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1. Exploring the use of bimodal transcranial direct current stimulation to enhance movement in individuals with patellofemoral pain—A sham-controlled double blinded pilot study

Author

Kai-Yu Ho, Connan Wallace, Jeno Aquino, Bryce Broadwell, Makenzie Whimple, and Jing Nong Liang

Subjects
patellofemoral pain, transcranial direct current stimulation, knee valgus, non-invasive brain stimulation, cortical excitability, central activation, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

IntroductionIn individuals with patellofemoral pain (PFP), addressing increased knee valgus during weight-bearing activities typically involves strengthening weak hip muscles. However, recent literature highlights the role of altered descending central control in abnormal movements associated with PFP. While transcranial direct current stimulation (tDCS) has demonstrated the capacity to enhance neuroplasticity, its application targeting the corticomotor function of gluteal muscles in PFP remains unexplored. This study aimed to investigate the effects of combining bimodal tDCS with exercise on frontal plane kinematics in individuals with PFP. The hypothesis was that bimodal tDCS, specifically targeting the corticomotor function of the gluteal muscles, would augment the effectiveness of exercise interventions in improving frontal plane kinematics compared to sham stimulation.MethodsTen participants with PFP participated in two sessions involving either bimodal tDCS or sham stimulation, concurrently with hip strengthening exercises. Weight-bearing tasks, including single leg squat, single leg landing, single leg hopping, forward step-down, and lateral step-down, were performed and recorded before and after each session. Pain visual analog scale (VAS) scores were also documented. A one-way ANOVA with repeated measures was employed to compare kinematics, while a Friedman test was used to compare VAS across the three conditions (pre-test, post-tDCS, and post-Sham).ResultsWe observed no significant differences in trunk lean angle, hip and knee frontal plane projection angles, or dynamic valgus index among the three conditions during the five weight-bearing tasks. VAS scores did not differ across the three conditions.Discussion and conclusionA single session of tDCS did not demonstrate immediate efficacy in enhancing frontal plane kinematics or relieving pain in individuals with PFP. Considering observed positive outcomes in other neurological and orthopedic populations with multi-session tDCS applications, suggesting potential cumulative effects, further research is essential to explore the effects of multi-session tDCS on weight-bearing movement and underlying neurophysiology in individuals with PFP.

Published
2024
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2. Altered Achilles tendon morphology in individuals with chronic post-stroke hemiparesis: a case report

Author

Jing Nong Liang and Kai-Yu Ho

Subjects
Post-stroke hemiparesis, Walking speed, Sonography, Achilles tendon, Case report, Medical technology, R855-855.5
Abstract

Abstract Background Individuals post-stroke walk slowly and with more effort, which puts them at higher risks for falls. The slow walking speed results from insufficient propulsive forces generated by the paretic leg. Current rehabilitative efforts to improve walking function target increasing propulsive forces, but overlook the muscle-tendon unit. Case presentations Two individuals with chronic post-stroke hemiparesis are presented. In both individuals post-stroke, paretic ankle plantarflexors presented with increased muscle tone. Gait kinetics revealed asymmetric propulsive forces, specifically, insufficient propulsive forces by the paretic legs, consistent with previous literature. Sonography revealed increased thickness of paretic Achilles tendon at the calcaneal insertion, in both stroke cases, in contrast to comparable Achilles tendon thickness between limbs in the non-neurologically impaired controls. Conclusion Tendon unit integrity should be considered in individuals post-stroke who demonstrate abnormal muscle tone and insufficient propulsion during gait.

Published
2020
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3. Brain and Spinal Cord Adaptations Associated With Patellofemoral Pain: A Systematic Review and Meta-Analysis

Author

Kai-Yu Ho, Jing Nong Liang, Savanna Budge, Austin Madriaga, Kara Meske, and Derrick Nguyenton

Subjects
patellofemoral pain, spinal cord, H-reflex, brain, corticospinal excitability, neurophysiological adaptation, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571, Neurology. Diseases of the nervous system, RC346-429
Abstract

ObjectiveTo evaluate the evidence for altered cortical and spinal cord functions in individuals with patellofemoral pain (PFP).MethodsWe conducted a comprehensive search of databases to appraise and analyze the studies published prior to December 10, 2021 that examined spinal reflex excitability measured using Hoffmann reflex (H-reflex) amplitudes, corticospinal excitability measured using transcranial magnetic stimulation (TMS)-elicited motor evoked potential (MEP) amplitudes, motor threshold (MT), or stimulus-response (SR) curves, cortical reorganization assessed using TMS cortical mapping or structural magnetic resonance imaging (MRI), or functional changes of the brain assessed using functional MRI (fMRI) in individuals with PFP.ResultsEight studies were eligible for analyses. While an earlier study showed that pain had no effect on the H-reflex amplitude of the quadriceps muscle, more recent evidence reported a decrease in vastus medialis (VM) H-reflex amplitude in participants with PFP. VM H-reflex amplitude was correlated with pain, chronicity, physical function, and isometric knee extensor torque production in participants with PFP. Altered corticospinal excitability was reported in participants with PFP, observed as increased MT in the VM and vastus lateralis (VL) muscles. In addition, cortical reorganization has been observed, where decreased number of cortical peaks, shifts and reduced volumes, and increased overlap of motor cortex representations for the VM, VL, and rectus femoris (RF) muscles were reported in participants with PFP.ConclusionThere is emerging evidence on altered cortical and spinal cord functions in individuals with PFP, however, solid conclusions cannot be drawn due to limited literature available. Further research is needed to better understand the adaptations of the brain and spinal cord in this population.Systematic Review Registrationhttps://www.crd.york.ac.uk/prospero/, identifier: CRD42020212128.

Published
2022
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4. Neurophysiological changes of brain and spinal cord in individuals with patellofemoral pain: a systematic review and meta-analysis protocol

Author

Jing Nong Liang, Savanna Budge, Austin Madriaga, Kara Meske, Derrick Nguyenton, and Kai-Yu Ho

Subjects
Medicine
Abstract

Introduction Reduced neuromuscular control due to altered neurophysiological functions of the central nervous system has been suggested to cause movement deficits in individuals with patellofemoral pain (PFP). However, the underlying neurophysiological measures of brain and spinal cord in this population remain to be poorly understood. The purpose of this systematic review is to evaluate the evidence for altered cortical and spinal cord functions in individuals with PFP.Methods and analysis The protocol for conducting the review was prepared using the Preferred Reporting Items for Systematic Review and Meta-Analysis Protocols guidelines. We will systematically search the literature that examines cortical and spinal cord functions in individuals with PFP, aged 18–45 years. The studies for cross-sectional, prospective, longitudinal, case–control and randomised control trial designs will be included from the following databases: PubMed (MEDLINE), EMBASE and Web of Science. Only studies published in English prior to 1 February 2021 will be included. The risk of bias and quality assessment will be performed using National Institutes of Health’s Quality Assessment Tool for Observational Cohort and Cross-Sectional Studies. We will conduct meta-analysis of the data where appropriate. Narrative synthesis will be taken if a meta-analysis is not possible.Ethics and dissemination This is a systematic review from the existing literature and does not require ethical approval. The results of this study will be published in a peer-reviewed journal in the field of rehabilitation medicine, sports/orthopaedic medicine or neurology, regardless of the outcome.PROSPERO registration number CRD42020212128.

Published
2021
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6. Immediate Effects of Anodal Transcranial Direct Current Stimulation on Postural Stability Using Computerized Dynamic Posturography in People With Chronic Post-stroke Hemiparesis

Author

Jing Nong Liang, Leonard Ubalde, Jordon Jacklin, Peyton Hobson, Sara Wright-Avila, and Yun-Ju Lee

Subjects
transcranial direct current stimulation, post-stroke hemiparesis, postural control, dynamic posturography, center of gravity, fear of falling, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Postural stability is commonly decreased in individuals with chronic post-stroke hemiparesis due to multisystemic deficits. Transcranial direct current stimulation (tDCS) is a non-invasive method to modulate cortical excitability, inducing neuroplastic changes to the targeted cortical areas and has been suggested to potentially improve motor functions in individuals with neurological impairments. The purpose of this double-blinded, sham-controlled study was to examine the acute effects of anodal tDCS over the lesioned motor cortex leg area with concurrent limits of stability training on postural control in individuals with chronic post-stroke hemiparesis. Ten individuals with chronic post-stroke hemiparesis received either anodal or sham tDCS stimulation over the lesioned leg region of the motor cortex while undergoing 20 min of postural training. The type of stimulation to receive during the first session was pseudorandomized, and the two sessions were separated by 14 days. Before and immediately after 20 min of tDCS, the 10 m walk test, the Berg Balance Scale, and dynamic posturography assessments were performed. After a single session of anodal tDCS with concurrent postural training, we observed no changes in clinical measures of balance and walking, assessed using the Berg Balance Scale and 10 m walk test. For dynamic posturography assessments, participants demonstrated improvements in adaptation responses to toes-up and toes-down perturbations, regardless of the type of tDCS received. Additionally, improved performance in the shifting center of gravity was observed during anodal tDCS. Taken together, these preliminary findings suggest that tDCS can potentially be used as a feasible approach be incorporated into the rehabilitation of chronic post-stroke individuals with issues related to postural control and fear of falling, and that multiple sessions of tDCS stimulation may be needed to improve functional measures of postural control and walking.

Published
2020
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7. Calcium Pyrophosphate Deposition Disease in the Achilles Tendon

Author

Kai-Yu Ho and Jing Nong Liang

Subjects
sonography, calcium pyrophosphate deposition disease, achilles tendon, Medical physics. Medical radiology. Nuclear medicine, R895-920
Abstract

Teaching point: The classic sonographic presentation of calcium pyrophosphate dihydrate crystal deposits in the Achilles tendon is reported.

Published
2019
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8. Impaired H-Reflex Adaptations Following Slope Walking in Individuals With Post-stroke Hemiparesis

Author

Jing Nong Liang, Yun-Ju Lee, Eric Akoopie, Brooke Conway Kleven, Trisha Koch, and Kai-Yu Ho

Subjects
locomotor control, H-reflex, post-stroke hemiparesis, slope walking, spinal cord plasticity, Physiology, QP1-981
Abstract

Background and Purpose Short term adaptations in the Ia afferent-motoneuron pathway, as measured using the H-reflex, in response to altered ground reaction forces (GRFs) applied at the feet during slope walking have been observed in the non-impaired nervous system. The ability of the stroke-impaired nervous system to adapt to altered GRFs have not been examined. The purpose of this study was to examine the acute effects of altered propulsive and braking forces applied at the feet, which naturally occurs when walking on different slopes, on adaptations of the H-reflex pathway in individuals with chronic post-stroke hemiparesis.MethodsTwelve individuals chronically post-stroke and 10 age-similar non-neurologically impaired controls walked on an instrumented treadmill for 20 min under level, upslope and downslope conditions. GRFs were measured during walking and soleus H-reflexes were recorded prior to and immediately after walking. A 3 (limbs: paretic, non-paretic, and non-impaired) × 3 (slope: level, upslope, downslope) mixed factorial ANOVA was conducted on the propulsive and braking forces. A 2 (limb: paretic and non-impaired) × 2 (time: pre and post) × 3 (slope: level, upslope, and downslope) mixed factorial ANOVA was conducted to assess the soleus H-reflex amplitudes.ResultsIn both post-stroke and non-impaired groups, during downslope walking, peak propulsive forces decreased, while peak braking forces increased. In contrast, during upslope walking, peak propulsive forces increased and peak braking forces decreased. We observed reduced soleus H-reflex amplitudes immediately following 20 min of level, downslope and upslope walking in non-impaired individuals but not in the paretic legs of individuals with chronic post-stroke hemiparesis.Discussion and ConclusionSimilar pattern of change in peak propulsive and braking forces with respect to different slopes was observed in both individuals post-stroke and non-impaired individuals, but the magnitude of GRFs were smaller in individuals post-stroke due to the slower walking speed. Our results suggested that impaired modulation of the H-reflex pathway potentially underlies the lack of neuroadaptations in individuals with chronic post-stroke hemiparesis.

Published
2019
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9. Utilization of Inertial Measurement Units for Determining the Sequential Chain of Baseball Strike Posture

Author

Yun-Ju Lee, Po-Chieh Lin, Ling-Ying Chen, Yu-Jung Chen, and Jing Nong Liang

Subjects
inertial measurement units, visual-motor coordination, eye gaze, baseball swing, Chemical technology, TP1-1185
Abstract

The purpose of this study was to employ inertial measurement units (IMU) with an eye-tracking device to investigate different swing strategies between two levels of batters. The participants were 20 healthy males aged 20 to 30 years old, with ten professional and ten amateur batters. Eye gaze position, head, shoulder, trunk, and pelvis angular velocity, and ground reaction forces were recorded. The results showed that professional batters rotated segments more rhythmically and efficiently than the amateur group. Firstly, the professional group spent less time in the preparation stages. Secondly, the maximum angular velocity timing of each segment of the professional group was centralized in the swing cycle. Thirdly, the amateur group had significantly earlier gaze timing of the maximum angular velocity than the professional group. Moreover, the maximum angular velocity timing of the gaze was the earliest parameter among the five segments, and significantly earlier (at least 16.32% of cycle time) than the maximum angular velocity of the head, shoulder, trunk, and pelvis within the amateur group. The visual-motor coordination strategies were different between the two groups, which could successfully be determined by wearable instruments of IMU.

Published
2021
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10. Slow Walking in Individuals with Chronic Post-Stroke Hemiparesis: Speed Mediated Effects of Gait Kinetics and Ankle Kinematics

Author

Jing Nong Liang, Kai-Yu Ho, Yun-Ju Lee, Corey Ackley, Kiley Aki, Joshua Arias, and Jassie Trinh

Subjects
post-stroke hemiparesis, walking speed, gait, slow walking, ground reaction forces, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Post-stroke rehabilitation often aims to increase walking speeds, as faster walking is associated with improved functional status and quality of life. However, for successful community ambulation, ability to modulate (increase and decrease) walking speeds is more important than walking continuously at constant speeds. Increasing paretic propulsive forces to increase walking speed has been extensively examined; however, little is known about the mechanics of slow walking post-stroke. The primary purpose of this study was to identify the effects of increased and decreased walking speeds on post-stroke kinetics and ankle kinematics. Fifteen individuals with chronic post-stroke hemiparesis and 15 non-neurologically impaired controls walked over an instrumented treadmill under: slow, self-selected, and fast walking speeds. We examined the peak propulsive forces, propulsive impulse, peak braking forces, braking impulse, and ankle kinematics under each condition. When walking at slow walking speeds, paretic limbs were unable to reduce braking impulse and peak propulsive force or modulate ankle kinematics. Impaired modulation of paretic gait kinetics during slow walking places people post-stroke at high risks for slip-related falls. These findings suggest the need for developing gait retraining paradigms for slow walking in individuals chronically post-stroke that target the ability of the paretic limb to modulate braking forces.

Published
2021
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11. Sound Effects on Standing Postural Strategies in the Elderly via Frequency Analysis Approach

Author

Yun-Ju Lee, Chang-Hsu Chen, Chao-Che Wu, Yu-Jung Chen, and Jing Nong Liang

Subjects
postural control strategy, frequency analysis, dual-task, older adult, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999
Abstract

Sound and sound frequency could improve postural sway in the elderly. The power spectrum intervals of the center of pressure (COP) displacement are associated with different postural regulations, which could be revealed by frequency analysis. The aim of the study was to investigate the effects of sound on dual-tasking postural control and conduct frequency analysis to distinguish postural regulations in the elderly. Fifteen young and 15 older healthy participants were instructed to stand on a force platform and performed the Purdue Pegboard test while hearing 50 dB sounds with sound frequencies of 250 Hz, 1000 Hz, 4000 Hz, or no sound. The total excursion, velocity, sway area, and power spectrum of low-, medium-, and high-frequency bands of the COP displacement were calculated in the anterior–posterior and medial–lateral directions. The percentages of low-frequency and medium-frequency bands in both directions were significantly different between with and without sound conditions, but not affected by sound frequency. Older adults showed a smaller percentage of low-frequency, larger percentage of medium-frequency, larger total COP excursion, and faster velocity in the medial–lateral direction. The outcome of the study supports the frequency analysis approach in evaluating sound effects on postural strategies in dual-tasking and reveals older adults utilize vestibular regulation as the primary postural strategy when the dual-task required visual attention.

Published
2020
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12. Comprehensive power-supply planning for active distribution system considering cooling, heating and power load balance

Author

Xinwei Shen, Yingduo Han, Shouzhen Zhu, Jinghong Zheng, Qingsheng LI, and Jing Nong

Subjects
Active distribution system, Combined cooling, heating and power (CCHP), Power-supply planning, Load balance, Production of electric energy or power. Powerplants. Central stations, TK1001-1841, Renewable energy sources, TJ807-830
Abstract

An active distribution system power-supply planning model considering cooling, heating and power load balance is proposed in this paper. A regional energy service company is assumed to be in charge of the investment and operation for the system in the model. The expansion of substations, building up distributed combined cooling, heating and power (CCHP), gas heating boiler (GHB) and air conditioner (AC) are included as investment planning options. In terms of operation, the load scenarios are divided into heating, cooling and transition periods. Also, the extreme load scene is included to assure the power supply reliability of the system. Numerical results demonstrate the effectiveness of the proposed model and illustrate the economic benefits of applying distributed CCHP in regional power supply on investment and operation.

Published
2015
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13. Characteristics of Postural Muscle Activity in Response to A Motor-Motor Task in Elderly

Author

Yun-Ju Lee, Jing Nong Liang, and Yu-Tang Wen

Subjects
postural control strategy, muscle activity, dual-task, older adult, translation perturbation, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999
Abstract

The purpose of the current study was to evaluate postural muscle performance of older adults in response to a combination of two motor tasks perturbations. Fifteen older participants were instructed to perform a pushing task as an upper limb perturbation while standing on a fixed or sliding board as a lower limb perturbation. Postural responses were characterized by onsets and magnitudes of muscle activities as well as onsets of segment movements. The sliding board did not affect the onset timing and sequence of muscle initiations and segment movements. However, significant large muscle activities of tibialis anterior and erector spinae were observed in the sliding condition (p < 0.05). The co-contraction values of the trunk and shank segments were significantly larger in the sliding condition through the studied periods (p < 0.05). Lastly, heavy pushing weight did not change the timing, magnitude, sequence of all studied parameters. Older adults enhanced postural stability by increasing the segment stiffness then started to handle two perturbations. In conclusion, they were able to deal with a dual motor-motor task after having secured their balance but could not make corresponding adjustments to the level of the perturbation difficulty.

Published
2019
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14. Impaired H-Reflex Gain during Postural Loaded Locomotion in Individuals Post-Stroke.

Author

Jing Nong Liang and David A Brown

Subjects
Medicine, Science
Abstract

Successful execution of upright locomotion requires coordinated interaction between controllers for locomotion and posture. Our earlier research supported this model in the non-impaired and found impaired interaction in the post-stroke nervous system during locomotion. In this study, we sought to examine the role of the Ia afferent spinal loop, via the H-reflex response, under postural influence during a locomotor task. We tested the hypothesis that the ability to increase stretch reflex gain in response to postural loads during locomotion would be reduced post-stroke.Fifteen individuals with chronic post-stroke hemiparesis and 13 non-impaired controls pedaled on a motorized cycle ergometer with specialized backboard support system under (1) seated supported, and (2) non-seated postural-loaded conditions, generating matched pedal force outputs of two levels. H-reflexes were elicited at 90° crank angle.We observed increased H-reflex gain with postural influence in non-impaired individuals, but a lack of increase in individuals post-stroke. Furthermore, we observed decreased H-reflex gain at higher postural loads in the stroke-impaired group.These findings suggest an impaired Ia afferent pathway potentially underlies the defects in the interaction between postural and locomotor control post-stroke and may explain reduced ability of paretic limb support during locomotor weight-bearing in individuals post-stroke.These results support the judicious use of bodyweight support training when first helping individuals post-stroke to regain locomotor pattern generation and weight-bearing capability.

Published
2015
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16. The associated absorption features in quasar spectra of the Sload Digital Sky survey .I. \MgII\ absorption doublets

Author

Zhi-Fu, Chen, Wei-Rong, Huang, Ting-Ting, Pang, Hong-Yan, Huang, Da-Sheng, Pan, Min, Yao, Wei-Jing, Nong, and Mei-Mei, Lu

Subjects
Astrophysics - Astrophysics of Galaxies
Abstract

Using the SDSS spectra of quasars included in the DR7Q or DR12Q catalogs, we search for Mg II narrow absorption doublets in the spectra data around Mg II emission lines. We obtain 17,316 Mg II doublets, within the redshift range of 0.3299<= z_abs <= 2.5663. We find that a velocity offset of v_r < 6000 km/s is a safe boundary to constrain the vast majority of associated Mg II systems, although we find some doublets at v_r > 6000 km/s. If associated Mg II absorbers are defined by v_r < 6000 km/s, ~33.3% of the absorbers supposed to be contaminants of intervening systems. Removing the 33.3% contaminants, ~4.5% of the quasars present at least one associated Mg II system with W_r\lambda2796>=0.2 \AA. The fraction of associated Mg II systems with high velocity outflows correlates with the average luminosities of their central quasars, indicating a relationship between outflows and the quasar feedback power. The v_r distribution of the outflow Mg II absorbers is peaked at 1023 km/s, which is smaller than the corresponding value of the outflow C IV absorbers. The redshift number density evolution of absorbers (dn/dz) limited by v_r > -3000 km/s differs from that of absorbers constrained by v_r > 2000 km/s. While, absorbers limited by v_r > 2000 km/s and higher values exhibit similar profile of dn/dz. In addition, the dn/dz is smaller when absorbers are constrained with larger v_r. The distributions of equivalent widths, and the ratio of W_r\lambda2796/W_r\lambda2803 is the same for associated and intervening systems, and independent on quasar luminosity., Comment: 8 pages, 8 figures. Accepted by ApJS

Published
2018

18. Pushing Induced Sliding Perturbation Affects Postural Responses to Maintain Balance Standing

Author

Lee, Yun-Ju, Chen, Bing, Liang, Jing-Nong, Aruin, Alexander S., Kacprzyk, Janusz, Series Editor, Pal, Nikhil R., Advisory Editor, Bello Perez, Rafael, Advisory Editor, Corchado, Emilio S., Advisory Editor, Hagras, Hani, Advisory Editor, Kóczy, László T., Advisory Editor, Kreinovich, Vladik, Advisory Editor, Lin, Chin-Teng, Advisory Editor, Lu, Jie, Advisory Editor, Melin, Patricia, Advisory Editor, Nedjah, Nadia, Advisory Editor, Nguyen, Ngoc Thanh, Advisory Editor, Wang, Jun, Advisory Editor, Bagnara, Sebastiano, editor, Tartaglia, Riccardo, editor, Albolino, Sara, editor, Alexander, Thomas, editor, and Fujita, Yushi, editor

Published
2019
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29. Effects of augmented somatosensory input using vibratory insoles to improve walking in individuals with chronic post-stroke hemiparesis

Author

Victor Hung, Jing Nong Liang, Rachel Wood, Amanda Reilly, Nikita Yuskov, Kai-Yu Ho, and Yun-Ju Lee

Subjects
Male, medicine.medical_specialty, medicine.medical_treatment, Biophysics, Walking, Somatosensory system, Vibration, 03 medical and health sciences, 0302 clinical medicine, Physical medicine and rehabilitation, medicine, Humans, Orthopedics and Sports Medicine, Dynamic balance, Stroke, Gait Disorders, Neurologic, Aged, Rehabilitation, business.industry, 030229 sport sciences, Middle Aged, medicine.disease, Gait, Biomechanical Phenomena, Shoes, Paresis, Cross-Sectional Studies, Treatment Outcome, Hemiparesis, medicine.anatomical_structure, Chronic Disease, Post stroke, Female, medicine.symptom, Ankle, business, 030217 neurology & neurosurgery
Abstract

Background Stroke survivors suffer from hemiparesis and somatosensory impairments, which adversely impact walking performance, placing them at higher risks for trips and falls. Post-stroke, somatosensory deficits are commonly observed as impaired interpretation of afferent input and increased threshold. Diminishing or augmenting somatosensory inputs via various techniques have been demonstrated to be able to modify static and dynamic balance, postural and locomotor control in non-neurologically impaired as well as neurologically impaired individuals. Research question: We sought to investigate whether enhancing somatosensory input using vibratory insoles, can improve post-stroke gait. We hypothesized that with augmentation of somatosensory input at the soles via vibratory insoles would improve post-stroke gait via increased propulsive forces, decreased braking forces and increased ankle angle movements in the paretic legs of individuals with chronic post-stroke hemiparesis. Methods Fifteen individuals with chronic post-stroke hemiparesis and 15 age-similar non-neurologically impaired controls participated in this cross-sectional study. Enhanced somatosensory stimulation was delivered using a pair of tactor-embedded insoles, providing suprathreshold vibratory stimulation to the bottom of the feet. Participants walked over an instrumented treadmill with self-selected speeds, under 5 conditions: no insole in shoe (NT), insoles in shoe with no vibration (BOFF), vibration under both feet (BON), vibration under one foot only (ION, CON). Kinetics and kinematics during walking were recorded and analyzed offline. Results Suprathreshold vibratory stimulations did not alter gait kinetics under any stimulation conditions. We observed increased paretic ankle dorsiflexions in the paretic legs, when vibratory stimuli were applied unilaterally. Significance Vibratory stimulations applied at suprathreshold intensity to the bottom of the feet to augment somatosensory feedback can potentially be used as a low-cost solution to address the inadequate toe clearance during walking in people post-stroke, which is an important goal in post-stroke rehabilitation.

Published
2021
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34. Neurophysiological changes of brain and spinal cord in individuals with patellofemoral pain: a systematic review and meta-analysis protocol

Author

Kai-Yu Ho, Derrick Nguyenton, Kara Meske, Jing Nong Liang, Savanna Budge, and Austin Madriaga

Subjects
medicine.medical_specialty, Neurology, Population, MEDLINE, knee, Rehabilitation Medicine, 03 medical and health sciences, 0302 clinical medicine, Physical medicine and rehabilitation, Meta-Analysis as Topic, Medicine, Humans, Prospective Studies, education, Protocol (science), education.field_of_study, business.industry, neurology, Brain, 030229 sport sciences, General Medicine, Spinal cord, medicine.anatomical_structure, Cross-Sectional Studies, Spinal Cord, Patellofemoral Pain Syndrome, Research Design, Meta-analysis, Cohort, Observational study, business, 030217 neurology & neurosurgery, Systematic Reviews as Topic
Abstract

IntroductionReduced neuromuscular control due to altered neurophysiological functions of the central nervous system has been suggested to cause movement deficits in individuals with patellofemoral pain (PFP). However, the underlying neurophysiological measures of brain and spinal cord in this population remain to be poorly understood. The purpose of this systematic review is to evaluate the evidence for altered cortical and spinal cord functions in individuals with PFP.Methods and analysisThe protocol for conducting the review was prepared using the Preferred Reporting Items for Systematic Review and Meta-Analysis Protocols guidelines. We will systematically search the literature that examines cortical and spinal cord functions in individuals with PFP, aged 18–45 years. The studies for cross-sectional, prospective, longitudinal, case–control and randomised control trial designs will be included from the following databases: PubMed (MEDLINE), EMBASE and Web of Science. Only studies published in English prior to 1 February 2021 will be included. The risk of bias and quality assessment will be performed using National Institutes of Health’s Quality Assessment Tool for Observational Cohort and Cross-Sectional Studies. We will conduct meta-analysis of the data where appropriate. Narrative synthesis will be taken if a meta-analysis is not possible.Ethics and disseminationThis is a systematic review from the existing literature and does not require ethical approval. The results of this study will be published in a peer-reviewed journal in the field of rehabilitation medicine, sports/orthopaedic medicine or neurology, regardless of the outcome.PROSPERO registration numberCRD42020212128.

Published
2021

36. Slow Walking in Individuals with Chronic Post-Stroke Hemiparesis: Speed Mediated Effects of Gait Kinetics and Ankle Kinematics

Author

Kai-Yu Ho, Yun-Ju Lee, Kiley Aki, Corey Ackley, Jing Nong Liang, Joshua Arias, and Jassie Trinh

Subjects
030506 rehabilitation, medicine.medical_specialty, medicine.medical_treatment, walking speed, gait, Article, Ankle kinematics, lcsh:RC321-571, 03 medical and health sciences, 0302 clinical medicine, Physical medicine and rehabilitation, medicine, Ground reaction force, ground reaction forces, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, post-stroke hemiparesis, Rehabilitation, business.industry, General Neuroscience, Gait, Preferred walking speed, Hemiparesis, Post stroke, Functional status, medicine.symptom, slow walking, 0305 other medical science, business, human activities, 030217 neurology & neurosurgery
Abstract

Post-stroke rehabilitation often aims to increase walking speeds, as faster walking is associated with improved functional status and quality of life. However, for successful community ambulation, ability to modulate (increase and decrease) walking speeds is more important than walking continuously at constant speeds. Increasing paretic propulsive forces to increase walking speed has been extensively examined, however, little is known about the mechanics of slow walking post-stroke. The primary purpose of this study was to identify the effects of increased and decreased walking speeds on post-stroke kinetics and ankle kinematics. Fifteen individuals with chronic post-stroke hemiparesis and 15 non-neurologically impaired controls walked over an instrumented treadmill under: slow, self-selected, and fast walking speeds. We examined the peak propulsive forces, propulsive impulse, peak braking forces, braking impulse, and ankle kinematics under each condition. When walking at slow walking speeds, paretic limbs were unable to reduce braking impulse and peak propulsive force or modulate ankle kinematics. Impaired modulation of paretic gait kinetics during slow walking places people post-stroke at high risks for slip-related falls. These findings suggest the need for developing gait retraining paradigms for slow walking in individuals chronically post-stroke that target the ability of the paretic limb to modulate braking forces.

Published
2021

41. da zhong zhi wu xue

Author

nan jing nong xue yuan nong xue xi zhi wu xue jiao yan zu bian zhu, Internet Archive (archive.org), and nan jing nong xue yuan nong xue xi zhi wu xue jiao yan zu bian zhu

Subjects
Botany
Published
1960

46. Standing on wedges modifies side-specific postural control in the presence of lateral external perturbations

Author

Bing Chen, Mohan Ganesan, Jing Nong Liang, Alexander S. Aruin, and Yun-Ju Lee

Subjects
Adult, Male, Posture, Biophysics, Neuroscience (miscellaneous), Electromyography, Postural control, 03 medical and health sciences, 0302 clinical medicine, Center of pressure (terrestrial locomotion), medicine, Postural Balance, Humans, Muscle, Skeletal, Physics, medicine.diagnostic_test, 030229 sport sciences, Anatomy, Healthy Volunteers, medicine.anatomical_structure, Postural stability, Female, Neurology (clinical), medicine.symptom, Ankle, Neurological impairment, 030217 neurology & neurosurgery, Muscle Contraction, Muscle contraction
Abstract

Standing on wedges changes the position in the ankle joints and affects postural stability in the medial-lateral direction. The objective of the study was to investigate the role of wedges and external lateral perturbations on anticipatory (APA) and compensatory postural adjustments (CPA). Ten healthy young participants were exposed to perturbations applied to the lateral part of their right shoulder when standing on a planar surface, on a medial or lateral wedges. Bilateral electromyographic activity of dorsal and ventral postural muscles and the center of pressure (COP) displacement were recorded and analyzed during the APA and CPA phases. When exposed to the lateral perturbation, reciprocal activation of shank muscles was seen on the side of the perturbation while co-contraction of shank muscles was seen on the contralateral side during the APA and CPA phases. Standing on a wedge was associated with decreased magnitudes of co-contraction and reciprocal activation of shank muscles. The COP displacements were smaller in the APA phase and larger in the CPA phase while standing on wedges compared to standing on the planar surface. The outcome of the study provides a basis for future investigations of incorporating wedges in balance re-training paradigms for the elderly or individuals with neurological impairment.

Published
2017
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47. Research on Harmonic Current Functional Analysis of AC Arc Furnaces and Evaluation of Harmonic Level

Author

Aiping Pang, Jing Nong, Pu Deng, Zhuo Chen, Yongzhong Li, Shi Zeng, and Xiaojun Peng

Subjects
Physics, Arc (geometry), Function analysis, Superposition principle, Harmonic voltages, Serial communication, Harmonic, Current (fluid), Topology, Power (physics)
Abstract

This paper analyses the synchronous measuring data of harmonic current in AC arc furnaces with method of functional analysis, calculates the interaction angle between serial data of harmonic current in two arc furnaces, gets the conclusion that serial data of harmonic current in two arc furnaces are orthogonal, derives superposition formula for synthesizing harmonic currents of multi-arc furnaces and formula for evaluating harmonic voltage level beforehand in construction of power supply area of AC arc furnaces.

Published
2019
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48. Calcium Pyrophosphate Deposition Disease in the Achilles Tendon

Author

Jing Nong Liang and Kai-Yu Ho

Subjects
lcsh:Medical physics. Medical radiology. Nuclear medicine, Pathology, medicine.medical_specialty, Images in Clinical Radiology, lcsh:R895-920, education, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, medicine, Radiology, Nuclear Medicine and imaging, sonography, Achilles tendon, business.industry, Calcium pyrophosphate, calcium pyrophosphate deposition disease, musculoskeletal system, Calcium pyrophosphate dihydrate, medicine.anatomical_structure, chemistry, 030220 oncology & carcinogenesis, Musculoskeletal, business
Abstract

Teaching point: The classic sonographic presentation of calcium pyrophosphate dihydrate crystal deposits in the Achilles tendon is reported.

Published
2019

49. Characteristics of medial-lateral postural control while exposed to the external perturbation in step initiation

Author

Bing Chen, Alexander S. Aruin, Jing Nong Liang, and Yun-Ju Lee

Subjects
0301 basic medicine, Right shoulder, Adult, Male, medicine.medical_specialty, Posture, lcsh:Medicine, Perturbation (astronomy), Article, Postural control, Pelvis, 03 medical and health sciences, Young Adult, 0302 clinical medicine, Physical medicine and rehabilitation, Center of pressure (terrestrial locomotion), Step initiation, medicine, Humans, Force platform, lcsh:Science, Muscle, Skeletal, Postural Balance, Mathematics, Multidisciplinary, lcsh:R, Rehabilitation, Muscle activation, Lateral side, Healthy Volunteers, 030104 developmental biology, Outcomes research, Exercise Test, lcsh:Q, Female, 030217 neurology & neurosurgery
Abstract

Controllability of posture in the medial-lateral direction is critical for balance maintenance, particularly in step initiation. The objective of the current study was to examine the effects of external perturbation and landing orientation on medial-lateral control stability in step initiation. Eleven young healthy participants stood on the force platform and waited for the instruction of taking a step while experiencing a pendulum perturbation applied at the lateral side of the right shoulder. Eight experimental conditions were conducted by two levels of step side (right or left), two levels of perturbation (with or without), and two levels of landing orientation (forward or diagonal). The center of pressure (COP), pelvic movements, and muscle activities were recorded and analyzed as the onset of COP and pelvic movement, the COP displacement, and cocontraction and reciprocal muscle activation pattern. The temporal events of COP and pelvic movement were not significantly different in all experimental conditions. However, COP and pelvic movement were significantly later in the diagonal condition. Most of the segments showed reciprocal muscle activation patterns in relation to the perturbation released time. Subsequently, all segments showed cocontraction muscle activation patterns, which was significantly affected by step side, perturbation, and orientation. The results suggest that how the CNS initiated a step was identical with the COP then pelvic movement. The outcome highlights the importance of external perturbation and foot landing orientation effects on postural adjustments, which may provide a different approach to help step initiation.

Published
2019

50. Impaired H-Reflex Adaptations Following Slope Walking in Individuals With Post-stroke Hemiparesis

Author

Kai-Yu Ho, Jing Nong Liang, Eric Akoopie, Yun-Ju Lee, Brooke Conway Kleven, and Trisha Koch

Subjects
Acute effects, 030506 rehabilitation, medicine.medical_specialty, Physiology, locomotor control, lcsh:Physiology, 03 medical and health sciences, 0302 clinical medicine, Physical medicine and rehabilitation, Physiology (medical), Medicine, Ground reaction force, Pre and post, Original Research, H-reflex, post-stroke hemiparesis, lcsh:QP1-981, business.industry, spinal cord plasticity, Preferred walking speed, Hemiparesis, slope walking, Post stroke, Analysis of variance, medicine.symptom, 0305 other medical science, business, human activities, 030217 neurology & neurosurgery
Abstract

Background and Purpose: Short term adaptations in the Ia afferent-motoneuron pathway, as measured using the H-reflex, in response to altered ground reaction forces (GRFs) applied at the feet during slope walking have been observed in the non-impaired nervous system. The ability of the stroke-impaired nervous system to adapt to altered GRFs have not been examined. The purpose of this study was to examine the acute effects of altered propulsion and braking forces applied at the feet, which naturally occurs when walking on different slopes, on adaptations of the H-reflex pathway in individuals with chronic post-stroke hemiparesis. Methods: Twelve individuals chronically post-stroke and 10 age-similar non-neurologically impaired controls walked on an instrumented treadmill for 20 minutes under level, upslope and downslope conditions. GRFs were measured during walking and soleus H-reflexes were recorded prior to and immediately after walking. A 3 (limbs: paretic, non-paretic, and non-impaired) X 3 (slope: level, upslope, downslope) mixed factorial ANOVA was conducted on the propulsive and braking forces. A 2 (limb: paretic and non-impaired) X 2 (time: pre and post) X 3 (slope: level, upslope, and downslope) mixed factorial ANOVA was conducted to assess the soleus H-reflex amplitudes. Results: In both post-stroke and non-impaired groups, during downslope walking, peak propulsive forces decreased, while peak braking forces increased. In contrast, during upslope walking, peak propulsive forces increased and peak braking forces decreased. We observed reduced soleus H-reflex amplitudes immediately following 20 minutes of level, downslope and upslope walking in non-impaired individuals but not in the paretic legs of individuals with chronic post-stroke hemiparesis. Discussion and Conclusions: Similar pattern of change in peak propulsive and braking forces with respect to different slopes was observed in both individuals post-stroke and non-impaired individuals, but the magnitude of GRFs were smaller in individuals post-stroke due to the slower walking speed. Our results suggested that impaired modulation of the H-reflex pathway potentially underlies the lack of neuroadaptations in individuals with chronic post-stroke hemiparesis.

Published
2019
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