Your search keyword '"Posture"' showing total 154,911 results

1. Forearm Posture Affects the Corticospinal Excitability of Intrinsic and Extrinsic Hand Muscles in Dominant and Nondominant Sides.

Author

Garcia, Marco Antonio Cavalcanti, Carvalho, Thiago Santos de, Matsuda, Renan Hiroshi, Baffa, Oswaldo, Imbiriba, Luis Aureliano, and Souza, Victor Hugo

Subjects

SKELETAL muscle physiology, RESEARCH funding, NEURAL pathways, EVOKED potentials (Electrophysiology), DESCRIPTIVE statistics, ELECTROMYOGRAPHY, POSTURE, FOREARM, TRANSCRANIAL magnetic stimulation

Abstract

Different forearm postures can modulate corticospinal excitability. However, there is no consensus on whether handedness plays a role in such a mechanism. This study investigated the effects of 3 forearm postures (pronation, neutral, and supination) on the corticospinal excitability of muscles from the dominant and nondominant upper limbs. Surface electromyography was recorded from the abductor digiti minimi, flexor pollicis brevis, and flexor carpi radialis from both sides of 12 right-handed volunteers. Transcranial magnetic stimulation pulses were applied to each muscle's hotspot in both cerebral hemispheres. Motor-evoked potential peak-to-peak amplitude and latency and resting motor threshold were measured. The data were evaluated by analysis of variance. The level of significance was set at 5%. The resting motor threshold was similar for the 3 muscles and both sides. Motor-evoked potential peak-to-peak amplitude from flexor pollicis brevis was lower during supination, and the dominant upper limb latency was longer. The flexor carpi radialis presented lower motor-evoked potential peak-to-peak amplitudes for neutral and shorter latencies during supination. Abductor digiti minimi seemed not to be affected by posture or side. Different muscles from dominant and nondominant sides may undergo corticospinal modulation, even distally localized from a particular joint and under rest. [ABSTRACT FROM AUTHOR]

Published

2024

2. Marker-Based Versus IMU-Based Kinematics for Estimates of Lumbar Spine Loads Using a Full-Body Musculoskeletal Model.

Author

Prado, Maria, Oyama, Sakiko, and Giambini, Hugo

Subjects

LUMBAR vertebrae physiology, SKELETAL muscle physiology, BIOLOGICAL models, WEIGHT-bearing (Orthopedics), STRUCTURAL models, RESEARCH funding, KINEMATICS, DESCRIPTIVE statistics, DIAGNOSIS, GAIT in humans, WALKING, DIGITAL video, COMPARATIVE studies, POSTURE, MOTION capture (Human mechanics), POSTURAL balance, RANGE of motion of joints, ACTIVITIES of daily living

Abstract

Musculoskeletal modeling, typically implemented using marker-based systems in laboratory environments, is commonly used for noninvasive estimations of loads. Inertial measurement units (IMUs) have become an alternative for the evaluation of kinematics. However, estimates of spine joint contact forces using IMUs have yet to be thoroughly evaluated. Dynamics tasks and static postures from activities of daily living were captured on 11 healthy subjects using both systems simultaneously. Spine kinematics obtained from IMU- and marker-based systems and L4–L5 joint contact forces were compared. Lateral bending resulted in a weak agreement with significant differences between the 2 systems (P =.02, average root mean-squared error = 4.81), whereas flexion–extension and axial rotation exhibited the highest agreement with no significant differences (P <.05, average root mean-squared error = 5.51 and P <.31, average root mean-squared error = 5.08, respectively). All tasks showed excellent correlations (R2 =.76–.99) in estimated loads between systems. Differences in predicted loads at the L4–L5 were only observed during flexion–extension (1041 N vs 947 N, P =.0004) and walking with weights (814 N vs 727 N, P =.004). Different joint reaction force outcomes were obtained in 2 of the 8 tasks between systems, suggesting that IMUs can be robust tools allowing for convenient and less expensive evaluations and for longitudinal assessments inside and outside the laboratory setting. [ABSTRACT FROM AUTHOR]

Published

2024

3. Positive Effects of Physical Theater on Body Schema Among College Students.

Author

Kosma, Maria, Erickson, Nick, and Gremillion, Ashlynn

Subjects

BODY schema, POSTURE, EMOTIONS, SEMI-structured interviews, KINESIOLOGY

Abstract

The purpose of this phenomenological, qualitative, temporal study was to examine the effects of a semester-long physical theater class on body schema (body posture, awareness, confidence, expression) among eight college students. Individual, semi-structured interviews were conducted twice to qualitatively collect the study's data. Two themes emerged from the qualitative/phenomenological data analysis, showcasing how the participants' body schema improved. Based on the first theme, the students emphasized the importance of physical theater in improving body posture, awareness, confidence and comfort during physical theater and their daily functions. Practically learning the body schema of their character was key to excellence in performance. According to the second theme, the participants learned how to express emotions using their whole body and not only their face. They also managed to switch emotions naturally and corporeally. Experts in Kinesiology and Performing Arts should promote embodied, holistic, playful, and physically demanding movement programs for improved body schema. [ABSTRACT FROM AUTHOR]

Published

2024

4. The Midfoot Joint Complex (Foot Arch) Contributes to the Upper Body Position in Bipedal Walking and Coordinates With the Lower Limb Joints.

Author

Barsante, Leonardo D., Arantes, Paula M.M., Vaz, Daniela V., Magalhães, Fabricio A., Carvalho, Diego S., Cruz, Aline C., Resende, Renan A., Ocarino, Juliana M., Fonseca, Sérgio T., and Souza, Thales R.

Subjects

FOOT physiology, BIOMECHANICS, MOTOR ability, LEG, RESEARCH funding, KINEMATICS, GAIT in humans, DESCRIPTIVE statistics, WALKING, POSTURE, HUMAN locomotion

Abstract

This study estimated the contribution of the midfoot joint complex (MJC) kinematics to the pelvis anterior–posterior positions during the stance phase of walking and investigated whether the MJC is functionally coordinated with the lower limb joints to maintain similar pelvic positions across steps. Hip, knee, ankle, and MJC sagittal angles were measured in 11 nondisabled participants during walking. The joints' contributions to pelvic positions were computed through equations derived from a link-segment model. Functional coordination across steps was identified when the MJC contribution to pelvic position varied and the summed contributions of other joints varied in the opposite direction (strong negative covariations [r ≤ −.7] in stance phase instants). We observed that the MJC plantarflexion (arch raising) during the midstance and late stance leads the pelvis backward, avoiding excessive forward displacement. The MJC was the second joint that contributed most to the pelvis positions (around 18% of all joints' contributions), after the ankle joint. The MJC and ankle were the joints that were most frequently coordinated with the other joints (≅70% of the stance phase duration). The findings suggest that the MJC is part of the kinematic chain that determines pelvis positions during walking and is functionally coordinated with the lower limb joints. [ABSTRACT FROM AUTHOR]

Published

2024

5. Prolonged Standing-Induced Low Back Pain Is Linked to Extended Lumbar Spine Postures: A Study Linking Lumped Lumbar Spine Passive Stiffness to Standing Posture.

Author

Fewster, Kayla M., Gallagher, Kaitlin M., and Callaghan, Jack P.

Subjects

SPINE physiology, CROSS-sectional method, PAIN measurement, PHYSICAL therapy, SKELETAL muscle, RESEARCH funding, STANDING position, KINEMATICS, BACK, IN vivo studies, DESCRIPTIVE statistics, LUMBAR vertebrae, LORDOSIS, PAIN management, POSTURE, COMPARATIVE studies, LUMBAR pain, EPIDEMIOLOGICAL research, RANGE of motion of joints

Abstract

Postural assessments of the lumbar spine lack valuable information about its properties. The purpose of this study was to assess neutral zone (NZ) characteristics via in vivo lumbar spine passive stiffness and relate NZ characteristics to standing lumbar lordosis. A comparison was made between those that develop low back pain during prolonged standing (pain developers) and those that do not (nonpain developers). Twenty-two participants with known pain status stood on level ground, and median lumbar lordosis angle was calculated. Participants were then placed in a near-frictionless jig to characterize their passive stiffness curve and location of their NZ. Overall, both pain developers and nonpain developers stood with a lumbar lordosis angle that was more extended than their NZ boundary. Pain developers stood slightly more extended (in comparison to nonpain developers) and had a lower moment corresponding to the location of their extension NZ boundary. Overall, in comparison to nonpain developers, pain developers displayed a lower moment corresponding to the location of their extension NZ boundary which could correspond to greater laxity in the lumbar spine. This may indicate why pain developers have a tendency to stand further beyond their NZ with greater muscle co-contraction. [ABSTRACT FROM AUTHOR]

Published

2024

6. The Seated Trunk Control Test: Investigation of Reliability and Known-Groups Validity Using Individuals Post-Anterior Cruciate Ligament Reconstruction.

Author

Pollen, Travis R., Roe, Chelsey, Johnson, Darren L., Silfies, Sheri P., and Noehren, Brian

Subjects

*TORSO physiology, *EXERCISE tests, *STATISTICS, *STATISTICAL reliability, *CONFIDENCE intervals, *CROSS-sectional method, *POSTURAL balance, *POSTOPERATIVE care, *LABORATORIES, *SITTING position, *T-test (Statistics), *INTER-observer reliability, *POSTURE, *ANTERIOR cruciate ligament injuries, *DESCRIPTIVE statistics, *ANTERIOR cruciate ligament surgery, *SENSITIVITY & specificity (Statistics), *DATA analysis, *RECEIVER operating characteristic curves, *REHABILITATION, RESEARCH evaluation

Abstract

Context: Decreased trunk neuromuscular control is a risk factor for both upper- and lower-extremity injuries, yet there are few reliable and valid clinical tests to identify deficits. Objective: The purpose of this study was to determine the reliability and known-groups validity of a novel clinical test, the seated trunk control test (STCT). Design: Cross-sectional reliability and known-groups validity study. Setting: Laboratory. Participants: 89 unique participants: 34 were 3 months postoperative anterior cruciate ligament reconstruction (ACLR) and 55 healthy controls. Methods: For the STCT, participants sat on a balance board with their eyes closed for three 30-second trials while investigators counted balance errors. Intraclass correlations (ICCs) were used to assess interrater reliability (N = 20) and test–retest reliability (N = 40). To assess known-groups validity, independent t tests were used to compare STCT errors at 3 months post-ACLR with healthy matched controls (N = 34/group). Area under a receiver operating characteristic curve identified an optimal cutoff for distinguishing between groups. Results: The STCT had perfect interrater reliability (ICC2,3 = 1.00) and good test–retest reliability (ICC3,3 =.79; 95% confidence interval =.61–.89). The ACLR group made significantly more errors on the STCT (mean [SD] = 15.5 [5.4]) than controls (mean [SD] = 8.2 [4.1]; P <.001, Cohen d = 1.52). The STCT's ability to distinguish between groups was excellent (area under a ROC curve = 0.86). A cutoff of 12 errors maximized sensitivity (76%) and specificity (85%). Conclusions: The STCT is reliable between raters and across days. It also has excellent ability to distinguish between individuals with a recent ACLR and healthy matched controls, which provides initial evidence to suggest that the STCT may be clinically useful for identifying deficits in trunk neuromuscular control. [ABSTRACT FROM AUTHOR]

Published

2024

7. The Validity of Perceptual Recovery Status on Monitoring Recovery During a High-Intensity Back-Squat Session.

Author

Buoncristiani, Nicholas A., Malone, Grant, Stone, Whitley J., Arnett, Scott, Schafer, Mark A., and Tolusso, Danilo V.

Subjects

RESISTANCE training, RESEARCH evaluation, SKELETAL muscle, CONFIDENCE intervals, CONVALESCENCE, RESEARCH methodology, DYNAMICS, EXERCISE intensity, POSTURE, EXERCISE, TRANSDUCERS, MUSCLE strength, DESCRIPTIVE statistics, WEIGHT lifting, ATHLETIC ability

Abstract

Adaptations to resistance training and subsequent performance can be undermined by inadequate interset recovery. Methods typically used to monitor recovery were developed for longitudinal use, making them time-inefficient within singular exercise bouts. If valid, perceptual recovery status (PRS) may be used as an efficient and inexpensive assessment tool to monitor individual recovery. Purpose: The aim of this study was to assess the validity of PRS on monitoring recovery during a high-intensity back-squat session. Methods: Ten healthy men participated in the 2-session study (separated by at least 48 h). Session 1 included anthropometrics, PRS familiarization, and a 1-repetition-maximum back squat. Session 2 included a high-intensity protocol (5 sets of 5 repetitions; 5-min interset recovery; 85% of 1-repetition maximum). PRS was obtained before the first set and during the last 30 seconds of each 5-minute recovery; rating of perceived exertion (RPE) was also collected. A linear position transducer collected mean barbell velocity (MBV). Repeated-measures correlations assessed the common intraindividual relationships of PRS scores to intraset MBV and RPE, respectively. Results: A very large, positive correlation appeared between PRS and MBV (r [95% CI] =.778 [.613 to.878]; P <.0001). A large, negative correlation emerged between PRS and RPE (r [95% CI] = −.549 [−.737 to −.282]; P <.001). Conclusions: Results indicate that PRS can be a means for practitioners to monitor individualized recovery. PRS tracked well with RPE, strengthening its utility in a practitioner-based setting. Findings provide insight into the practicality of PRS for recovery monitoring. It could be used alongside other measures (eg, MBV and countermovement jump) to individually program and maintain performance. [ABSTRACT FROM AUTHOR]

Published

2024

8. Real-Time Sensing of Upper Extremity Movement Diversity Using Kurtosis Implemented on a Smartwatch.

Author

Cornella-Barba, Guillem, Okita, Shusuke, Li, Zheng, and Reinkensmeyer, David

Subjects

accelerometer, kurtosis, rehabilitation, rolling statistics, tilt sensing, upper extremity movement diversity, wearable activity sensing, Humans, Upper Extremity, Movement, Algorithms, Wearable Electronic Devices, Male, Female, Adult, Posture, Stroke Rehabilitation

Abstract

Wearable activity sensors typically count movement quantity, such as the number of steps taken or the number of upper extremity (UE) counts achieved. However, for some applications, such as neurologic rehabilitation, it may be of interest to quantify the quality of the movement experience (QOME), defined, for example, as how diverse or how complex movement epochs are. We previously found that individuals with UE impairment after stroke exhibited differences in their distributions of forearm postures across the day and that these differences could be quantified with kurtosis-an established statistical measure of the peakedness of distributions. In this paper, we describe further progress toward the goal of providing real-time feedback to try to help people learn to modulate their movement diversity. We first asked the following: to what extent do different movement activities induce different values of kurtosis? We recruited seven unimpaired individuals and evaluated a set of 12 therapeutic activities for their forearm postural diversity using kurtosis. We found that the different activities produced a wide range of kurtosis values, with conventional rehabilitation therapy exercises creating the most spread-out distribution and cup stacking the most peaked. Thus, asking people to attempt different activities can vary movement diversity, as measured with kurtosis. Next, since kurtosis is a computationally expensive calculation, we derived a novel recursive algorithm that enables the real-time calculation of kurtosis. We show that the algorithm reduces computation time by a factor of 200 compared to an optimized kurtosis calculation available in SciPy, across window sizes. Finally, we embedded the kurtosis algorithm on a commercial smartwatch and validated its accuracy using a robotic simulator that wore the smartwatch, emulating movement activities with known kurtosis. This work verifies that different movement tasks produce different values of kurtosis and provides a validated algorithm for the real-time calculation of kurtosis on a smartwatch. These are needed steps toward testing QOME-focused, wearable rehabilitation.

Published

2024

9. The Vehicle Seating Intervention Trial: Cross-Over Randomized Controlled Trial to Evaluate the Impact of 2 Car Seat Configurations on Spinal Posture.

Author

De Carvalho, Diana, Randhawa, Kristi, Verville, Leslie, Hogg-Johnson, Sheilah, Howarth, Samuel J., Liang, Carmen, Mior, Silvano, and Côté, Pierre

Subjects

HEAD physiology, SPINE physiology, MOTOR vehicles, EVALUATION of medical care, PILOT projects, INFERENTIAL statistics, CONFIDENCE intervals, HUMAN comfort, PRODUCT design, RANDOMIZED controlled trials, T-test (Statistics), AUTOMOBILE driving, POSTURE, DESCRIPTIVE statistics, STATISTICAL sampling, CROSSOVER trials, DATA analysis software

Abstract

Driving posture can lead to musculoskeletal pain. Most work focuses on the lower back; therefore, we know little about automobile seat design and neck posture. This study evaluated an automobile driver seat that individualized upper back support to improve head and neck posture. Specifically, we examined the system's impact on anterior head translation with secondary outcomes of spine posture and perceptions of comfort/well-being compared with a control. Forty participants were block randomized to experience either the activated or deactivated version of the same seating system first. Participants completed two 30-minute simulated driving trials, separated by washout, with continuous measures of anterior head translation, spine posture, and pelvis orientation. Perceptions of comfort/well-being were assessed by survey and open-ended questions immediately following each condition. Small, but statistically significant decreases in anterior head translation and posterior pelvic tilt occurred with the activated seat system. Participants reported lower satisfaction with the activated seat system. Order of the 2 seat conditions affected differences in pelvis orientation and participant perceptions of comfort/well-being. An anthropometric-based seat system targeting upper back support can significantly affect head and pelvic posture but not satisfaction during simulated driving. Future work should examine long-term impacts of these posture changes on health outcomes. [ABSTRACT FROM AUTHOR]

Published

2024

10. Open Foot Stance Reduces Lead Knee Joint Loading During Golf Swing.

Author

Stokes, Hannah, Escamilla, Rafael, Bellapianta, Joseph, Wang, Hongsheng, Beach, Tyson, Frost, Dave, and Zheng, Naiquan

Subjects

KNEE joint, TORQUE, CARTILAGE, RANGE of motion of joints, IRON, GAIT in humans, FOOT care, GOLF, SPORTS, IRON in the body, DISEASE incidence, LEG, COMPARATIVE studies, POSTURE, BIOMECHANICS, MOTION capture (Human mechanics), ATHLETIC ability, DIGITAL video

Abstract

Foot stance and club type's relationship with lead knee joint biomechanics and possible involvement with injury incidences in amateur golfers have not been evaluated. This study included 16 male right-handed amateur golfers who performed golf swings with 2 different foot stances (straight and open) using 4 different club types (driver, 3 iron, 6 iron, and 9 iron) while standing on 2 force plates in a motion capture laboratory. A custom program calculated the kinematics and kinetics of the lead knee. Overall, the open stance reduced most translations, rotations, forces, and torques of the lead knee in all 4 club types when compared with the straight stance. The open stance reduced the rotation motion (−28%), compressive force (−5%), and rotation torque (−9%) when compared with the straight stance, which are the highest contributors to grinding of cartilage. The driver club had significantly larger values in most translations, rotations, forces, and torques when compared among the 4 club types. The open stance reduced the rotation motion, compressive force, and rotation torque in the lead knee joint compared with the straight stance. Lead knee joint biomechanics should be monitored to reduce injury in amateur golfers. [ABSTRACT FROM AUTHOR]

Published

2023

11. Effects of auditory noise intensity and color on the dynamics of upright stance.

Author

Carey, Sam, Ross, Jessica, Abney, Drew, and Balasubramaniam, Ramesh

Subjects

Auditory feedback, Brown noise, Intensity, Pink noise, Postural sway, White noise, Humans, Noise, Female, Male, Acoustic Stimulation, Adult, Young Adult, Postural Balance, Color, Posture, Standing Position

Abstract

Previous work assessing the effect of additive noise on the postural control system has found a positive effect of additive white noise on postural dynamics. This study covers two separate experiments that were run sequentially to better understand how the structure of the additive noise signal affects postural dynamics, while also furthering our knowledge of how the intensity of auditory stimulation of noise may elicit this phenomenon. Across the two experiments, we introduced three auditory noise stimulations of varying structure (white, pink, and brown noise). Experiment 1 presented the stimuli at 35 dB while Experiment 2 was presented at 75 dB. Our findings demonstrate a decrease in variability of the postural control system regardless of the structure of the noise signal presented, but only for high intensity auditory stimulation.

Published

2024

12. Unraveling the threads of stability: A review of the neurophysiology of postural control in Parkinsons disease.

Author

Bath, Jessica and Wang, Doris

Subjects

Balance, DBS, Neurophysiology, Parkinsons disease, Posture, Humans, Parkinson Disease, Postural Balance

Abstract

Postural instability is a detrimental and often treatment-refractory symptom of Parkinsons disease. While many existing studies quantify the biomechanical deficits among various postural domains (static, anticipatory, and reactive) in this population, less is known regarding the neural network dysfunctions underlying these phenomena. This review will summarize current studies on the cortical and subcortical neural activities during postural responses in healthy subjects and those with Parkinsons disease. We will also review the effects of current therapies, including neuromodulation and feedback-based wearable devices, on postural instability symptoms. With recent advances in implantable devices that allow chronic, ambulatory neural data collection from patients with Parkinsons disease, combined with sensors that can quantify biomechanical measurements of postural responses, future work using these devices will enable better understanding of the neural mechanisms of postural control. Bridging this knowledge gap will be the critical first step towards developing novel neuromodulatory interventions to enhance the treatment of postural instability in Parkinsons disease.

Published

2024

13. Use of laser technology for the postural classification of bedridden people.

Author

Canzobre, David S., Torrado, Pablo Pardiñas, Vigo, Javier Lamas, and Rego, Alberto Ramil

Subjects

*BEDRIDDEN persons, *POSTURE, *COMPUTER vision, *MEDICAL personnel, *SKIN ulcers

Abstract

This work presents an innovative method for the automated classification of postures of bedridden people using laser technology. With the aim of improving the quality of medical care and facilitating the continuous monitoring of patients in clinical and home environments, a system is proposed that uses laser sensors to capture the three-dimensional geometry of body postures. Through advanced computer vision processing techniques, a robust classification algorithm is developed capable of identifying and categorizing lateral decubitus postures, also known as lateral safety position, which are commonly used to lay down patients who are permanently bedridden. Experimental results, performed so far, show sufficient accuracy in posture classification, suggesting the potential of this technology to improve the monitoring and care of bedridden patients, while providing periodic warnings to medical staff when a patient has exceeded the recommended time in the same posture, to avoid the appearance of skin ulcers. [ABSTRACT FROM AUTHOR]

Published

2024

14. 轮腿复合全地形车辆单腿系统动力学 建模与分析.

Author

张喜清, 陈殿民, and 郭永瑞

Subjects

POSTURE, COMPOSITE structures, VEHICLE models, ANGLES, HYDRAULIC cylinders

Abstract

Copyright of Construction Machinery & Equipment is the property of Construction Machinery & Equipment Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

15. Enhancing Return to Alpine Skiing: Integrating Perceptual-Motor-Cognitive Considerations in Testing and Progressions: A Clinical Commentary.

Author

Smith, Conor, Grooms, Dustin R., and Bradley, Helen

Subjects

INJURY risk factors, SPORTS injuries risk factors, MOTOR ability, PROPRIOCEPTION, ANTERIOR cruciate ligament injuries, ANTERIOR cruciate ligament surgery, RECREATION, NEUROPLASTICITY, SKIING injuries, PSYCHOLOGICAL adaptation, SPORTS re-entry, SPORTS participation, SIMULATION methods in education, SKIING, SPORTS events, CONCEPTUAL structures, POSTURE, BODY movement, ATHLETIC ability, SNOW, COGNITION, DISEASE risk factors

Abstract

Alpine skiing poses significant risks for anterior cruciate ligament (ACL) injury at both recreational and professional levels, which is compounded by high rates of re-injury. Despite the existence of return to sport (RTS) and return to snow protocols, the frequency of ACL re-injury has not been mitigated, raising doubts about protocol effectiveness. Current RTS protocols primarily focus on biomechanical and neuromuscular factors in isolation, neglecting the important perceptual-motor-cognitive changes associated with ACL injuries and the high cognitive demands of skiing. The purpose of this clinical commentary is to address the perceptual-motor-cognitive demands specific to alpine skiing, evaluate RTS testing for skiers, and propose updated standards for testing and return to snow progressions that incorporate these considerations. [ABSTRACT FROM AUTHOR]

Published

2024

16. Counselling for patients with a temporomandibular disorder: A scoping review and concept analysis.

Author

van der Meer, Hedwig A., van der Wal, Annemarie C., van Hinte, Gerben, and Speksnijder, Caroline M.

Subjects

*TEMPOROMANDIBULAR disorders, *PATIENT education, *BEHAVIOR modification, *EXERCISE, *CINAHL database, *DESCRIPTIVE statistics, *SYSTEMATIC reviews, *MEDLINE, *MASTICATORY muscles, *LITERATURE reviews, *HEALTH behavior, *COUNSELING, *ONLINE information services, *POSTURE, *PSYCHOLOGY information storage & retrieval systems

Abstract

Background: An integral component of comprehensive temporomandibular disorder (TMD) treatment involves what is commonly referred to in literature as patient counselling or patient education. Despite its importance, a clear definition of the concept is lacking. Objectives: To describe the concept of counselling (i.e. what is it, what should it consist of, and when should it be given) through a concept analysis of the literature. Eligibility Criteria: All papers that include a description of counselling or education for TMD are included. Sources of Evidence: Literature searches were performed in the electronic databases PubMed, Cinahl, and PsycInfo. Charting Methods: A qualitative analysis was done using the principle‐based concept analysis approach, where descriptions of counselling from the included papers were analysed by the researchers. Results: A total of 71 articles were included. Based on the qualitative analysis of the included articles and descriptions of counselling, the following content themes were identified: (1) general information on TMD; (2) overuse of the masticatory system; (3) posture education; (4) lifestyle and psychosocial factors; (5) exercise‐ and thermotherapy; and (6) additional information and therapies. Conclusions: A definition and framework of counselling for TMD has been provided, which can be used in the clinic, research, and educational programs. [ABSTRACT FROM AUTHOR]

Published

2024

17. Long‐term stress exposure, cortisol level and cardiovascular activity and reactivity: Observations in patients with fibromyalgia.

Author

Reyes del Paso, Gustavo A., Duschek, Stefan, Contreras‐Merino, Ana M., and Davydov, Dmitry M.

Subjects

*CARDIAC output, *PSYCHOLOGICAL stress, *BLOOD pressure, *POSTURE, *FIBROMYALGIA

Abstract

Previous research suggested that exposure to long‐lasting or repeated laboratory stressors may lead to rearrangement of cardiovascular control, with a shift of regulation mechanisms from dominant cardiac to dominant vascular influences between the early and late response phases, respectively. This study investigated whether similar rearrangement occurs during life stress accompanying chronic disease by analyzing also associations between cortisol level and cardiovascular variables in patients with fibromyalgia (FM). In 47 women with FM and 36 healthy women (HW), cardiovascular recordings were taken during active body posture changes (sitting, lying down, and standing). Moreover, hair cortisol concentration (HCC) was obtained. During standing, which involved orthostatic challenge, FM patients showed higher total peripheral resistance (TPR) but lower stroke volume (SV), cardiac output (CO), and baroreflex sensitivity than HW. During sitting and lying down, TPR was more closely associated with blood pressure (BP) than CO in FM patients; in contrast, CO was more closely associated with BP than TPR in HW. HCC correlated positively with TPR and BP in FM patients, but negatively with TPR and BP and positively with SV and CO in HW. Results suggest that chronic disease‐related stress is associated with alterations in cardiovascular regulation toward greater involvement of vascular than cardiac mechanisms in BP control. Stress‐related cortisol release may contribute to the long‐term rearrangement of autonomic regulation. At the behavioral level, the dominance of vascular over cardiovascular control may relate to reduced somatic mobilization during an active fight‐flight response in favor of passive and behaviorally immobile coping. [ABSTRACT FROM AUTHOR]

Published

2024

18. Posture, balance and gait in axial spondyloarthritis: a case-control study.

Author

Türk, Erdem, Yurdakul, Fatma Gül, Güler, Tuba, and Bodur, Hatice

Subjects

*ANKYLOSING spondylitis, *DYNAMIC balance (Mechanics), *WALKING speed, *GAIT in humans, *SPONDYLOARTHROPATHIES

Abstract

Axial spondyloarthritis (axSpA) is a chronic inflammatory disease that primarily involves the axial skeleton but may also present with peripheral joint involvement and extra-articular involvement. The present study aims to quantitatively analyze posture, balance, and gait parameters in patients with axSpA and and assess associated factors. This cross-sectional case-control study included 51 axSpA patients (30 males, 21 females; mean age 40.94 ± 10.48 years) and 51 age- and sex-matched healthy controls. In patients with axSpA, the Ankylosing Spondylitis Disease Activity Score CRP, the Bath Ankylosing Spondylitis Disease Activity Index (BASDAI), the Bath Ankylosing Spondylitis Functional Index (BASFI), the Bath Ankylosing Spondylitis Metrology Index (BASMI), the Maastrich Ankylosing Spondylitis Enthesitis Score (MASES), and the Ankylosing Spondylitis Quality of Life (ASQoL) scale were used. For postural analysis, DIERS formetric (Diers GmbH, Schlangenbad, Germany) videoraster- stereography device was utilized. HUR SmartBalance BTG4 (HUR-labs Oy, Kokkola, Finland) balance platform was used for postural balance and limit of stability (LOS) measurement. Participants were evaluated using Berg Balance Scale (BBS), Functional Reach Test (FRT) and Timed Up and Go Test (TUG). The Zebris FDM type 3 (Zebris Medical GmbH, Germany) walking platform was used to measure the spatiotemporal parameters of the participants. Comparison of postural parameters showed that sagittal imbalance and cervical depth distance were increased in the axSpA group than in the healthy participants (p < 0.004). Comparison of functional balance parameters showed that BBS and FRT scores were significantly lower (p < 0.001) in the axSpA group than in the control group, while TUG scores were significantly higher (p < 0.001). The LOS values, which evaluate dynamic balance were significantly lower, indicating impairment, in the axSpA group. In the measurement of postural sway, which indicates static balance, all 23 subparameters were found to be similar. When analyzing the spatiotemporal gait parameters, in the axSpA group compared with those in the control group; Foot angles (p= 0.028) and stride width (p = 0.004) were increased, whereas step lengths (p = 0.004) and stride lengths (P = 0.004) were decreased. In the axSpA group the gait speed was decreased (p = 0.004). When axSpA was analyzed separately as radiographic and nonradiographic axSpA, similar findings were observed in posture, balance, and gait parameters. No significant difference was observed. We found that the clinical assessments most closely associated with posture, balance, and gait analyses were BBS, FRT, TUG, and BASFI. [ABSTRACT FROM AUTHOR]

Published

2024

19. Severity of tongue base collapse in various body positions in patients with obstructive sleep apnea: A trajectory analysis.

Author

Lai, Yi-Ju, Li, Chung-Yi, Hung, Ching-Hsia, and Lin, Cheng-Yu

Subjects

SLEEP apnea syndromes, AIRWAY (Anatomy), POSTURE, SUPINE position, SITTING position

Abstract

Drug-induced sleep endoscopy (DISE) is used for evaluating upper airway anatomy and determining airway obstruction patterns. It is typically performed with the patient in the supine position. Airway collapse severity is influenced by body position and level of consciousness; the resultant dynamic changes may vary across patients. In this study, we evaluated the severity of upper airway collapse through awake endoscopy and DISE and identified factors affecting the pattern of airway collapse severity. This study included 66 patients with obstructive sleep apnea. The patients underwent type 1 polysomnography, tongue strength assessment, awake endoscopy in the sitting and supine positions, and DISE. Group-based trajectory modeling was performed to identify patients with different collapse severity patterns in different body positions and at different levels of consciousness. Patient with similar severity trajectory were assigned to the same group. Two different severity trajectories (group 1 and group 2) were identified at the tongue base level. Tongue depression strength varied significantly between groups 1 and 2 (47.00 vs. 35.00 kPa; P =.047). During awake endoscopy, collapse severity was significantly higher in group 2 than in group 1. Group 1 had lower rapid eye movement/nonrapid eye movement apnea–hypopnea index ratios and higher tongue depression strength than did group 2. In patients with obstructive sleep apnea, tongue strength may vary depending on body position. Our results should be interpreted with caution because of the limited sample size. Future studies should investigate the effect of oropharyngeal rehabilitation on tongue strength and collapse severity. [ABSTRACT FROM AUTHOR]

Published

2024

20. The effectiveness of a 6-month intervention with sit-stand workstation in office workers: Results from the SUFHA cluster randomized controlled trial.

Author

Júdice, Pedro B., Silva, Hélio, Teno, Sabrina C., and Hetherington-Rauth, Megan

Subjects

SCALE analysis (Psychology), CLERKS, RESEARCH funding, ADIPOSE tissues, T-test (Statistics), CLUSTER analysis (Statistics), WORK environment, STANDING position, SEDENTARY lifestyles, STATISTICAL sampling, RANDOMIZED controlled trials, BIOMETRY, MANN Whitney U Test, ANALYSIS of covariance, WAIST circumference, SITTING position, QUALITY of life, POSTURE, INDUSTRIAL hygiene, TIME, PSYCHOSOCIAL factors, INTERIOR decoration

Abstract

BACKGROUND: Prolonged periods of sitting have been linked to negative health outcomes. Implementation of sit-stand desks in the workplace has been one strategy to reduce prolonged sitting. OBJECTIVE: To assess the effectiveness of sit-stand workstations on reducing sitting time and improving other health outcomes of office-based workers. METHODS: 39 Portuguese office workers were randomized into a 6-month parallel-group cluster RCT consisting by the implementation of sit-stand desks in the workplace. The primary outcome of sitting time was assessed using ActivPAL. Secondary outcomes included biometric, psychological, and diet-related variables. All outcomes were assessed at baseline and 6 months for the whole sample and at 3 months for a sub-sample of the intervention group (n = 11). RESULTS: No significant time*group interaction was found for the primary or secondary outcomes, apart from waist circumference favoring the control group (Δ–1.81 cm, pinteraction = 0.04). There were significant changes within the intervention group for sitting time (–44.0 min/day), prolonged sitting (>30 min) (–45.3 min/day) and standing time (51.7 min/day) at 3 months in the sub-sample and in prolonged sitting (>30 min) (–26 min/day) in the full intervention group (p < 0.05). Changes were also observed within the intervention group for percent body fat (Δ–3.7%) and ratings of quality of life (Δ2.2), musculoskeletal discomfort (Δ–4.9), overall fatigue (Δ–2.2), and the need for recovery after work (Δ–1.7) at 6-month follow-up (p < 0.05). CONCLUSION: Although not being effective for reducing sitting time, the implementation of sit-stand desks in the Portuguese workspace was shown to be feasible over the long term, received well by users, and may offer other health benefits. TRIAL REGISTRATION: OSF Registration, OSF.IO/JHGPW. Registered 15 November 2022. https://doi.org/10.17605/OSF.IO/JHGPW. [ABSTRACT FROM AUTHOR]

Published

2024

21. Lower urinary tract symptoms in children with Duchenne muscular dystrophy: An evaluation in terms of functional level, posture, and muscle strength.

Author

Öztürk, Demet, Karaduman, Aynur Ayşe, and Akbayrak, Türkan

Subjects

DUCHENNE muscular dystrophy, URINARY organs, MUSCLE strength, QUADRICEPS muscle, FORELIMB, LORDOSIS

Abstract

Aim: To examine factors associated with lower urinary tract symptoms (LUTS) and lower urinary tract dysfunction (LUTD) in children with Duchenne muscular dystrophy (DMD). Methods: This cross‐sectional study included 45 individuals diagnosed with DMD between the ages of 5 and 18 years. LUTS were evaluated with the Dysfunctional Voiding and Incontinence Scoring System, functional levels with the Brooke Upper Extremity Functional Classification and the Vignos Scale, lumbar lordosis angle with a bubble inclinometer, pelvic inclination angles with a digital inclinometer, and muscle strength with a hand‐held dynamometer. Results: The mean age of the children was calculated as 9.00 ± 3.32 years, body weight as 31.10 ± 12.59 kg, and height as 125.87 ± 18.46 cm. LUTD was detected in 20 children (44.44%). There was an association between high LUTD severity and low strength of the following muscles: bilateral hip flexor (Dominant: r = −0.338, p = 0.023; nondominant: r = −0.411, p = 0.005), quadriceps femoris (Dominant: r = −0.445, p = 0.002; nondominant: r = −0.504, p < 0.001), elbow flexor (Dominant: r = −0.461, p = 0.001; nondominant: r = −0.455, p = 0.002), and elbow extensor (Dominant: r = −0.442, p = 0.002; nondominant: r = −0.450, p = 0.002). Upper extremity functionality level was significantly higher in the LUTD‐negative group (p = 0.004). There was no relationship between lumbar lordosis and pelvic inclination angles and LUTS symptoms (p > 0.05). Conclusion: To provide the adequate care for bladder health in children with DMD, it is essential to focus on parameters that will increase functionality and independence in this population. [ABSTRACT FROM AUTHOR]

Published

2024

22. Efectos de un programa de actividad física de corrección postural y activación muscular para la prevención del dolor lumbar en alumnado de Educación Física de 5° y 6° de Educación Secundaria Obligatoria.

Author

Martín Ruiz, Julio, Peris Perales, Jacob, Ferrer Adelantado, María Teresa, Gallego Cerveró, Clara, Tamarit Grancha, Ignacio, and Ruiz Sanchis, Laura

Subjects

MUSCLE growth, PHYSICAL education, SPINE, ELECTROMYOGRAPHY, HABIT, ADOLESCENT health

Abstract

Copyright of Retos: Nuevas Perspectivas de Educación Física, Deporte y Recreación is the property of Federacion Espanola de Asociaciones de Docentes de Educacion Fisica and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

23. Higiene postural: factores que influyen en una correcta postura en niños y adolescentes. Una revisión sistemática.

Author

Nanjarí-Miranda, Rodrigo, Aranda-Bustamante, Felipe, Saavedra-León, Valerie, Zuñiga-Vivanco, Janis, Castillo-Paredes, Antonio, Yáñez-Sepúlveda, Rodrigo, and Olivares-Arancibia, Jorge

Subjects

POSTURE, SPINE, STRUCTURAL stability, CHILDREN'S health, HYGIENE, BASES (Architecture), SCHOOL children

Abstract

Copyright of Retos: Nuevas Perspectivas de Educación Física, Deporte y Recreación is the property of Federacion Espanola de Asociaciones de Docentes de Educacion Fisica and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

24. Beneficios del yoga para la educación postural: propuesta de programa de intervención para educación primaria.

Author

Agudo Villarejo, Carmen María, Cachón Zagalaz, Javier, Pérez Navío, Eufrasio, and Lara Sánchez, Amador Jesús

Subjects

CHILDREN'S stories, POSTURE, PRIMARY education, YOGA, EDUCATION students

Abstract

Copyright of Retos: Nuevas Perspectivas de Educación Física, Deporte y Recreación is the property of Federacion Espanola de Asociaciones de Docentes de Educacion Fisica and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

25. Effect of body mass index on quadriceps angle and tibial torsion in school-aged children.

Author

Elhoseny, Hanaa Ahmed, Eltohamy, Amira Mohamed, and Diab, Olfat Abdelrahman

Abstract

Background: The prevalence of excessive body mass (BMI) is increasing in pediatric population. Accordingly, the number of musculoskeletal problems in this population is also likely to increase. The quadriceps angle (Q-angle) is a clinical measure used to measure knee alignment in relation to the hip, femur, and tibia, as well as evaluating alignment of the patella. Tibial torsion (T.T) is an important morphological feature of human tibia. The aim of that study was to study the relationship between the Q-angle and TT in children 8 to 12 years old, the effect of BMI on Q-angle and T.T, and the difference in Q-angle and TT between dominant and non-dominant side. Results: "Seventy-five children from primary schools" were enrolled in the study and allocated into 3 groups (25 subjects in each group), according to BMI: group I (normal weight = 25), group II (overweight = 25), and group III (obese = 25). The mean value of age of groups I, II, and III was 10.35 ± 1, 10.74 ± 1.2, and 10.17 ± 1.18 years respectively; the mean value of weight was 29.88 ± 3.94, 43.68 ± 6.55, and 50.06 ± 10.44 kg respectively; the mean value of height was 135.28 ± 7.63, 143.2 ± 8.85, and 140.72 ± 9.3 cm respectively; and the mean value of BMI was 16.22 ± 1, 21.18 ± 1.4, and 25.17 ± 2.67 kg/m2. The number (%) of boys in groups I, II, and III was 15 (60%), 18 (72%), and 17 (68%) respectively and of girls was 10 (40%), 7 (28%), and 8 (32%) respectively. The significant values were Q-angle and TT. Data were expressed as mean ± SD. ANOVA was used to compare between subjects' characteristics of the groups. Kolmogorov-Smirnov test was used for testing normality of data distribution. One-way MANOVA was used to compare parametric variables (Q-angle and TT) between the two groups. Compared with normal weight children, there was statistically significant increase in Q-angle and TT angle in overweight and obese children. Conclusion: Any change in BMI would eventually lead to change in both Q-angle and TT angle. The greater the BMI values, the greater the values of Q-angle and TT angle. [ABSTRACT FROM AUTHOR]

Published

2024

26. The effect of posture regulation training on musculoskeletal disorders, fatigue level and job performance in intensive care nurses.

Author

Demir, Oguzhan Bahadir and Yilmaz, Feride Taskin

Subjects

*INDUSTRIAL safety, *ERGONOMICS, *T-test (Statistics), *MUSCULOSKELETAL system diseases, *FATIGUE (Physiology), *EDUCATIONAL outcomes, *CLINICAL trials, *QUESTIONNAIRES, *DESCRIPTIVE statistics, *PRE-tests & post-tests, *RESEARCH methodology, *POSTURE, *DATA analysis software, *BODY movement, *CRITICAL care nurses, *JOB performance

Abstract

Background: Intensive care units (ICUs) are one of the high-risk working areas in terms of musculoskeletal disability and ergonomic risks including the environment and posture factors. Correct posture technique is often ignored by nurses working in these units. This study was conducted to determine the effect of posture regulation training on work-related musculoskeletal disorders, fatigue level and job performance in nurses working in ICUs. Methods: This quasi-experimental study with one-group pretest-posttest design included 64 intensive care nurses. The nurses received posture regulation training in three different sessions. The post-test was administered four months after the posture regulation training. Results: The nurses reported to frequently have aches, pains and discomfort in the neck, upper back and lumbar regions. After the posture regulation training, their level of pain, ache and discomfort in the neck, right and left shoulder, upper back, lower back and right/left foot areas decreased significantly (p < 0.05). The posture regulation training reduced the levels of behavior/severity and affect, which are sub-dimensions of fatigue, and increased the level of contribution to work, which is a sub-dimension of job performance (p < 0.05). Conclusion: The posture regulation training decreased the level of symptoms in the neck, shoulder, upper back, lower back and foot regions of intensive care nurses and partially improved their fatigue level and job performance. Therefore, posture regulation training should be added to in-service training programs and permanent measures should be taken for ergonomic risks in ICUs. [ABSTRACT FROM AUTHOR]

Published

2024

27. Assessment of Cervical Joint Position Sense and Head Posture in Individuals With Myogenic Temporomandibular Dysfunctions and Identifying Related Factors: A Case‐Control Study.

Author

Yüzbaşıoğlu, Ümit, Kaynak, Besime Ahu, and Taş, Serkan

Subjects

*MANDIBLE, *TEMPOROMANDIBULAR joint, *MUSCULAR sense, *JOINT diseases, *MUSCLE strength, *TEMPOROMANDIBULAR disorders

Abstract

ABSTRACT Background Objective Methods Results Conclusion Temporomandibular dysfunctions (TMDs) have the potential to cause changes in cervical muscle strength, muscle endurance and position sense by changing muscle activation patterns, especially as a result of forward head posture. The effects of TMDs on cervical joint position sense (CJPS) and head posture remain controversial.The aim of this study was to evaluate the head posture and CJPS of individuals with TMDs and compare them with healthy individuals.This research, which was designed as a case‐control study, was concluded with the inclusion of total of 84 participants (42 individuals diagnosed with myogenic TMDs, 42 controls). The assessment of participants included pain severity, neck and jaw functionality and disability, CJPS, head posture and temporomandibular joint (TMJ) range of motion (ROM).Individuals with TMDs exhibited higher angular deviation in CJPS during flexion and extension (p < 0.001). Additionally, individuals with TMDs demonstrated higher TMJ pain, limitation and dysfunction severity, as well as a more limited TMJ ROM (p < 0.001). Head posture was similar between groups (p > 0.05). There is a significant relationship between VAS‐TMJ with VAS‐cervical, FAI, NDI, JFLS‐8 and TMJ ROM (p < 0.05). Moreover, a significant correlation was observed between NDI with FAI and TMJ ROM (p < 0.05).These results indicate that in addition to higher pain severity, disability and lower jaw ROM, CJPS of individuals with TMDs is also negatively affected. Also, parameters related to disability and functionality of cervical and TMJ were significantly correlated. Further studies are needed to determine the factors contributing to these results. [ABSTRACT FROM AUTHOR]

Published

2024

28. Evaluation of the sagittal vertical axis with postural and 3D motion analyses in lumbar spinal stenosis.

Author

Gueugnon, Mathieu, Riglet, Louis, Fournel, Isabelle, Ksiazek, Eléa, Beaurain, Jacques, Chapon, Renan, Ornetti, Paul, and Laroche, Davy

Subjects

*MOTION analysis, *SPINAL stenosis, *IMAGE analysis, *BODY mass index, *RADIOGRAPHY

Abstract

Background: Sagittal balance, commonly impaired in lumbar spinal stenosis (LSS) patients, is typically assessed using the sagittal vertical axis (SVA) with EOS imaging. However, to limit X-ray exposure and medical costs, it could be interesting to evaluate the capacity of quantified motion analysis to estimate the 3D modeling of SVA in patients with symptomatic LSS. Methods: An estimation of the SVA in patients with LSS was performed with 3D motion analysis. SVA and "C7_PSI" (orthogonal horizontal distance between the vertical lines through the markers of the C7 vertebra and the middle of the posterosuperior iliac spine) were measured on 37 LSS patients using EOS radiography and postural and 3D motion analysis, respectively. Multiple stepwise linear regressions were performed with EOS SVA according to age, body mass index, C7_PSI and/or postural variables. Results: A highly significant relationship was found between SVA and C7_PSI, mediolateral amplitude of CoP displacements and age (adjusted R²=0.69, p < 0.0001). While the postural analysis did not reveal significant relationships, the model using 3D parameters revealed significant relationships between radiographic SVA and C7_PSI and age (adjusted R²=0.65, p < 0.0001). 3D motion parameters with or without postural parameters may explain more than 65% of the variance seen in EOS imaging performed on LSS patients. Conclusions: These promising results in LSS patients suggest that the estimation of SVA with 3D motion analysis offers an alternative to EOS. In addition, SVA could be assessed at rest and during dynamic tasks. Trial registration: This study has been published in Clinical Trial registration (reference NCT03194607). [ABSTRACT FROM AUTHOR]

Published

2024

29. Transitioning sleeping position detection in late pregnancy using computer vision from controlled to real-world settings: an observational study.

Author

Kember, Allan J., Zia, Hafsa, Elangainesan, Praniya, Hsieh, Min-En, Adijeh, Ramak, Li, Ivan, Ritchie, Leah, Akbarian, Sina, Taati, Babak, Hobson, Sebastian R., and Dolatabadi, Elham

Subjects

*SLEEP positions, *PREGNANT women, *CONVOLUTIONAL neural networks, *POSTURE, *COMPUTER vision

Abstract

Sleeping on the back after 28 weeks of pregnancy has recently been associated with giving birth to a small-for-gestational-age infant and late stillbirth, but whether a causal relationship exists is currently unknown and difficult to study prospectively. This study was conducted to build a computer vision model that can automatically detect sleeping position in pregnancy under real-world conditions. Real-world overnight video recordings were collected from an ongoing, Canada-wide, prospective, four-night, home sleep apnea study and controlled-setting video recordings were used from a previous study. Images were extracted from the videos and body positions were annotated. Five-fold cross validation was used to train, validate, and test a model using state-of-the-art deep convolutional neural networks. The dataset contained 39 pregnant participants, 13 bed partners, 12,930 images, and 47,001 annotations. The model was trained to detect pillows, twelve sleeping positions, and a sitting position in both the pregnant person and their bed partner simultaneously. The model significantly outperformed a previous similar model for the three most commonly occurring natural sleeping positions in pregnant and non-pregnant adults, with an 82-to-89% average probability of correctly detecting them and a 15-to-19% chance of failing to detect them when any one of them is present. [ABSTRACT FROM AUTHOR]

Published

2024

30. Lumbar Sitting Behavior of Individuals with Low Back Pain: A Preliminary Study Using Extended Real-World Data.

Author

McClintock, Frederick A., Callaway, Andrew J., Clark, Carol J., Alqhtani, Raee S., and Williams, Jonathan M.

Abstract

Low back pain affects 619 million people worldwide and is commonly provoked by sitting. Current assessment methods constrain task variability, removing real-world, task-switching behaviors. This study utilized accelerometers to provide an original validated method of in vivo real-world assessment of lumbar sitting behavior throughout a full day. A three-stage study design was used, which involved (1) blinded verification of our sitting detection algorithm, (2) full-day data collection from participants with low back discomfort, quantifying lumbar angles, and end-user acceptability explored, (3) case study application to two clinical low back pain (LBP) patients, incorporating measurement of provocative sitting. Focus group discussions demonstrated that data collection methods were acceptable. Sitting 'windows' were created and analyzed using novel histograms, amplitude probability distribution functions, and variability, demonstrating that sitting behavior was unique and varied across individuals. One LBP patient demonstrated two frequent lumbar postures (<15% flexion and ~75% flexion), with pain provocation at 62% lumbar flexion. The second patient demonstrated a single dominant posture (~90% flexion), with pain provoked at 86% lumbar flexion. Our in vivo approach offers an acceptable method to gain new insights into provocative sitting behavior in individuals with LBP, allowing individualized unconstrained data for full-day postures and pain provocation behaviors to be quantified, which are otherwise unattainable. [ABSTRACT FROM AUTHOR]

Published

2024

31. Effects of Posture and Locomotion Methods on Postural Stability, Cybersickness, and Presence in a Virtual Environment.

Author

Kumar, Naveen, Lim, Chae Heon, Sardar, Suman Kalyan, Park, Se Hyeon, and Lee, Seul Chan

Subjects

*HEAD-mounted displays, *SIMULATOR sickness, *TELEPORTATION, *USER experience, *POSTURE

Abstract

Virtual reality (VR) users experience unwanted symptoms, such as body imbalance, nausea, dizziness, and loss of presence. This study aims to investigate the effects of posture and locomotion on postural stability, cybersickness, and presence in VR environments. Twenty participants played a VR game under different conditions depending on posture (standing and sitting) and locomotion methods (joystick and teleportation), and seven dependent variables (COM, AP displacement, ML displacement, ASL, PSQ, VRSQ, and SOP) were analyzed to observe postural stability, cybersickness, and presence. The results revealed that postural instability increased when the task was performed in the standing posture with the joystick locomotion method compared to other conditions. The AP displacement, ML displacement, and ASL were lower under teleportation conditions. The PSQ scores indicated that postural stability was better in the sitting posture than in the standing posture. The VRSQ score revealed that the sitting with teleportation condition had less cybersickness than the other conditions. The SOP score was the highest in the standing posture with the teleportation condition. This study concludes that a sitting posture with teleportation locomotion can be considered when designing games in which users actively interact with virtual movements. [ABSTRACT FROM AUTHOR]

Published

2024

32. Correlation of psychosocial factors with pain, posture, function, and disability in chronic mechanical neck pain patients: a cross-sectional study.

Author

Khatri, Maria, Panhale, Vrushali, and Walankar, Prachita

Subjects

PHOBIAS, CROSS-sectional method, NECK, DATA analysis, NECK pain, DISABILITY evaluation, ALGOMETRY, SHOULDER, FUNCTIONAL status, DESCRIPTIVE statistics, STATISTICS, POSTURE, BODY movement, PAIN catastrophizing, DATA analysis software, CONFIDENCE intervals, STERNOCLEIDOMASTOID muscle

Abstract

Background: Chronic neck pain is a common musculoskeletal condition that has an impact on the function and quality of life of an individual. Psychosocial factors along with the physical factors may have an impact on the perception of pain. Hence, the study aimed to find the correlation of psychosocial factors with pain, posture, function, and disability in chronic mechanical neck pain patients. Method: A cross-sectional study using a convenient sampling method was conducted in 55 chronic mechanical neck pain patients. The pain was assessed using numerical pain rating scale (NPRS), pain pressure threshold (PPT) using a pressure algometer, kinesiophobia using Tampa Scale for Kinesiophobia (TSK), pain catastrophizing using Pain Catastrophizing Scale, Posture analysis was done by various postural angle and flexicurve, cervical muscle endurance was tested using the craniocervical flexion test, cervical proprioception was measured using head repositioning accuracy test and Neck disability index was used to score disability. Result: A significant positive correlation was found between TSK and NDI (r = 0.34, p = 0.01). There is a negative correlation of PTT (right sternocleidomastoid) with Kinesiophobia (r = − 0.35, p = 0.008). There is a moderate positive correlation between posture (shoulder angle on the left side) and TSK (r = 0.3, p = 0.02). Conclusion: The study concludes that psychosocial factors not only have a significant role but are correlated to pain, posture, function, and disability in patients with chronic mechanical neck pain. [ABSTRACT FROM AUTHOR]

Published

2024

33. An action-observation method for studying social perception: a mini-review.

Author

Manlu Liu and Enns, James T.

Subjects

SOCIAL exchange, SOCIAL interaction, SELECTIVITY (Psychology), FACIAL expression, POSTURE, GAZE, SOCIAL perception

Abstract

An important aspect of any social interaction involves inferring other people’s mental states, intentions, and their likely next actions, by way of facial expression, body posture, eye gaze, and limb movements. An actor’s production of actions during social interactions and the observer’s perception of these actions are thus closely linked. In this review, we outline an action-observation methodology, which not only allows for separate analyses of production and perception, but also promotes the study of the dynamic interaction between these two sides of every social exchange. We review two lines of research that have benefited from its application. The first line focuses on individuals performing tasks alone and the observation of their actions by other individuals in order to make inferences about their attentional states. The second line of study focused on pairs of individuals performing collaborative tasks in naturalistic settings and the observation of these performances by other individuals. We offer several suggestions for how this methodology can be extended to improve on the limitations of the present studies, as well as some suggestions of how to use this methodology to venture into new territory. Our aim is to inspire future research applications of this methodology in order to advance our understanding of social action production and perception. [ABSTRACT FROM AUTHOR]

Published

2024

34. Aligned bodies, united hearts: embodied emotional dynamics of an Islamic ritual.

Author

Saraei, Mohammadamin, Paxton, Alexandra, and Xygalatas, Dimitris

Subjects

*GROUP dynamics, *POSTURE, *ARTIFICIAL intelligence, *RELIGIOUS leaders, *SOCIAL groups

Abstract

Collective rituals involve the coordination of intentions and actions and have been shown to promote the alignment of emotional states and social identities. However, the mechanics of achieving group-level synchrony is yet unclear. We report the results of a naturalistic study in the context of an Islamic congregational prayer that involves synchronous movement. We used wearable devices to capture data on body posture, autonomic responses and spatial proximity to investigate how postural alignment and shared arousal intertwine during this ritual. The findings reveal a dual process at play: postural alignment appears to be more localized, with worshippers synchronizing their movements with their nearest neighbours, while physiological alignment operates on a broader scale, primarily driven by the central role of the religious leader. Our findings underscore the importance of interpersonal dynamics in collective gatherings and the role of physical co-presence in fostering connections among participants, with implications extending to our understanding of group dynamics across various social settings. This article is part of the theme issue 'Minds in movement: embodied cognition in the age of artificial intelligence'. [ABSTRACT FROM AUTHOR]

Published

2024

35. How bipedalism shapes humans' actions with hand tools.

Author

Fragaszy, Dorothy M., Kelty-Stephen, Damian G., and Mangalam, Madhur

Subjects

*BIPEDALISM, *QUADRUPEDALISM, *DEVELOPMENTAL psychology, *PERCEPTION in animals, *ARTIFICIAL intelligence, *POSTURE

Abstract

The task for an embodied cognitive understanding of humans' actions with tools is to elucidate how the human body, as a whole, supports the perception of affordances and dexterous action with objects in relation to other objects. Here, we focus on the relationship between humans' actions with handheld tools and bipedal posture. Posture plays a pivotal role in shaping animals' perception and action dynamics. While humans stand and locomote bipedally, other primates predominantly employ quadrupedal postures and locomotion, relying on both hands and feet to support the body. Drawing upon evidence from evolutionary biology, developmental psychology and performance studies, we elucidate the influence of bipedalism on our actions with objects and on our proficiency in using tools. We use the metaphor of cascades to capture the dynamic, nonlinear transformations in morphology and behaviour associated with posture and the use of tools across evolutionary and developmental timescales. Recent work illustrates the promise of multifractal cascade analysis to reveal nonlinear, cross-scale interactions across the entire body in real-time, supporting the perception of affordances for actions with tools. Cascade analysis enriches our comprehension of real-time performance and facilitates exploration of the relationships among whole-body coordination, individual development, and evolutionary processes. This article is part of the theme issue 'Minds in movement: embodied cognition in the age of artificial intelligence'. [ABSTRACT FROM AUTHOR]

Published

2024

36. Predictive musculoskeletal simulations reveal the mechanistic link between speed, posture and energetics among extant mammals.

Author

Clemente, Christofer J., De Groote, Friedl, and Dick, Taylor J. M.

Subjects

ANIMAL diversity, GROUND reaction forces (Biomechanics), PHENOMENOLOGICAL biology, MECHANICAL models, POSTURE

Abstract

An unusual pattern among the scaling laws in nature is that the fastest animals are neither the largest, nor the smallest, but rather intermediately sized. Because of the enormous diversity in animal shape, the mechanisms underlying this have long been difficult to determine. To address this, we challenge predictive human musculoskeletal simulations, scaled in mass from the size of a mouse (0.1 kg) to the size of an elephant (2000 kg), to move as fast as possible. Our models replicate patterns observed across extant animals including: (i) an intermediate optimal body mass for speed; (ii) a reduction in the cost of transport with increasing size; and (iii) crouched postures at smaller body masses and upright postures at larger body masses. Finally, we use our models to determine the mechanical limitations of speed with size, showing larger animals may be limited by their ability to produce muscular force while smaller animals are likely limited by their ability to produce larger ground reaction forces. Despite their bipedal gait, our models replicate patterns observed across quadrupedal animals, suggesting these biological phenomena likely represent general rules and are not the result of phylogenetic or other ecological factors that typically hinder comparative studies. The fastest animals are neither the largest, nor the smallest, but rather intermediately sized, though the mechanism for this is unknown. This study built predictive musculoskeletal simulations, scaled in mass from the size of a mouse to an elephant to understand the underlying mechanisms. [ABSTRACT FROM AUTHOR]

Published

2024

37. Standing on Elevated Platform Changes Postural Reactive Responses during Arm Movement.

Author

Mochizuki, Luis, Pennone, Juliana, Bigongiari, Aline, Cosme, Renata Garrido, Massa, Marcelo, Ré, Alessandro Hervaldo Nicolai, Alcântaro Jr., Ricardo Pereira, and Amadio, Alberto Carlos

Abstract

Background/Objectives: This study investigated the behavior of postural adjustments throughout the entire action: from the preparatory phase (anticipatory postural adjustment, APA), the focal movement phase (online postural adjustments, OPA), to the compensatory phase (compensatory postural adjustment, CPA) while raising the arms in a standing position, both with eyes opened and closed. The goal was to analyze the effects of reduced sensorial information and different heights on postural muscle activity during these three phases. Methods: Eight young women performed rapid shoulder flexion while standing on the ground and on a 1-m elevated platform. The EMG activity of the trunk and lower limb muscles was recorded during all three phases. Results: Although average muscle activity was similar on the ground and the elevated platform, the pattern of postural muscle activation varied across the motor action. During OPA, all postural muscle activity was the highest, while it was the lowest during APA. On the elevated platform postural muscles have increased their activation during APA. In the most stable condition (standing on the ground with eyes opened), muscle activity showed a negative correlation between APA and OPA, but there was no correlation between OPA and CPA. Conclusions: Our results suggest postural control adapts to sensory, motor, and cognitive conditions. Therefore, the increased demand for postural control due to the height of the support base demands greater flexibility in postural synergies and alters muscle activity. [ABSTRACT FROM AUTHOR]

Published

2024

38. Musculoskeletal Disorders in the Clinical Practice of Dental Hygienists and Dentists, Prevention and Awareness among Italian Professionals: Focus on Enlarging Systems.

Author

Butera, Andrea, Maiorani, Carolina, Fantozzi, Giulia, Bergamante, Francesca, Castaldi, Matteo, Grassi, Roberta, Leuter, Cinzia, Scribante, Andrea, and Nardi, Gianna Maria

Abstract

(1) Background: Musculoskeletal disorders of the upper limbs are a common medical condition among dental hygienists and dentists, making them a common occupational risk for dental professionals. The purpose of the work was to collect information about the dental professions and their habits to highlight what can be good practices to be carried out to prevent any musculoskeletal disorders. (2) Methods: To identify habits and problems inherent in the professional activity of dental hygienists and dentists, a questionnaire was formulated on the use of enlarging systems. (3) Results: The questionnaire was completed by 241 dental professionals. As for the use of magnifiers, 72.6% of participants use them: among dental hygienists, 67.8% use magnifiers, among dentists, 80.9% use magnifiers; there is a statistically significant difference. There is no statistically significant difference between professions regarding muscle disorders. (4) Conclusions: For a clearer assessment, it would be appropriate to submit the questionnaire to a wider sample of professionals, to define better the correlation between musculoskeletal disorders, work activity and the type of enlarging systems used. [ABSTRACT FROM AUTHOR]

Published

2024

39. INVESTIGATION OF THE RELATIONSHIP BETWEEN WORKING POSTURES OF PHYSIOTHERAPISTS WORKING IN SPECIAL EDUCATION AND REHABILITATION CENTERS AND HOSPITALS WITH PAIN, BODY AWARENESS LEVEL, CHRONIC FATIGUE AND DEPRESSION.

Author

DEMİRTAŞ KARAOBA, Dilan and TALU, Burcu

Subjects

*REHABILITATION centers, *PHYSICAL therapists, *FATIGUE (Physiology), *SPECIAL education, *POSTURE, *PAIN

Abstract

This study aims to examine the relationship between physiotherapists' working posture and pain, body awareness level, chronic fatigue, and depression levels and to determine whether these parameters depend on the institution where they work. 93 randomly selected physiotherapists between the ages of 24-52 were divided into two groups according to their institutions: Rehabilitation centers/hospitals. Working posture was evaluated with the Ovako Working Posture Analysing System (OWAS), pain was evaluated with the Extended Nordic Musculoskeletal Questionnaire (NMQ-E) and Visual Analogue Scale (VAS), body awareness level was evaluated with the Body Awareness Questionnaire (BAQ), chronic fatigue was evaluated with the Chronic Fatigue Syndrome/Self Assessment Form (CFS), depression level was evaluated with the Beck Depression Inventory (BDI). A relationship was found between OWAS-leg posture and NMQ-E-ankle pain (r=-0.238), between OWAS-back posture-arm posture-action class and VAS (r1=0.25; r2=-0.27; r3=0.23), and between OWAS-back posture-action class and BDI (r1=0.25; r2=0.26) (p<0.05). However, a significant difference was found only between the OWAS-back posture-action class and BDI results of physiotherapists working in different fields (p<0.05). It was observed that the working posture of physiotherapists affected the level of pain and depression and that physiotherapists working in rehabilitation centers had higher levels of depression and used more challenging back postures. [ABSTRACT FROM AUTHOR]

Published

2024

40. Investigation of the Possibility of High-Speed Motion of a Non-Pulley Musculoskeletal Robot.

Author

Morizono, Tetsuya, Furusawa, Kotaro, and Kino, Hitoshi

Subjects

*ROBOT motion, *MOMENTS of inertia, *ROBOTS, *ACTUATORS, *POSTURE

Abstract

Robots with parallel-link structures are generally considered useful for achieving high-speed motion; however, they are typically large in size. Robot size can be reduced by using a serial-link structure. However, their moving parts, typically having a large mass or moment of inertia, are considered unsuitable for high-speed motion. High-speed motion performance can be improved by avoiding mounting actuators on the moving parts using some method to transmit the drive force or motion. In this letter, we propose a model in which a non-pulley musculoskeletal robot, previously studied by us, is modified to avoid mounting actuators on the movable parts. We demonstrate that the robot can be controlled to achieve the target posture using this modified model. We also discuss the feasibility of high-speed motion of a prototype robot using muscular forces computed for several motion patterns based on the minimum muscle-tension change model. [ABSTRACT FROM AUTHOR]

Published

2024

41. Bilateral pelvic osteotomy for malunion of a vertical shear fracture with 3D-printed patient-specific cutting guides: a case report.

Author

Casiraghi, Alessandro, Fratus, Abramo, Oransky, Michel, Sancineto, Carlos Federico, Galante, Claudio, Milano, Giuseppe, and Cattaneo, Stefano

Subjects

*CHRONIC pain, *TREATMENT effectiveness, *SURGICAL therapeutics, *DECISION making in clinical medicine, *SURGEONS, *GAIT disorders, *OSTEOTOMY, *ORTHOPEDIC surgery, *NEUROLOGICAL disorders, *PATIENT-centered care, *PELVIC floor disorders, *LUMBAR vertebrae, *SITTING position, *UNUNITED fractures, *THREE-dimensional printing, *PUBIC symphysis, *POSTURE, *PSYCHOSOCIAL factors

Abstract

Purpose: Pelvic osteotomies present a surgical option to restore pelvic alignment, improve function and pain in sequelae of pelvic ring fractures. Understanding the three-dimensional deformity is a crucial step within preoperative planning; furthermore, accurate intraoperative execution of the planning can be challenging. In recent years, patient-specific guides and 3D modeling have emerged as promising technologies in orthopedic and trauma surgery to enhance surgical precision and facilitate intraoperative decision-making. Methods: We present the case of a 41-year-old male patient with a pelvic malunion, resulting from a vertical shear fracture occurring 8 years prior. The patient presented with a 4-cm cranial displacement of the right hemipelvis, accompanied by pubic symphysis disruption and fusion of S1 to L5 vertebra. Severely altered posture in the coronal and sagittal plane was associated with sitting imbalance, impaired gait, and chronic pain. Results: We analyzed the deformity and planned the surgical correction on a 3D interactive virtual model. Moreover, we developed 2 patient-specific cutting guides and one patient-specific reduction guide, allowing accurate bilateral pelvic osteotomies, subsequent realignment, and restoration of the pelvic anatomy. Conclusion: For the first time, 3D modeling and 3D-printed patient-specific guides were effectively employed in pelvic malunion surgery, enhancing the precision of preoperative planning, and providing valuable assistance during intraoperative procedures. [ABSTRACT FROM AUTHOR]

Published

2024

42. Repeatability and intra and interrater reproducibility of the DIPA-S eHealth© capture and analysis system for clinical assessment of scoliosis.

Author

Navarro, Isis Juliene Rodrigues Leite, Silva, Marcelle Guimarães, dos Santos, Ingrid Cláudia Pereira, and Candotti, Cláudia Tarragô

Subjects

*MEASUREMENT errors, *INTRACLASS correlation, *STANDING position, *ANATOMICAL planes, *MOBILE apps

Abstract

Purpose: To assess the repeatability, intra and interrater reproducibility of the DIPA-S eHealth© system for capturing and measuring clinical variables of scoliosis, including frontal trunk imbalance (FTI), sagittal trunk imbalance (STI), and angle of trunk rotation (ATR). Methods: Patients were photographed using the DIPA-S eHealth Capture© mobile application by family members, physiotherapists, or surgeons. Three photos were taken in each position: standing in the frontal and sagittal planes and in the axial plane in forward bending position of the trunk. The photos were analyzed by three independent evaluators using the DIPA-S eHealth Analysis© software. For repeatability, each photo was analyzed twice consecutively by the three evaluators. For intrarater reproducibility, only one evaluator reanalyzed the first photo from each plane with a 5-day interval. For interrater reproducibility, the three evaluators analyzed the first photo from each plane. The intraclass correlation coefficient (ICC), standard error of measurement (SEM), and minimal detectable change (MDC) were used (p < 0.05). Results: The sample comprised 262 images (n = 30). Repeatability was excellent for all three evaluators in all three planes (ICC 0.94 to 1.00). Intrarater reproducibility was excellent in all three planes (ICC 0.88 to 0.99). Interrater analysis was excellent for the frontal and axial planes (ICC 0.98 and 0.93), respectively. However, it was weak in the sagittal plane ICC 0.32. The SEM ranged from 0.02 to 17.6 and MDC from 0.03 to 34.6. Conclusion: The DIPA-S eHealth© Capture and Analysis system demonstrates reproducibility for use in the clinical assessment of scoliosis through teleconsultations. [ABSTRACT FROM AUTHOR]

Published

2024

43. The Relationship between the Infrared Eye Temperature of Beef Cattle and Associated Biological Responses at High Environmental Temperatures.

Author

Idris, Musadiq, Sullivan, Megan, Gaughan, John B., and Phillips, Clive J. C.

Subjects

*THERMAL stresses, *BEEF cattle, *CATTLE physiology, *HIGH temperatures, *POSTURE, *FEEDLOTS

Abstract

Simple Summary: Cattle are increasingly exposed to high temperatures with accelerating climate change, presenting the risks of heat stress, poor welfare, and even death. In Australia, the sudden onset of extreme conditions means that deaths are not uncommon. Understanding the impact of high environmental temperatures on cattle behaviour and physiology is critical. We aimed to investigate changes in infrared eye temperature and their association with behavioural responses, such as changes in body postures, alterations in feeding behaviour, and body self-care. Twenty-four Angus steers were individually housed to assess heat load responses when they were fed either a standard finisher diet based on cereal grains or an alternative diet with 8% of the grains replaced by an isoenergetic amount of lucerne hay. No differences were observed between different dietary cohorts. The infrared eye temperature (IRT-Eye), of the steers exposed to high environmental temperatures was increased, and this had a strong association with behaviour and physiology. Cattle with increased IRT-Eye temperature showed stress-related behavioural responses, including a downward-facing head, ears directed backwards, and other indicators of heat stress such as increased panting, standing, and increased rumen temperature. The strong association of IRT-Eye with behaviour and physiology suggests that it can be used to detect heat stress in cattle. Cattle in regions with high ambient temperatures are at risk of heat stress. Early detection is important to allow action to be taken to minimise the risks to cattle exposed to thermal stress. This study aimed to investigate the impact of heat stress on IRT-Eye temperature and its association with the behavioural and physiological responses of heat-stressed Angus steers (n = 24) on finisher and or substituted diets. Overall, 2 cohorts of 12 Angus steers were individually housed in a climate-controlled facility to examine responses to heat stress when fed on a standard finisher diet, based on a high percentage of cereal grains, and on a substituted diet in which 8% of the grains were replaced by an isoenergetic amount of lucerne hay. Exposing feedlot cattle to hot environmental conditions increased IRT-Eye temperature, which had a strong association with behaviour and physiology. There was no evidence of differences between the different dietary cohorts. The cattle with increased IRT-Eye temperature showed stress-related responses, including a downward-facing head, ears directed backwards, and other indicators of heat stress such as increased panting, standing, and increased rumen temperature. The strong association of IRT-Eye temperature with stress-related behaviours, as well as with rumen temperature and panting behaviour, highlights the potential for IRT-Eye to be utilised as a non-invasive tool to assess cattle responses in hot conditions. [ABSTRACT FROM AUTHOR]

Published

2024

44. Boosting arousal and cognitive performance through alternating posture: Insights from a multi‐method laboratory study.

Author

van Steenbergen, Henk, Wilderjans, Tom F., Band, Guido P. H., and Nieuwenhuis, Sander T.

Subjects

*EXECUTIVE function, *HEART beat, *MENTAL fatigue, *POSTURE, *TASK performance

Abstract

This study investigated the role of arousal and effort costs in the cognitive benefits of alternating between sitting and standing postures using a sit‐stand desk, while measuring executive functions, self‐reports, physiology, and neural activity in a 2‐h laboratory session aimed to induce mental fatigue. Two sessions were conducted with a one‐week gap, during which participants alternated between sitting and standing postures each 20‐min block in one session and remained seated in the other. In each block, inhibition, switching, and updating were assessed. We examined effects of time‐on‐task, acute (local) effects of standing versus sitting posture, and cumulative (global) effects of a standing posture that generalize to the subsequent block in which participants sit. Results (N = 43) confirmed that time‐on‐task increased mental fatigue and decreased arousal. Standing (versus sitting) led to acute increases in arousal levels, including self‐reports, alpha oscillations, and cardiac responses. Standing also decreased physiological and perceived effort costs. Standing enhanced processing speed in the flanker task, attributable to shortened nondecision time and speeded evidence accumulation processes. No significant effects were observed on higher‐level executive functions. Alternating postures also increased heart rate variability cumulatively over time. Exploratory mediation analyses indicated that the positive impact of acute posture on enhanced drift rate was mediated by self‐reported arousal, whereas decreased nondecision time was mediated by reductions in alpha power. In conclusion, alternating between sitting and standing postures can enhance arousal, decrease effort costs, and improve specific cognitive and physiological outcomes. We studied the impact of standing on executive functions and physiology using a unique multi‐method approach that investigated the effect of alternating between sitting and standing on cardiac physiology, neural oscillations, and executive functions. Standing improved neural and physiological arousal, enhanced overall task performance in a flanker task, while also decreasing physiological and perceived effort costs, and increasing heart rate variability over time. These findings emphasize the benefits of alternating between seated and standing postures for the body and the brain. [ABSTRACT FROM AUTHOR]

Published

2024

45. An Integrated Frequency Regulation Method Based on System Frequency Security Posture.

Author

Zhang, Qiang, Wang, Chao, Song, Wenting, Chao, Pupu, Jin, Yonglin, Zeng, Hui, Li, Ping, and Liu, Wansong

Subjects

*RENEWABLE energy sources, *ECONOMIC indicators, *POWER resources, *SECURITIES industry laws, *POSTURE

Abstract

As the share of renewable energy in a grid increases, the grid's frequency support capability weakens, and the spatial distribution of grid frequency becomes more pronounced. As a result, control strategies based on system frequency consistency and traditional frequency regulation dominated by synchronous machines are becoming increasingly inadequate for meeting the frequency regulation requirements of new-type power systems. To enhance the system's frequency support capability, it is imperative to fully utilize the frequency regulation resources within the power system. To address this issue, this paper first introduces a system frequency security posture assessment method that accounts for the spatial distribution characteristics of the grid. Subsequently, a parameter optimization method for diverse frequency regulation resources is proposed in conjunction with the proposed comprehensive evaluation method for frequency regulation. Next, using a renewable energy feeder regional grid as an example, an integrated frequency regulation method based on the system frequency security posture is presented. Finally, the frequency regulation performance and economic costs of different frequency regulation methods are analyzed under various operating scenarios and disturbances using a model based on actual data from the renewable energy feeder regional grid. The simulation and index calculation results demonstrate that the method proposed in this paper effectively enhances the system's frequency support capability, reduces the frequency disparity between different nodes within the grid, and maintains high economic performance. [ABSTRACT FROM AUTHOR]

Published

2024

46. A Bioenergetic-Analytical and Phenomenological Approach to Pain Posture, Experience, Expressive Behavior.

Author

Sollmann, Ulrich

Subjects

*EXPRESSIVE behavior, *PHENOMENOLOGY, *PSYCHOTHERAPY, *SELF-expression, *POSTURE

Abstract

The somatic and psychological concepts of pain are expanded to include the perspective of the enactment approach. Pain is therefore now (also) conceptualized as a "5E process": Embodied, Embedded, Enacted, Emotive, and Extended. Pain is therefore, in contrast to a biopsychosocial concept, also understood as a relational and emergent process of finding meaning through an experienced body that is inextricably linked to the world that we shape and that shapes us. This model of understanding is discussed in relation to body psychotherapy, in particular bioenergetic analysis. Specifically, this is related to posture, personal experience, and self-expression under stress. [ABSTRACT FROM AUTHOR]

Published

2024

47. Cologne ergonomic measurement for robotic surgery (CEMRobSurg) using the Hugo™ RAS System.

Author

Brunner, Stefanie, Müller, Dean, Krauss, Dolores T., Datta, Rabi Raj, Eckhoff, Jennifer A., Storms, Christian, von Reis, Benedikt, Chon, Seung-Hun, Schmidt, Thomas, Bruns, Christiane J., and Fuchs, Hans F.

Subjects

*ERGONOMICS -- Evaluation, *SURGICAL robots, *NECK, *NOISE, *PRODUCT design, *QUESTIONNAIRES, *DESCRIPTIVE statistics, *HIP joint, *MEDICAL students, *HOSPITAL medical staff, *HEART beat, *JOB stress, *ELBOW, *POSTURE, *KNEE, *DATA analysis software, *PATIENT positioning, *EQUIPMENT & supplies

Abstract

Background: The ergonomic advantages and potential challenges that robotic surgery poses to the well-being of surgeons are mainly unexplored. The most recent surgical robot introduced on the European market is the Hugo™ RAS System by Medtronic. This study aims to evaluate the ergonomic benefits of the Hugo™ RAS System, which is available in our training laboratory, CeMIT (Center for Medical Innovation and Technology Cologne). Methods and procedures: Using the previously established Cologne Ergonomic Measurement Setup for Robotic Surgery (CEMRobSurg), we measured three parameters related to ergonomic posture from subjects with different levels of surgical expertise (laypeople, medical students, surgical residents, and expert robotic surgeons). The heart rate was measured continuously using a polar band. The noise level was measured while using the Hugo™ RAS System, and automated photographs using our locally developed methodology were captured of the participant every 2 s to assess body posture. The ergonomic measurements were conducted while the subject performed the same standardized robotic training exercises (Peg Board, Rope Walk, and Ring Walk). Results: A total of 53 participants were enrolled in this study. The average noise level during all measurements was 54.87 dB. The highest stress level was measured in surgical residents with a sympathetic nervous system index (SNS index) of 1.15 (min − 1.43, max 3.56). The lowest stress level was measured in robotic experts with an SNS index of 0.23 (min − 0.18, max 0.91). We observed a risk-prone positioning of the neck and elbow in medical students (mean 39.6° and 129.48°, respectively). Robotic experts showed a risk positioning in the knee and hip region (mean 107.89° and 90.31°, respectively). Conclusion: This is the first study to analyze and objectify the ergonomic posture of medical students, surgical trainees, surgeons, and laypeople using the open console, modular Hugo™ RAS System. Our findings offer recommendations for operating surgeons and allow for a comparative analysis between the different robotic systems. Further evaluations in real-time operative scenarios will follow. [ABSTRACT FROM AUTHOR]

Published

2024

48. 3D-MuPPET: 3D Multi-Pigeon Pose Estimation and Tracking.

Author

Waldmann, Urs, Chan, Alex Hoi Hang, Naik, Hemal, Nagy, Máté, Couzin, Iain D., Deussen, Oliver, Goldluecke, Bastian, and Kano, Fumihiro

Subjects

*ANIMAL tracks, *ANIMAL behavior, *POSTURE, *DATA modeling, *ANNOTATIONS

Abstract

Markerless methods for animal posture tracking have been rapidly developing recently, but frameworks and benchmarks for tracking large animal groups in 3D are still lacking. To overcome this gap in the literature, we present 3D-MuPPET, a framework to estimate and track 3D poses of up to 10 pigeons at interactive speed using multiple camera views. We train a pose estimator to infer 2D keypoints and bounding boxes of multiple pigeons, then triangulate the keypoints to 3D. For identity matching of individuals in all views, we first dynamically match 2D detections to global identities in the first frame, then use a 2D tracker to maintain IDs across views in subsequent frames. We achieve comparable accuracy to a state of the art 3D pose estimator in terms of median error and Percentage of Correct Keypoints. Additionally, we benchmark the inference speed of 3D-MuPPET, with up to 9.45 fps in 2D and 1.89 fps in 3D, and perform quantitative tracking evaluation, which yields encouraging results. Finally, we showcase two novel applications for 3D-MuPPET. First, we train a model with data of single pigeons and achieve comparable results in 2D and 3D posture estimation for up to 5 pigeons. Second, we show that 3D-MuPPET also works in outdoors without additional annotations from natural environments. Both use cases simplify the domain shift to new species and environments, largely reducing annotation effort needed for 3D posture tracking. To the best of our knowledge we are the first to present a framework for 2D/3D animal posture and trajectory tracking that works in both indoor and outdoor environments for up to 10 individuals. We hope that the framework can open up new opportunities in studying animal collective behaviour and encourages further developments in 3D multi-animal posture tracking. [ABSTRACT FROM AUTHOR]

Published

2024

49. Neural Encoding of Bodies for Primate Social Perception.

Author

Abassi, Etienne, Bognár, Anna, de Gelder, Bea, Giese, Martin, Isik, Leyla, Lappe, Alexander, Mukovskiy, Albert, Solanas, Marta Poyo, Taubert, Jessica, and Vogels, Rufin

Subjects

*BODY image, *SOCIAL perception, *TEMPORAL lobe, *POSTURE, *SOCIAL interaction

Abstract

Primates, as social beings, have evolved complex brain mechanisms to navigate intricate social environments. This review explores the neural bases of body perception in both human and nonhuman primates, emphasizing the processing of social signals conveyed by body postures, movements, and interactions. Early studies identified selective neural responses to body stimuli in macaques, particularly within and ventral to the superior temporal sulcus (STS). These regions, known as body patches, represent visual features that are present in bodies but do not appear to be semantic body detectors. They provide information about posture and viewpoint of the body. Recent research using dynamic stimuli has expanded the understanding of the body-selective network, highlighting its complexity and the interplay between static and dynamic processing. In humans, body-selective areas such as the extrastriate body area (EBA) and fusiform body area (FBA) have been implicated in the perception of bodies and their interactions. Moreover, studies on social interactions reveal that regions in the human STS are also tuned to the perception of dyadic interactions, suggesting a specialized social lateral pathway. Computational work developed models of body recognition and social interaction, providing insights into the underlying neural mechanisms. Despite advances, significant gaps remain in understanding the neural mechanisms of body perception and social interaction. Overall, this review underscores the importance of integrating findings across species to comprehensively understand the neural foundations of body perception and the interaction between computational modeling and neural recording. [ABSTRACT FROM AUTHOR]

Published

2024

50. Hyperflexing the horse's neck: a systematic review and meta-analysis.

Author

König von Borstel, Uta, Kienapfel, Kathrin, McLean, Andrew, Wilkins, Cristina, and McGreevy, Paul

Subjects

*PUBLIC welfare, *POSTURE, *DRESSAGE, *HORSES, *NECK

Abstract

The article reports a meta-analysis of 58 peer-reviewed studies investigating on dorsoventral hyperflexion of the neck in horses, a practice under substantial public and scientific scrutiny for the past two decades. The following databases were last searched on 28.05.2023: CAB, Google Scholar, Web of Science, NAL/Agricola, PubMed and ScienceDirect. After evaluating the conclusions of each study, we performed statistical analyses to establish a consensus on welfare and performance (performance marks, kinematics and musculoskeletal) outcomes in horses performing with a hyperflexed head and neck posture (HNP). The analysis revealed that a significant majority of the articles (75% of n = 36; Z = 3.00; P>|Z|=0.0027) expressed concerns about the welfare of horses working in this posture. Parameters such as dressage training level, prior experience, duration, and method of achieving the hyperflexed posture did not influence welfare concern conclusions significantly (P > 0.1). Therefore, it appears that the practice impairs welfare regardless of how it is imposed. A concurrent assessment of the weight of evidence for performance benefits showed inconclusive results: approximately one-quarter of the studies showed benefits and one-quarter detrimental effects, while the largest proportion (44%) showed no significant effect on performance. On balance, it appears that the costs associated with hyperflexed HNPs exceed potential benefits. [ABSTRACT FROM AUTHOR]

Published

2024