury and Osteoarthritis Outcome (KOOS-12) scores were. The intervention period was 3 days per week for 6 weeks. Results: One-leg standing balance and 10-m walk test increased statistically, and KOOS-12 score also increased statistically. All three groups have improved. As a result, the variable changes were compared in three groups, and although there was no significant difference between the land-based and aquatic physical therapy groups, the land-based and aquatic physical therapy combined programs improved further than the previous two groups.
Conclusion: The balance and walking of female patients with high tibial osteotomy were found to have been very effective in land physical therapy and aquatic physical therapy. In addition, the land-based and aquatic physical therapy combination program can improve balance and walking more effectively.
Background: Forward head posture leads to resulting in posture instability and changes in spine alignment. To treat this condition, numerous studies have shown the effectiveness of joint mobilization. However, only a few studies have reported on the intervention location of joint mobilization or its effects on heart rate variability. Objectives: To investigated the effects of joint mobilization intervention at the lower cervical spine on pain, head posture, and heart rate variability (HRV) in patients with a forward head posture. Design: A randomized controlled trial. Methods: Twenty patients with forward head postures who met the study inclusion criteria were recruited. A randomization program was used to divide the subjects into experimental and control groups. Each group consisted of ten subjects. The intervention was performed for four weeks, three sessions per week, 15 min per day, and non-simultaneously throughout the 12-week study period. Results: A significant decrease in neck pain was shown in both the experimental and control groups. In contrast, significant changes in craniovertebral angle (CVA), cranial rotation angle (CRA), and HRV were found only in the experimental group. Conclusion: The mobilization of the cervical spine is an effective intervention for improving pain, head posture, and HRV.
Background: Stroke patients have dosiflexor weakness. Functional electrical stimulation (FES) for motor and sensory threshold stimulation has been applied to patients with stroke.
Objectives: To investigate effects of FES intervention for motor and sensory threshold on balance and gait in subacute patients with stroke.
Design: A randomized controlled trial.
Methods: In all, 34 patients with subacute stroke were recruited and randomly assigned to the motor threshold (MTG, n=17) and sensory threshold group (STG, n=17). The measured variables were static balance (BioRescue), dynamic balance (BBS), and gait (TUG test). The study period was 5 weeks, twice a day, 5 days a week.
Results: There was a significant difference in all variables except the speed variable (open eye Romberg test) after the intervention; MTG improved more significantly except for the speed variable of the Romberg test (open eye). BBS score increased significantly only in the MTG group after the intervention, and the increase was more significant in the MTG group than in the STG group. The TUG test significantly decreased in both groups after the intervention, and the decrease was more significant in the MTG group than in the STG group.
Conclusion: FES for motor threshold applied to patients with subacute stroke appears to be more effective in improving balance and gait ability than FES for sensory threshold.
Background: More women than men experience genu recurvatum, which can lead to knee pain and arthritis if left unattended. Pilates combined with taping is a suitable rehabilitation method for women with genu recurvatum.
Objectives: To aimed the effect of taping and Pilates stabilization exercise on physical alignment and improvement of genu recurvatum in women with genu recurvatum.
Design: A Randomized controlled trial.
Methods: Twenty-one women were divided into three groups: taping group (back of knee taping and quadriceps femoris taping, n=7), Pilates exercise group (hip, knee and abdominal muscles exercise, n=7), and combined group (taping with pilates exercise, n=7). The measured variables were sagittal plane alignment and back and abdominal muscle, knee flexor and extensor strength.
Results: After the intervention, all sagittal plane alignments were significantly improved in both the Pilates and combined groups. Sagittal plane alignment was significantly improved in the combined group compared with the taping group. Back and abdominal muscle strength were significantly improved in the Pilates and combined groups compared with the taping group. Knee flexor and extensor were significantly improved in the combined group compared with the Pilates group and in the Pilates group compared with the taping group.
Conclusion: Pilates exercise with taping or Pilates exercise alone was effective intervention methods to improve physical alignment and strength in women with genu recurvatum.
Background: Exercise is necessary for the health of companion dogs. It is necessary to determine the relationship between height, weight, age and amount of exercise for the purpose of companion dog's health.
Objectives: A survey was conducted in this study to small-dog owners living in Yongin city, Gyeonggi-do about their canine healthcare awareness. Design: Questionnaire design.
Methods: The questionnaire was composed of exercise amount, type of exercise, and the necessity of exercise, general health condition, and environment. A total of 139 survey results were obtained. The average value of each item was analyzed and expressed in terms of frequency and percentage. Then, Pearson's correlation coefficients were used to find the relationship between these items.
Results: The weight and height were not shown to have a significant difference in the amount of exercise in the results. The weight had a weak positive correlation with “exercise time of canine per day”. The age had a weak negative correlation with “the number of canine exercise per week” and “frequency of canine exercise per day”, while it had a weak positive correlation with “selfassessment of canine lack of exercise”.
Conclusion: Based on this study, it is believed that in the future, various environments where dogs can exercise are believed to be necessary for the era of convergence.
Background: Weakness of the abdominal and mid thoracic muscles the lead to thoracic kyphosis of stroke patients. The trunk muscles activity of stroke patients is significantly related to upper extremity.
Objectives: To investigate the effect of seated exercise of thoracic and abdominal muscles on upper extremity function and trunk muscles activity in stroke patients.
Design: One-group pretest-posttest design.
Methods: A total of 27 stroke patients were recruited. All stroke patient were given seated abdominal exercise (posterior pelvic tilt exercises) and thoracic exercise (postural-correction exercise). All exercises were conducted for 30 minutes, three times a week for four weeks. The manual function test (MFT) and electromyography (EMG) were measured, and EMG electrodes were attached to thoracic paraspinal muscles and lower rectus abdominal muscles. EMG signal is expressed as %RVC (reference voluntary contraction).
Results: Experimental group showed significant increases in abdominal muscles, paraspinal muscles activity and MFT total score, items of arm motion (forward elevation of the upper extremity, lateral elevation of the upper extremity, touch the occiput with the palm) in MFT after four weeks.
Conclusion: These results suggest that, in stroke patients, seated exercise of thoracic and abdominal muscles contribute to improve trunk muscles activity and upper extremity function in stroke patients.
Background: Weakness of the trunk muscles decreases the trunk control ability of stroke patients, which is significantly related to balance and gait. Objectives: To compare the impact of diagonal pattern self-exercise on an unstable surface and a stable surface for trunk rehabilitation on trunk control, balance, and gait ability in stroke patients. Design: Nonequivalent control group design. Methods: Twenty four participants were randomized into the experimental group (diagonal pattern self-exercise while sitting on an unstable surface, n=12) and the control group (diagonal pattern self-exercise while sitting on a stable surface, n=12). All interventions were conducted for 30 minutes, three times a week for four weeks, and the trunk impairment scale (TIS), berg balance scale (BBS), functional gait assessment (FGA), and G-walk were measured. Results: All groups indicated significant increases in all variables (TIS, BBS, FGA, cadence, speed, stride length) after four weeks. The TIS, BBS, FGA, cadence, gait speed, and stride length group-by-time were significantly different between the two groups. Conclusion: We found that, in stroke patients, diagonal pattern self-exercise on an unstable surface is a more effective method for improving trunk control, balance, and gait ability than diagonal pattern self-exercise on a stable surface.
Background: Stroke patients have leg muscle weakness and impaired balance resulting in compensatory changes. To restore balance in these patients, functional training using postural strategy is needed.
Objective: To examine the effects of ankle and hip strategy training on the center of pressure (COP) movement and limits of stability (LOS) in standing posture in stroke patients. Design: The study was an assessor-blinded and randomized-controlled clinical trial.
Methods: Thirty patients were randomly assigned to an ankle strategy training group and a ankle/ hip strategy training group. Patients in the ankle strategy training group underwent ankle strategy exercise for 30 min, and those in the ankle/ hip strategy training group underwent 15 min of ankle strategy exercise and 15 min of hip strategy exercise. Both groups underwent training thrice a week for four weeks. Forward, backward, paretic side, and non-paretic side COP movements and LOS were measured using BioRescue.
Results: After the intervention, except for the backward area in the ankle strategy training group, the COP movement area and the LOS were significantly improved in both the groups. In addition, these improvements were significantly higher in ankle/ hip strategy training group than that in the ankle strategy training group.
Conclusions: Ankle strategy training in addition to hip strategy training improves COP movement (forward-backward, paretic side area, and nonparetic side area) and LOS in stroke patients.
Background: A number of researchers have attempted to improve the balance of stroke patients, however there is still a question as to whether taping is effective in increasing balance.
Objective: To determine the effect of paretic and non-paretic side taping on the balance ability in patients with stroke.
Design: A single-blind randomized controlled trial
Methods: This randomized single-blind controlled clinical trial with a repeated measures study included 45 subjects who were randomly assigned to paretic side taping groups (n=15), non-paretic side taping groups (n=15), and trunk exercise groups (n=15). Trunk exercise and paretic side taping groups had taping on the paralyzed erector spinae, while the non-paretic side taping group had taping on the non-paralyzed erector spinae. Trunk exercises were performed for 30 minutes to promote core muscles. The balance ability measured the center of pressure movement (paretic side, non-paretic side,forward, backward, limit of stability) in the sitting position. All measurements were evaluated using BioRescue.
Results: All three groups showed significant increase in all variables after 4 weeks. The paretic and non-paretic side taping groups had a significant increase in all variables after 30 min of attachment. However, there was no significant difference among the three groups.
Conclusions: Paralysis and non-paralysis taping improved the balance ability of patients with stroke in an immediate effect of 30 min. However, after 4 weeks of intervention, taping with trunk exercise did not differ from single trunk exercise. In future studies, various analyses need to be conducted through more diverse evaluations.
Background: Stroke patients usually have arm weakness, which affects trunks and arms. Objective: To investigate the effects of paretic side and non-paretic side arm training on trunk control and upper limb functions.
Design: Randomized Controlled Trial (single blind).
Methods: Twenty patients with stroke in hospital were enrolled in the study. Twenty subjects were randomly assigned to paretic side arm training group (PATG, n = 10) or non-paretic side arm training group (NATG, n = 10). Trunk impairment scale (TIS) was used for trunk control, and box and block test (BBT) was used for upper limb function. Training was conducted for 4 weeks.
Results: PATG showed significant difference in TIS (static balance, dynamic balance, coordination, total score) and BBT. NATG showed significant differences in static balance, and dynamic balance and total score except for coordination and BBT. PATG also showed a more significant difference in BBT and coordination and total score than NATG.
Conclusions: The arm training performed on the paretic side are more effective than those performed on the non-paretic side in improving both upper limb function and trunk control in stroke patients.