Effects of Delayed-Onset Muscle Pain on Respiratory Muscle Function.

BACKGROUND: Delayed-onset muscle soreness (DOMS) has been widely examined in the peripheral muscles; however, studies showing the potential effects of DOMS on respiratory function are limited. HYPOTHESIS: DOMS in trunk muscles has a negative effect on respiratory function parameters, respiratory muscle strength, respiratory muscle endurance, and exercise capacity. STUDY DESIGN: Prospective cohort study. LEVEL OF EVIDENCE: Level 2. METHODS: In 24 healthy participants with a mean age of 21 ± 2 years, DOMS was induced for the trunk muscles with a load equal to 80% of the maximum repetitive voluntary contraction. Pulmonary function parameters, respiratory muscle strength and endurance, exercise capacity, pain, fatigue, and dyspnea perception severity were recorded before DOMS and at 24 and 48 hours after DOMS. RESULTS: After DOMS, decreases were observed in respiratory function parameters, namely, forced vital capacity, forced expiratory volume in the first second, vital capacity, and 25% to 75% flow rate value of forced expiratory volume (25% to 75%) (P = 0.02, P = 0.02, P < 0.01, P = 0.01, respectively). Maximal inspiratory pressure and exercise capacity also decreased (P = 0.02, P < 0.01, respectively). No difference was observed between all 3 measurements of maximal expiratory pressure (MEP) and MEP% values (P1 = P2 = P3 ≥ 0.99). The results of the respiratory muscle endurance tests did not reveal a significant difference in terms of load and time in all 3 conditions (P > 0.05). CONCLUSION: After DOMS, there was a 4% to 7.5% decrease in respiratory function parameters, and a 6.6% decrease in respiratory muscle strength. CLINICAL RELEVANCE: The occurrence of DOMS before a competition can have a detrimental impact on pulmonary performance. Hence, it is imperative to consider this factor when devising training and exercise programs. In addition, the development of treatment protocols becomes crucial if DOMS arises.

The impact of protrusion size on pain, range of motion, functional capacity, and multifidus muscle cross-sectional area in lumbar disc herniation.

OBJECTIVE: To investigate the effect of protrusion amount on pain, lumbar mobility, physical dysfunction, and the cross-sectional area of the multifidus muscle in patients with lumbar disc herniation. METHODS: 54 male patients aged 20 to 50 years were included in this study in 2 groups. The control group (n = 18) consisted of patients with disc herniation without nerve root compression, and the study group (n = 36) consisted of patients with lumbar disc herniation and nerve root compression in 3 subgroups according to the amount of protrusion. The multifidus muscle cross-sectional area and the amount of protrusion were measured using Magnetic Resonance Imaging. Pain intensity was measured using the Visual Pain Scale, physical dysfunction was measured using the Oswestry Disability Index, flexion-extension was measured with TiltMeter, and trunk rotation was measured with smartphone applications called iPhone Compass. RESULTS: There were no differences in pain levels (P > .05), mean trunk rotation movements of the affected and unaffected sides (P = .001, P = .001, P = .983, and P = .954, respectively), Oswestry Disability Index results (P = .967), or cross-sectional area sizes of the multifidus muscle (P = .866, P = .552, P = .787, respectively). There was a difference between the groups in terms of the mean trunk flexion and extension movement values (P = .001). The regression analysis indicated that there was no significant correlation between the binary variables, and the models exhibited a low explanatory rate for the dependent variable. CONCLUSION: A relationship has been identified between lumbar disc herniation and low back pain, lumbar movement limitation, and physical functionality. Nevertheless, subsequent to the regression analysis, it became evident that the binary variables did not exhibit a noteworthy relationship, leading to a decrease in the explanatory capacity of the models for the dependent variable. In forthcoming studies, it is advisable to contemplate the augmentation of the subject pool or the incorporation of multiple independent variables into the regression analysis as potential strategies to enhance the model capability in elucidating variations in the dependent variable.

The effects of Robot-assisted gait training and virtual reality on balance and gait in stroke survivors: A randomized controlled trial.

BACKGROUND: Stroke survivors often experience balance and gait problems, which can affect their quality of life and independence in daily living activities. Robot-assisted gait training, such as Lokomat with virtual reality, has been found to be effective in improving gait and balance. However, the specific effects of each virtual reality application on balance and spatiotemporal parameters of gait are not yet established. This study aims to investigate the effects of different virtual reality applications on these parameters. RESEARCH QUESTION: What are the specific effects of each Lokomat augmented performance feedback application on balance and spatiotemporal parameters of gait in stroke survivors? METHODS: The study is a randomized controlled trial conducted with four groups: Control Group, Endurance Group, Attention and Motivation Group, and Activity Timing Group. All participants received six weeks of physiotherapy, and Lokomat groups had additional robot-assisted gait training with Lokomat for three days a week. The Endurance group used Lokomat with Faster, Attention and Motivation Group with Gabarello and Smile, and Activity Timing Group with Curve Pursuit, Treasures, and High Flyer applications. Various tests were used to assess walking and balance in the study (gait analysis, 6-minute walk test, 10-meter walk test, Berg Balance Scale, postural stability, and limits of stability). RESULTS AND SIGNIFICANCE: The study involved 56 male stroke survivors (mean age: 60.02 ± 6.83 years, post-stroke time: 238.88 ± 40.88 days). All groups improved walking speed and distance significantly, but Endurance was better (p < 0.001). Balance improved significantly in all groups, but Attention and Motivation was superior in Berg Balance Scale, postural stability, and limits of stability (p < 0.001). The selection of virtual reality applications during robot-assisted gait training according to rehabilitation goals is important for successful rehabilitation, as these applications may have varying effects on balance and walking.

Effect of Q-angle, lateral distal tibial angle and hip muscle torques on ankle injury.

BACKGROUND: The ankle sprain is the most common ankle injury. Although the factors that increase the risk of ankle injury are included in the literature, the definitive evidence is controversial. OBJECTIVE: The aim of our study was to examine whether Q-angle, lateral distal tibial angle (LDTA), and hip muscle torque are associated with ankle sprain. METHODS: Thirty-six individuals who underwent an axial X-ray examination of the lower extremity following ankle sprain were included. The Q-angle and LDTA were measured on the axial knee X-rays on both sides. The isometric muscle strength was measured with a digital handheld dynamometer for the quadriceps femoris muscle, the gluteus medius muscle and the gluteus maximus muscle. Muscle torques were calculated by multiplying isometric muscle strength values with the distance to the joint center. RESULTS: Discrimination analysis shows that the gluteus maximus (0.90), gluteus medius (0.49), quadriceps femoris muscle torques (0.34), and lateral distal tibial angle (0.43) were the factors that most contributed to ankle sprain. No significant relationship was found between the Q-angle and ankle sprain (p = 0.603). A strong relationship was found between LDTA, quadriceps femoris, gluteus medius and gluteus maximus muscle torques and ankle sprain (p = 0.014, p < 0.001, p = 0.011, p = 0.002, respectively). CONCLUSIONS: In conclusion, the torques of the proximal muscle may be more related than the Q-angle to lateral ankle sprain injury. Individuals with high LDTA should also be carefully examined for the risk of ankle sprain.

Comparison of the Effectiveness of Kinesiology Taping and Rigid Taping on Ankle Kinematics During Drop Landing in Individuals with Lateral Ankle Injury.

BACKGROUND: Lateral ankle sprain is an injury that often occurs during sports or daily life activities. Athletic tape and kinesiology tape applications are among the external support treatment options especially for athletes to support the ankle and protect it from recurrent sprains. We sought to compare the kinematic stabilization effects of different ankle taping applications on the ankle joint during drop landing in individuals with a history of unilateral lateral ankle injury. METHODS: In this randomized controlled study, 30 volunteers with unilateral ankle injury were evaluated. The participants were asked to land on one leg on the involved side and the contralateral side from a 30-cm-high platform. The same practice was repeated after applying kinesiology tape and rigid tape to the injured foot. Kinematic analysis of the foot and ankle was performed by recording three-dimensional spatial position information at a speed of 240 frames per second using infrared cameras. RESULTS: The highest inversion angles of the involved foot at initial contact and 150 msec after initial contact were higher than those of the uninvolved side (P = .03 and P = .04, respectively). There was no significant difference in ankle kinematic values in the involved foot among kinesiology taping, athletic taping, and no taping applications (P = .74). CONCLUSIONS: People with lateral ankle sprains show reduced inversion during landing. There were no significant differences among kinesiology taping, athletic taping, and no taping on the injured foot in terms of ankle kinematics. Care should be taken when using taping materials as protective measures for sports activities.

The effects of progressive neuromuscular exercise program and taping on muscle strength and pain in patellofemoral pain. A randomized controlled blind study.

PURPOSE: To investigate the effects of corrective kinesio taping applied on patellofemoral and foot joint in addition to a progressive neuromuscular exercise program in women with Patellofemoral Pain (PFP) on knee pain and muscle strength. METHODS: Thirty females (20-45 years), diagnosed with unilateral PFP were randomly divided into two groups: the exercise (n = 15) and the exercise and taping (n = 15). Both groups performed three-stage progressive neuromuscular exercises for 12 weeks as home exercises. Plantar and knee corrective taping was additionally applied to the exercise and taping group. The knee pain was measured using the Visual Analogue Scale (VAS) during stair ascending and descending. Isokinetic dynamometer was used to evaluate the isokinetic muscle strength of the hamstring and quadriceps femoris muscles. All assessments were conducted before the treatment, at the end of the 6th-week treatment, and at the end of the 12th week of the treatment. RESULTS: After intervention, pain, and muscles peak torque were improved in all groups (p ˂ 0.05). The decrease in pain and the increase in quadriceps and hamstring muscle peak tork were found to be significant for both groups (p < 0.05). In the taping group, the decrease in pain during stair descending and the increase in hamstring muscle tork were higher than that of the exercise group (p < 0.05). CONCLUSION: In order to reduce pain in a short time and control it in the long term, it will be beneficial to tape the knee and foot in addition to neuromuscular exercises.

The effect of elastic therapeutic taping and rigid taping on pain, functionality, and tissue temperature in lumbar radiculopathy: a randomized controlled study.

PURPOSE: To compare the therapeutic effects of different taping materials and techniques on pain, functionality, and tissue temperature in patients with lumbar radiculopathy. Methods: Patients with lumbar radiculopathy were included in the study (n = 51). Patients were randomly divided into three groups, which were the elastic taping (n = 17), rigid taping (n = 17), and placebo taping groups (n = 17). All patients were enrolled in a physiotherapy and rehabilitation program that included thermotherapy, electrotherapy, and exercise five times a week for 2 weeks. The pain was measured before and after treatment using the Visual Analogue Scale. Functionality and quality of life were measured using the Oswestry Low Back Pain Disability Questionnaire and Roland-Morris Disability Questionnaire. The tissue temperature of the treated area in the lumbar region was measured by digital electronic infra-red thermography. Results: After the treatment, pain, functionality, and quality of life were improved in all groups (p < 0.05). Elastic taping was more effective in decreasing pain and increasing functionality than placebo taping (p < 0.05), but no difference was observed between placebo taping and rigid tapping. Local tissue temperature did not change before and after treatment in the elastic taping group (p > 0.05). Tissue temperature increased in the rigid and placebo taping groups (p < 0.05). Conclusion: Taping therapy in patients with lumbar radiculopathy has a positive effect on pain and functional status. Elastic taping can be recommended for clinical use because its effect is superior in some recovery parameters and its ease of use.