Your search keyword '"Dierick F"' showing total 72 results

1. Ergonomic Risk Assessment of Developing Musculoskeletal Disorders in Workers with the Microsoft Kinect: TRACK TMS

Author

Buisseret, F., Dierick, F., Hamzaoui, O., and Jojczyk, L.

Published

2018

2. Energy cost, mechanical work, and efficiency of hemiparetic walking

Author

Detrembleur, C., Dierick, F., Stoquart, G., Chantraine, F., and Lejeune, T.

Published

2003

3. Motion of the body centre of gravity as a summary indicator of the mechanics of human pathological gait

Author

Detrembleur, C, van den Hecke, A, and Dierick, F

Published

2000

4. THE CCR7+ PDGFRA+ CELL POPULATION IS INCREASED IN REGRESSING ATHEROSCLEROTIC PLAQUES

Author

Dierick, F., Ebrahimian, T., Michaud, V., Simeone, S., Simon, D., and Lehoux, S.

Published

2017

5. Outcome assessment in osteoarthritic patients undergoing total knee arthroplasty

Author

Dierick, F., Avenière, T., Cossement, M., Poilvache, P., Lobet, S., Detrembleur Christine, UCL - MD/CHIR - Département de chirurgie, UCL - MD/IEPR - Institut d'éducation physique et de réadaptation, UCL - (SLuc) Service d'hématologie, and UCL - (SLuc) Service de médecine physique et de réadaptation motrice

Subjects

musculoskeletal diseases, Male, Analysis of Variance, Recovery of Function, Middle Aged, Osteoarthritis, Knee, musculoskeletal system, Prognosis, Risk Assessment, Severity of Illness Index, Sampling Studies, Treatment Outcome, Activities of Daily Living, Quality of Life, Humans, Female, Range of Motion, Articular, Arthroplasty, Replacement, Knee, Knee Prosthesis, human activities, Gait, Aged, Pain Measurement, Probability

Abstract

The purpose of this study was to better understand the relationship between knee pain, locomotor functional status, and health-related quality of life (HRQoL) outcomes in osteoarthritic (OA) patients undergoing primary total knee arthroplasty (TKA). Nine OA patients were recruited. Pain, locomotor function, and HRQoL were evaluated one day before and 6 months after TKA by means of a visual analogue scale (VAS) for knee pain, the function score of the Knee Society (KS), the metabolic cost of gait (C), the total mechanical work during gait (Wtot), and the Medical Outcomes Study Short Form-36 Health Survey (MOS SF-36). Our results showed a decrease in knee pain and metabolic cost of gait and an improvement in quality of life. Moreover we showed a relationship between: (1) the VAS score for knee pain, the function score of the KS, and MOS SF-36 Physical Functioning, Role-Physical, and Bodily Pain subscales; and (2) the C, the Wtot, and the MOS SF-36 Vitality subscale.

Published

2004

6. Determining the response of optical systems in both time and harmonic domains with the singularity expansion method

Author

Ben Soltane Isam, Colom Rémi, Dierick Félice, Stout Brian, and Bonod Nicolas

Subjects

Physics, QC1-999

Abstract

Physical systems are characterized by their transfer operators in the harmonic domain. These operators are usually locally approximated as rational functions or pole expansions. We generalize this result and introduce the Multiple-Order Singularity Expansion Method (MOSEM) which offers an exact description of linear systems in terms of their singularities and Laurent series coefficients or zeros. The interest of this approach is first illustrated by the simple but fundamental case of a dispersive Fabry-Perot cavity, where it provides an analytical expression of the reflected field in both the time and harmonic domains. In a second step, we show that this method must be applied for defining the complex expression of the dielectric permittivity that describes the physical response of a system (the material) to an excitation field. This rigorous expression of the permittivity is shown to provide highly accurate results for a broad range of materials.

Published

2023

7. Influence of gait pattern on the body's centre of mass displacement in children with cerebral palsy.

Author

Massaad F, Dierick F, van den Hecke A, Detrembleur C, Massaad, Firas, Dierick, Frédéric, van den Hecke, Adélaïde, and Detrembleur, Christine

Abstract

We assessed the influence of digitigrade gait pattern, topographical types, severity of motor involvement, and locomotor experience on the body's centre of mass (COM) displacement during gait in children with spastic cerebral palsy (CP). Three-dimensional COM displacements were computed from ground reaction forces in 51 independent digitigrade walkers (29 males, 22 females; mean age 10 years 6 months, SD 2 years 7 months, range 7 to 15 years). Results obtained from 10 participants without disabilities (five males, five females), in the same age range as the patients with CP, were used as a reference plantigrade group. Vertical and forward COM displacements were significantly different between the digitigrade and the plantigrade walkers. Neither the topographical type (quadriplegia, n=5; diplegia, n=20; right hemiplegia, n=13; left hemiplegia, n=13), nor the severity of motor involvement, nor the locomotor experience influenced COM displacements. We conclude that the COM displacement during gait in patients with CP was mainly influenced by the digitigrade gait pattern encountered in this neurological disorder rather than the different topographical types and motor involvements. [ABSTRACT FROM AUTHOR]

Published

2004

8. Development of displacement of centre of mass during independent walking in children.

Author

Dierick F, Lefebvre C, van den Hecke A, Detrembleur C, Dierick, Frédéric, Lefebvre, Caroline, van den Hecke, Adélaïde, and Detrembleur, Christine

Abstract

The aims of this study were to assess the characteristics of three-dimensional displacement of the centre of mass of the body (CMb) during walking in healthy children and to compare it with those of young adults. Twenty-one children (11 males, 10 females; age range 1 to 9 years) were recruited from the nursery and school attached to the Université catholique de Louvain, Brussels, Belgium; and three young adults (one male two females; mean age 26 years 4 months) were recruited from the Rehabilitation and Physical Medicine Unit of the same university. Displacement of CMb was assessed at different walking velocities in the children and adults by two successive mathematical integrations of ground reaction forces, measured by a large strain-gauge force platform. Displacement of CMb was controlled for leg length of the participant to eliminate the scaling effect that is dependent on growth. Results showed that vertical and lateral amplitudes of the CMb when controlled for leg length were greater for children before 4 years of age and that the forward amplitude when controlled for leg length was greater for children before 7 years of age. We conclude that the development of mature human CMb displacement during independent walking is a gradual neural process, evolving until the age of 7 years. [ABSTRACT FROM AUTHOR]

Published

2004

9. Influence of an upper cervical thrust on the motor control of the neck: A single blind randomized trial.

Author

Hage, R., Dierick, F., Thiry, P., and Ahmaïdi, S.

Published

2016

10. Single-Cell Multi-Omics Profiling of Immune Cells Isolated from Atherosclerotic Plaques in Male ApoE Knockout Mice Exposed to Arsenic.

Author

Makhani K, Yang X, Dierick F, Subramaniam N, Gagnon N, Ebrahimian T, Lehoux S, Wu H, Ding J, and Mann KK

Subjects

Animals, Mice, Male, Mice, Knockout, Single-Cell Analysis, Atherosclerosis chemically induced, Transcriptome drug effects, Water Pollutants, Chemical toxicity, Macrophages drug effects, Mice, Knockout, ApoE, Multiomics, Arsenic toxicity, Plaque, Atherosclerotic chemically induced, Apolipoproteins E genetics

Abstract

Background: Millions worldwide are exposed to elevated levels of arsenic that significantly increase their risk of developing atherosclerosis, a pathology primarily driven by immune cells. While the impact of arsenic on immune cell populations in atherosclerotic plaques has been broadly characterized, cellular heterogeneity is a substantial barrier to in-depth examinations of the cellular dynamics for varying immune cell populations., Objectives: This study aimed to conduct single-cell multi-omics profiling of atherosclerotic plaques in apolipoprotein E knockout ( ApoE -/- ) mice to elucidate transcriptomic and epigenetic changes in immune cells induced by arsenic exposure., Methods: The ApoE -/- mice were fed a high-fat diet and were exposed to either 200  ppb arsenic in drinking water or a tap water control, and single-cell multi-omics profiling was performed on atherosclerotic plaque-resident immune cells. Transcriptomic and epigenetic changes in immune cells were analyzed within the same cell to understand the effects of arsenic exposure., Results: Our data revealed that the transcriptional profile of macrophages from arsenic-exposed mice were significantly different from that of control mice and that differences were subtype specific and associated with cell-cell interaction and cell fates. Additionally, our data suggest that differences in arsenic-mediated changes in chromosome accessibility in arsenic-exposed mice were statistically more likely to be due to factors other than random variation compared to their effects on the transcriptome, revealing markers of arsenic exposure and potential targets for intervention., Discussion: These findings in mice provide insights into how arsenic exposure impacts immune cell types in atherosclerosis, highlighting the importance of considering cellular heterogeneity in studying such effects. The identification of subtype-specific differences and potential intervention targets underscores the significance of understanding the molecular mechanisms underlying arsenic-induced atherosclerosis. Further research is warranted to validate these findings and explore therapeutic interventions targeting immune cell dysfunction in arsenic-exposed individuals. https://doi.org/10.1289/EHP14285.

Published

2025

11. Evaluating cervical spine mobility and Fitt's law compliance: The DidRen laser test adapted for virtual reality with age and sex effects.

Author

Dierick F, Hage R, Estievenart W, Bruno J, Nocent O, Bertucci W, and Buisseret F

Subjects

Humans, Female, Male, Adult, Cross-Sectional Studies, Sex Factors, Middle Aged, Age Factors, Young Adult, Lasers, Range of Motion, Articular physiology, Virtual Reality, Cervical Vertebrae

Abstract

Cervical spine mobility assessment is crucial in rehabilitation to monitor patient progress. This study introduces the DidRen VR test, a virtual reality (VR) adaptation of the conventional DidRen laser test, aimed at evaluating cervical spine mobility. We conducted a cross-sectional study involving fifty healthy participants that underwent the DidRen VR test. The satisfaction of Fitts' law within this VR adaptation was examined and we analyzed the effects of age and sex on the sensorimotor performance metrics. Our findings confirm that Fitts' law is satisfied, demonstrating a predictable relationship between movement time and the index of difficulty, which suggest that the DidRen VR test can simulate real-world conditions. A clear influence of age and sex on performance was observed, highlighting significant differences in movement efficiency and accuracy across demographics, which may necessitate personalized assessment strategies in clinical rehabilitation practices. The DidRen VR test presents an effective tool for assessing cervical spine mobility, validated by Fitts' law. It offers a viable alternative to real-world method, providing precise control over test conditions and enhanced engagement for participants. Since age and sex significantly affect sensorimotor performance, personalized assessments are essential. Further research is recommended to explore the applicability of the DidRen VR test in clinical settings and among patients with neck pain., Competing Interests: Declaration of competing interest On behalf of all authors, the corresponding author states that there is no conflict of interest., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published

2024

12. Rethinking neck-related arm pain: hypothetical clinical scenarios to differentiate the underlying IASP-defined pain mechanisms.

Author

Hage R, Roussel N, Dierick F, Da Natividade J, Jones M, and Fourré A

Subjects

Humans, Neuralgia physiopathology, Neuralgia diagnosis, Neuralgia therapy, Radiculopathy physiopathology, Radiculopathy diagnosis, Neck Pain physiopathology, Arm physiopathology

Abstract

Neck-related arm pain is frequently encountered in clinical settings, yet its underlying pain mechanisms remain elusive. While such pain radiating from the neck to the arm is often attributed to injuries or diseases of the nervous system (neuropathic pain), it can also arise from nociceptive (referred) or nociplastic sources. Regrettably, patients exhibiting this specific pain distribution are frequently diagnosed with varying terms, including 'cervicobrachialgia', 'cervicobrachial neuralgia', 'cervicobrachial pain syndrome', and 'cervical radiculopathy'. The ambiguity surrounding these diagnostic labels complicates the clinical reasoning process. It is imperative for clinicians to discern and comprehend the dominant pain mechanism. Three distinct hypothetical clinical scenarios depict patients with almost identical pain distribution but divergent dominant pain mechanisms. Within these scenarios, both subjective and objective examinations are employed to elucidate the dominant pain mechanism associated with neck-related arm pain: nociceptive, neuropathic, and nociplastic. Furthermore, clinicians must remain aware that the dominant pain mechanism can evolve over time.

Published

2024

13. Evaluating the additive diagnostic value of DidRen LaserTest: Correlating temporal and kinematic predictors and patient-reported outcome measures in acute-subacute non-specific neck pain.

Author

Hage G, Buisseret F, Brismée JM, Dierick F, Detrembleur C, and Hage R

Subjects

Humans, Biomechanical Phenomena, Male, Female, Adult, Middle Aged, Neck Pain diagnosis, Neck Pain physiopathology, Patient Reported Outcome Measures

Abstract

Competing Interests: Declaration of competing interest None.

Published

2024

14. Resonance tuning of rhythmic movements is disrupted at short time scales: A centrifuge study.

Author

White O, Dehouck V, Boulanger N, Dierick F, Babič J, Goswami N, and Buisseret F

Abstract

The human body exploits its neural mechanisms to optimize actions. Rhythmic movements are optimal when their frequency is close to the natural frequency of the system. In a pendulum, gravity modulates this spontaneous frequency. Participants unconsciously adjust their natural pace when cyclically moving the arm in altered gravity. However, the timescale of this adaptation is unexplored. Participants performed cyclic movements before, during, and after fast transitions between hypergravity levels (1g-3g and 3g-1g) induced by a human centrifuge. Movement periods were modulated with the average value of gravity during transitions. However, while participants increased movement pace on a cycle basis when gravity increased (1g-3g), they did not decrease pace when gravity decreased (3g-1g). We highlight asymmetric effects in the spontaneous adjustment of movement dynamics on short timescales, suggesting the involvement of cognitive factors, beyond standard dynamical models., Competing Interests: The authors declare no competing interests., (© 2024 Published by Elsevier Inc.)

Published

2024

15. Occupational Risk Factors for Musculoskeletal Disorders among Workers in Dairy Diversification.

Author

Buisseret F, Draye N, Di Santo C, Pacewicz J, Pannetier J, Dierick F, and Telliez F

Abstract

Background: In a changing European agricultural context, diversification of dairy farms is gaining attention. This study seeks to (1) assess musculoskeletal pain prevalence associated with tasks such as butter, yogurt, and cheese production; and (2) analyze associated risks., Methods: Observing 31, mostly female, workers, we utilized the ERGOROM questionnaire, a methodology adapted from the Institut National de Recherche et de Sécurité, and Key Indicator Method forms., Results: Findings revealed that tasks like load carrying (42% of workers), manual work (17%), and awkward postures (14%) resulted in musculoskeletal pain, predominantly in the lower back (65%), neck (39%), and dominant upper limb areas (shoulder: 61%, elbow: 26%, and wrist: 65%). While psychosocial risks remained low, concerns arose from workload, hygiene standards, and resource unpredictability., Conclusions: As dairy farming evolves from artisanal to semi-industrial, our study emphasizes the importance of ergonomic adaptations to protect farmers' health and prevent musculoskeletal disorders during diversification.

Published

2024

16. CHECGAIT: A Functional Electrical Stimulation Clinical Pathway to Reduce Foot Drop during Walking in Adult Patients with Upper Motor Neuron Lesions.

Author

Areno G, Chantraine F, Schreiber C, Masson X, Classen T, Pereira JAC, and Dierick F

Abstract

Foot drop during the swing phase of gait and at initial foot contact is a current kinematic abnormality that can occur following an upper motor neuron (UMN) lesion. Functional electrical stimulation (FES) of the common peroneal nerve through an assistive device is often used in neuro-rehabilitation to help patients regain mobility. Although there are FES-specific guideline recommendations, it remains a challenge for clinicians to appropriately select patients eligible for the daily use of FES devices, as very few health insurance systems cover its cost in Europe. In Luxembourg, since 2018, successfully completing an FES clinical pathway called CHECGAIT is a prerequisite to receiving financial coverage for FES devices from the national health fund (Caisse Nationale de Santé-CNS). This study describes the structure and steps of CHECGAIT and reports our experience with a cohort of 100 patients enrolled over a three-year period. The clinical and gait outcomes of all patients were retrospectively quantified, and a specific analysis was performed to highlight differences between patients with and without an FES device prescription at the end of a CHECGAIT. Several significant gait differences were found between these groups. These results and CHECGAIT may help clinicians to better select patients who can most benefit from this technology in their daily lives. In addition, CHECGAIT could provide significant savings to public health systems by avoiding unnecessary deliveries of FES devices.

Published

2023

17. Description and rules of a new card game to learn clinical reasoning in musculoskeletal physiotherapy.

Author

Hage R, Fourré A, Ramonfosse L, Leteneur S, Jones M, and Dierick F

Subjects

Humans, Clinical Reasoning, Physical Therapy Modalities, Learning, Students

Abstract

Teaching hypothetico-deductive clinical reasoning (CR) should be an essential part of the physiotherapy education system, but currently there are very few learning tools for teachers in the musculoskeletal discipline. The aim of this article was to describe and present the rules of a new game-based and structured didactic tool that can be used by teachers for 'players' (students and licensed clinicians) to learn systematic CR in musculoskeletal physiotherapy.Our tool is based on the 'Happy Families' card game, and we propose to use it as part of a classic musculoskeletal subjective examination-based hypothesis category framework and the International Classification of Functioning, Disability and Health model. It allows players to dynamically formulate hypotheses from clinical case studies. Each 'Family' of cards represents a hypothesis category. The game highlights the missing information and trains players to consider it in their CR.This game should efficiently structure all components of CR and is an interesting resource for all teachers. Its greatest strength is that it can be used with other category frameworks. Further studies are needed to assess the efficacy and efficiency of such a tool and to measure students' actual progress in learning the CR.

Published

2023

18. B cell-specific knockout of AID protects against atherosclerosis.

Author

Ebrahimian T, Dierick F, Ta V, Kotsiopriftis M, O'Connor Miranda J, Mann KK, Orthwein A, and Lehoux S

Subjects

Animals, Mice, B-Lymphocytes, Cell Differentiation, Hydrolases metabolism, Immunoglobulin M metabolism, Mice, Inbred C57BL, Mice, Knockout, Receptors, LDL genetics, Receptors, LDL metabolism, AICDA (Activation-Induced Cytidine Deaminase), Atherosclerosis genetics, Atherosclerosis prevention & control, Atherosclerosis metabolism, Plaque, Atherosclerotic genetics, Plaque, Atherosclerotic metabolism, Cytidine Deaminase genetics

Abstract

Antigen-naive IgM-producing B cells are atheroprotective, whereas mature B cells producing class-switched antibodies promote atherosclerosis. Activation-induced cytidine deaminase (AID), which mediates class switch recombination (CSR), would thus be expected to foster atherosclerosis. Yet, AID also plays a major role in the establishment of B cell tolerance. We sought to define whether AID affects atherosclerotic plaque formation. We generated Ldlr -/- chimeras transplanted with bone marrow from Aicda -/- or wild-type (WT) mice, fed a HFD for 14 weeks. Decreased B cell maturation in Ldlr -/- Aicda -/- mice was demonstrated by 50% reduction in splenic and aortic BAFFR expression, a key signaling component of B2 cell maturation. This was associated with increased plasma IgM in Ldlr -/- Aicda -/- compared with Ldlr -/- WT animals. Importantly, Ldlr -/- Aicda -/- mice had reduced atherosclerotic lesion area (0.20 ± 0.03mm 2 ) compared with Ldlr -/- WT (0.30 ± 0.04mm 2 , P < 0.05), although no differences in plaque composition were noted between groups. In addition, immunofluorescence analysis revealed increased splenic B and T cell areas independent of cell number. AID depletion directly inhibits atherosclerotic plaque formation., (© 2023. The Author(s).)

Published

2023

19. Quasi-experimental pilot study to improve mobility and balance in recurrently falling nursing home residents by voluntary non-targeted side-stepping exercise intervention.

Author

Dierick F, Bouché AF, Guérin S, Steinmetz JP, Federspiel C, Barvaux V, and Buisseret F

Subjects

Humans, Pilot Projects, Nursing Homes, Postural Balance, Exercise Therapy methods, Exercise

Abstract

Background: Side-stepping is a potential exercise program to reduce fall risk in community-dwelling adults in their seventies, but it has never been tested in nursing home residents. This was a pilot quasi-experimental study to examine the feasibility and potential mobility and balance benefits of an intervention based on voluntary non-targeted side-stepping exercises in nursing home residents who fall recurrently., Methods: Twenty-two participants were recruited and non-randomly assigned to an intervention group ([Formula: see text]11, side-stepping exercises, STEP) participating in an 8-week protocol and to a control group ([Formula: see text]11, usual physiotherapy care, CTRL). They were clinically assessed at 4-time points: baseline, after 4 and 8 weeks, and after a 4-week follow-up period (usual physiotherapy care). Statistical differences between time points were assessed with a Friedman repeated measures ANOVA on ranks or a one-way repeated measures ANOVA., Results: Compared to baseline, significant benefits were observed in the STEP group at 8 weeks for the Timed Up and Go ([Formula: see text]0.020) and 6-minute walking test ([Formula: see text]0.001) as well as for the Berg Balance Scale ([Formula: see text]0.041) and Mini motor test ([Formula: see text]0.026). At follow-up, the Tinetti Performance Oriented Mobility Assessment and Berg Balance Scale significantly worsened in the STEP group ([Formula: see text]0.009 and [Formula: see text]0.001, respectively). No significant differences were found between the groups at the same time points., Conclusions: Our intervention was feasible and improved mobility and balance after almost 8 weeks. Studies with larger samples and randomized control trials are needed to consolidate our preliminary observations and confirm the deterioration of some tests when side-stepping exercises are discontinued., Trial Registration: Identifier: ISRCTN13584053. Retrospectively registered 01/09/2022., (© 2022. The Author(s).)

Published

2022

20. Comparison of the movement behaviour of experienced and novice performers during the Cat exercise.

Author

Hallemans A, Jacobs E, Gielen J, Van Den Dries L, Van Moorsel A, Buisseret F, Dierick F, and Roussel N

Subjects

Humans, Cats, Animals, Knee, Knee Joint, Biomechanical Phenomena, Movement, Lower Extremity

Abstract

Two previous studies showed kinematic differences between novice and experienced performers during unchoreographed movements executed in standing position. However, no study explores if these kinematic differences holds during unchoreographed movements executed in quadrupedal position. The aim of this study is to compare the movement behaviour of experienced and novice performers during an exercise wherein they are challenged to use dynamic and largely unchoreographed movement patterns executed in quadrupedal position. The exercise studied was the Cat exercise, in which participants were asked to behave like a feline for 10 minutes. An inventory of the chosen movements and the assessment of their average and coefficient of variation of the ground contact temporal parameters, computed by analysing the tri-dimensional whole-body kinematics of 25 performers (n = 13 novices and n = 12 experienced), was compared according to their experience level. No significant difference was found between the groups for the number of chosen movements, and median or coefficient of variation of ground contact temporal parameters, except for a greater foot/ knee swing coefficient of variation in experienced performers. This suggests that biomechanical constraints induced by quadrupedal position "prevent" a different selection of motor strategies by experienced performers, although the latter can be more variable in their movements., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2022 Hallemans et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2022

21. Wearable Sensors Applied in Movement Analysis.

Author

Buisseret F, Dierick F, and Van der Perre L

Subjects

Movement, Electronics, Wearable Electronic Devices

Abstract

Recent advances in the miniaturization of electronics have resulted in sensors whose sizes and weights are such that they can be attached to living systems without interfering with their natural movements and behaviors [...].

Published

2022

22. Classification of Stiff-Knee Gait Kinematic Severity after Stroke Using Retrospective k-Means Clustering Algorithm.

Author

Chantraine F, Schreiber C, Pereira JAC, Kaps J, and Dierick F

Abstract

Nowadays, a classification system for unilateral stiff-knee gait (SKG) kinematic severity in hemiparetic adult patients after stroke does not exist. However, such classification would be useful to the clinicians. We proposed the use of the k-means method in order to define unilateral SKG severity clusters in hemiparetic adults after stroke. A retrospective k-means cluster analysis was applied to five selected knee kinematic parameters collected during gait in 96 hemiparetic adults and 19 healthy adults from our clinical gait analysis database. A total of five discrete knee kinematic clusters were determined. Three clusters of SKG were identified, based on which a three-level severity classification was defined: unbend-knee gait, braked-knee gait, and frozen-limb gait. Preliminary construct validity of the classification was obtained. All selected knee kinematic parameters defining the five clusters and the majority of usual kinematic parameters of the lower limbs showed statistically significant differences between the different clusters. We recommend diagnosing SKG for values strictly below 40° of knee flexion during the swing phase. Clinicians and researchers are now able to specify the level of kinematic severity of SKG in order to optimize treatment choices and future clinical trial eligibility criteria.

Published

2022

23. Adiabatic Invariant of Center-of-Mass Motion during Walking as a Dynamical Stability Constraint on Stride Interval Variability and Predictability.

Author

Buisseret F, Dehouck V, Boulanger N, Henry G, Piccinin F, White O, and Dierick F

Abstract

Human walking exhibits properties of global stability, and local dynamic variability, predictability, and complexity. Global stability is typically assessed by quantifying the whole-body center-of-mass motion while local dynamic variability, predictability, and complexity are assessed using the stride interval. Recent arguments from general mechanics suggest that the global stability of gait can be assessed with adiabatic invariants, i.e., quantities that remain approximately constant, even under slow external changes. Twenty-five young healthy participants walked for 10 min at a comfortable pace, with and without a metronome indicating preferred step frequency. Stride interval variability was assessed by computing the coefficient of variation, predictability using the Hurst exponent, and complexity via the fractal dimension and sample entropy. Global stability of gait was assessed using the adiabatic invariant computed from averaged kinetic energy value related to whole-body center-of-mass vertical displacement. We show that the metronome alters the stride interval variability and predictability, from autocorrelated dynamics to almost random dynamics. However, despite these large local variability and predictability changes, the adiabatic invariant is preserved in both conditions, showing the global stability of gait. Thus, the adiabatic invariant theory reveals dynamical global stability constraints that are "hidden" behind apparent local walking variability and predictability.

Published

2022

24. Machine Learning Identifies Chronic Low Back Pain Patients from an Instrumented Trunk Bending and Return Test.

Author

Thiry P, Houry M, Philippe L, Nocent O, Buisseret F, Dierick F, Slama R, Bertucci W, Thévenon A, and Simoneau-Buessinger E

Subjects

Bayes Theorem, Biomechanical Phenomena, Humans, Machine Learning, Movement, Torso, Low Back Pain diagnosis

Abstract

Nowadays, the better assessment of low back pain (LBP) is an important challenge, as it is the leading musculoskeletal condition worldwide in terms of years of disability. The objective of this study was to evaluate the relevance of various machine learning (ML) algorithms and Sample Entropy (SampEn), which assesses the complexity of motion variability in identifying the condition of low back pain. Twenty chronic low-back pain (CLBP) patients and 20 healthy non-LBP participants performed 1-min repetitive bending (flexion) and return (extension) trunk movements. Analysis was performed using the time series recorded by three inertial sensors attached to the participants. It was found that SampEn was significantly lower in CLBP patients, indicating a loss of movement complexity due to LBP. Gaussian Naive Bayes ML proved to be the best of the various tested algorithms, achieving 79% accuracy in identifying CLBP patients. Angular velocity of flexion movement was the most discriminative feature in the ML analysis. This study demonstrated that: supervised ML and a complexity assessment of trunk movement variability are useful in the identification of CLBP condition, and that simple kinematic indicators are sensitive to this condition. Therefore, ML could be progressively adopted by clinicians in the assessment of CLBP patients.

Published

2022

25. Metabolic Energy Expenditure and Accelerometer-Determined Physical Activity Levels in Post-Stroke Hemiparetic Patients.

Author

Fonte G, Schreiber C, Areno G, Masson X, Chantraine F, Schütz G, and Dierick F

Subjects

Accelerometry methods, Cross-Sectional Studies, Exercise, Humans, Walking, Energy Metabolism, Stroke complications, Stroke diagnosis

Abstract

Background: Assessment of metabolic energy expenditure in post-stroke patients using accelerometers is clinically important. However, understanding of the best placement of accelerometers on the body and methods for calculating activity counts are limited., Methods: Thirty hemiparetic post-stroke patients participated in this cross-sectional study. Four triaxial accelerometers were attached to the hemiplegic and contralateral sides of the waist and ankles during various activities: lying, sitting, standing, stepping in place, and walking on a treadmill (1-5 kmh -1 ). Activity counts and metabolic energy expenditure of the patients were recorded simultaneously. Simple linear regression analyses were performed between the activity counts and energy expenditure. Activities were classified according to their intensity, using the definition of energetic sedentary behavior of post-stroke patients and a low fitness level group., Results: The best estimate of energy expenditure was obtained when the accelerometer was worn on the contralateral ankle and the activity counts was calculated using the vertical and anteroposterior axes (R 2 =0.812). Six classes of activity intensity (sedentary: ≤1.5 METs, very light: 1.51-1.79, light: 1.80-2.59, moderate: 2.60-3.39, hard: 3.40-4.39, and very hard: ≥4.40) and corresponding activity counts cut-off points are presented., Conclusion: A triaxial accelerometer worn on the contralateral ankle and a method of calculating activity counts that includes at least the vertical and anteroposterior axes are recommended for estimating metabolic energy expenditure in post-stroke patients. The new activity counts cut-off points provide a significant advance in the interpretation of post-stroke monitoring in patients outside the hospital or rehabilitation center., (Copyright © 2022 Elsevier Inc. All rights reserved.)

Published

2022

26. The Platelet-Derived Growth Factor Pathway in Pulmonary Arterial Hypertension: Still an Interesting Target?

Author

Solinc J, Ribot J, Soubrier F, Pavoine C, Dierick F, and Nadaud S

Abstract

The lack of curative options for pulmonary arterial hypertension drives important research to understand the mechanisms underlying this devastating disease. Among the main identified pathways, the platelet-derived growth factor (PDGF) pathway was established to control vascular remodeling and anti-PDGF receptor (PDGFR) drugs were shown to reverse the disease in experimental models. Four different isoforms of PDGF are produced by various cell types in the lung. PDGFs control vascular cells migration, proliferation and survival through binding to their receptors PDGFRα and β. They elicit multiple intracellular signaling pathways which have been particularly studied in pulmonary smooth muscle cells. Activation of the PDGF pathway has been demonstrated both in patients and in pulmonary hypertension (PH) experimental models. Tyrosine kinase inhibitors (TKI) are numerous but without real specificity and Imatinib, one of the most specific, resulted in beneficial effects. However, adverse events and treatment discontinuation discouraged to pursue this therapy. Novel therapeutic strategies are currently under experimental evaluation. For TKI, they include intratracheal drug administration, low dosage or nanoparticles delivery. Specific anti-PDGF and anti-PDGFR molecules can also be designed such as new TKI, soluble receptors, aptamers or oligonucleotides.

Published

2022

27. Design and development of Branched Poly(ß-aminoester) nanoparticles for Interleukin-10 gene delivery in a mouse model of atherosclerosis.

Author

Distasio N, Dierick F, Ebrahimian T, Tabrizian M, and Lehoux S

Subjects

Animals, Anti-Inflammatory Agents therapeutic use, Disease Models, Animal, Endothelial Cells metabolism, Inflammation drug therapy, Interleukin-10 genetics, Interleukin-10 metabolism, Mice, Vascular Cell Adhesion Molecule-1 genetics, Vascular Cell Adhesion Molecule-1 metabolism, Vascular Cell Adhesion Molecule-1 therapeutic use, Atherosclerosis drug therapy, Atherosclerosis therapy, Nanoparticles, Plaque, Atherosclerotic metabolism

Abstract

Atherosclerosis progression is a result of chronic and non-resolving inflammation, effective treatments for which still remain to be developed. We designed and developed branched poly(ß-amino ester) nanoparticles (NPs) containing plasmid DNA encoding IL-10, a potent anti-inflammatory cytokine to atherosclerosis. The NPs (NP-VHPK) are functionalized with a targeting peptide (VHPK) specific for VCAM-1, which is overexpressed by endothelial cells at sites of atherosclerotic plaque. The anionic coating affords NP-VHPK with significantly lower toxicity than uncoated NPs in both endothelial cells and red blood cells (RBCs). Following injection of NP-VHPK in ApoE -/- mice, Cy5-labelled IL-10 significantly accumulates in both whole aortas and aortic sinus sections containing plaque compared to injection with a non-targeted control. Furthermore, IL-10 gene delivery results in an attenuation of inflammation locally at the plaque site. NP-VHPK may thus have the potential to reduce the inflammatory component of atherosclerosis in a safe and effective manner. STATEMENT OF SIGNIFICANCE: Atherosclerosis is a chronic inflammatory disease that results in the formation of lipid-laden plaques within vascular walls. Although treatments using drugs and antibodies are now beginning to address the inflammation in atherosclerosis, neither is sufficient for long-term therapy. In this paper, we introduce a strategy to deliver genes encoding the anti-inflammatory protein interleukin-10 (IL-10) in vivo. We showed that Branched Poly(ß-aminoester) carrying the IL-10 gene are able to localize specifically at the plaque via surface-functionalized targeting moieties against inflamed VCAM-1 and/or ICAM-1 and to facilitate gene transcription by ECs to increase the local concentration of the IL-10 within the plaque. To date, there is no report involving non-viral nanotechnology to provide gene-based therapies for atherosclerosis., Competing Interests: Declaration of Competing Interest Authors declare no financial and personal relationships with other people or organizations that could inappropriately influence their work., (Copyright © 2022 The Author(s). Published by Elsevier Ltd.. All rights reserved.)

Published

2022

28. Head Pitch Angular Velocity Discriminates (Sub-)Acute Neck Pain Patients and Controls Assessed with the DidRen Laser Test.

Author

Hage R, Buisseret F, Houry M, and Dierick F

Subjects

Artificial Intelligence, Biomechanical Phenomena, Humans, Lasers, Neck physiology, Acute Pain, Neck Pain diagnosis

Abstract

Understanding neck pain is an important societal issue. Kinematic data from sensors may help to gain insight into the pathophysiological mechanisms associated with neck pain through a quantitative sensorimotor assessment of one patient. The objective of this study was to evaluate the potential usefulness of artificial intelligence with several machine learning (ML) algorithms in assessing neck sensorimotor performance. Angular velocity and acceleration measured by an inertial sensor placed on the forehead during the DidRen laser test in thirty-eight acute and subacute non-specific neck pain (ANSP) patients were compared to forty-two healthy control participants (HCP). Seven supervised ML algorithms were chosen for the predictions. The most informative kinematic features were computed using Sequential Feature Selection methods. The best performing algorithm is the Linear Support Vector Machine with an accuracy of 82% and Area Under Curve of 84%. The best discriminative kinematic feature between ANSP patients and HCP is the first quartile of head pitch angular velocity. This study has shown that supervised ML algorithms could be used to classify ANSP patients and identify discriminatory kinematic features potentially useful for clinicians in the assessment and monitoring of the neck sensorimotor performance in ANSP patients.

Published

2022

29. Platelet-Derived Growth Factor Receptor Type α Activation Drives Pulmonary Vascular Remodeling Via Progenitor Cell Proliferation and Induces Pulmonary Hypertension.

Author

Solinc J, Raimbault-Machado J, Dierick F, El Bernoussi L, Tu L, Thuillet R, Mougenot N, Hoareau-Coudert B, Monceau V, Pavoine C, Atassi F, Sassoon D, Marazzi G, Harvey RP, Schofield P, Christ D, Humbert M, Guignabert C, Soubrier F, and Nadaud S

Subjects

Animals, Cell Proliferation, Cells, Cultured, Humans, Hypoxia, Lung, Male, Mice, Muscle, Smooth, Vascular metabolism, Myocytes, Smooth Muscle metabolism, Pulmonary Artery, Vascular Remodeling, Hypertension, Pulmonary metabolism, Receptor, Platelet-Derived Growth Factor alpha metabolism

Abstract

Background Platelet-derived growth factor is a major regulator of the vascular remodeling associated with pulmonary arterial hypertension. We previously showed that protein widely 1 (PW1 + ) vascular progenitor cells participate in early vessel neomuscularization during experimental pulmonary hypertension (PH) and we addressed the role of the platelet-derived growth factor receptor type α (PDGFRα) pathway in progenitor cell-dependent vascular remodeling and in PH development. Methods and Results Remodeled pulmonary arteries from patients with idiopathic pulmonary arterial hypertension showed an increased number of perivascular and vascular PW1 + cells expressing PDGFRα. PW1 nLacZ reporter mice were used to follow the fate of pulmonary PW1 + progenitor cells in a model of chronic hypoxia-induced PH development. Under chronic hypoxia, PDGFRα inhibition prevented the increase in PW1 + progenitor cell proliferation and differentiation into vascular smooth muscle cells and reduced pulmonary vessel neomuscularization, but did not prevent an increased right ventricular systolic pressure or the development of right ventricular hypertrophy. Conversely, constitutive PDGFRα activation led to neomuscularization via PW1 + progenitor cell differentiation into new smooth muscle cells and to PH development in male mice without fibrosis. In vitro, PW1 + progenitor cell proliferation, but not differentiation, was dependent on PDGFRα activity. Conclusions These results demonstrate a major role of PDGFRα signaling in progenitor cell-dependent lung vessel neomuscularization and vascular remodeling contributing to PH development, including in idiopathic pulmonary arterial hypertension patients. Our findings suggest that PDGFRα blockers may offer a therapeutic add-on strategy to combine with current pulmonary arterial hypertension treatments to reduce vascular remodeling. Furthermore, our study highlights constitutive PDGFRα activation as a novel experimental PH model.

Published

2022

30. An interactive e-learning module to promote bio-psycho-social management of low back pain in healthcare professionals: a pilot study.

Author

Fourré A, Fierens A, Michielsen J, Ris L, Dierick F, and Roussel N

Subjects

Health Knowledge, Attitudes, Practice, Health Personnel, Humans, Pilot Projects, Computer-Assisted Instruction, Low Back Pain therapy

Abstract

Introduction: Low back pain (LBP) is ranked as the first musculoskeletal disorder considering years lived with disability worldwide. Despite numerous guidelines promoting a bio-psycho-social (BPS) approach in the management of patients with LBP, many health care professionals (HCPs) still manage LBP patients mainly from a biomedical point of view., Objective: The purpose of this pilot study was to evaluate the feasibility of implementing an interactive e-learning module on the management of LBP in HCPs., Methods: n total 22 HCPs evaluated the feasibility of the e-learning module with a questionnaire and open questions. Participants filled in the Back Pain Attitude Questionnaire (Back-PAQ) before and after completing the module to evaluate their attitudes and beliefs about LBP., Results: The module was structured and easy to complete (91%) and met the expectations of the participants (86%). A majority agreed that the module improved their knowledge (69%). Some participants (77%) identified specific topics that might be discussed in more detail in the module. HCPs knowledge, beliefs and attitudes about LBP significantly improved following module completion (t = -7.63, P < .001) with a very large effect size ( d s  = -1.63)., Conclusion: I The module seems promising to change knowledge, attitudes and beliefs of the participants. There is an urgent need to develop and investigate the effect of educational interventions to favor best practice in LBP management and this type of e-learning support could promote the transition from a biomedical to a bio-psycho-social management of LBP in HCPs.

Published

2022

31. High Specificity of Single Inertial Sensor-Supplemented Timed Up and Go Test for Assessing Fall Risk in Elderly Nursing Home Residents.

Author

Dierick F, Stoffel PL, Schütz G, and Buisseret F

Subjects

Aged, Biomechanical Phenomena, Humans, Nursing Homes, Time and Motion Studies, Mass Screening, Postural Balance

Abstract

The Timed Up and Go test (TUG) is commonly used to estimate the fall risk in the elderly. Several ways to improve the predictive accuracy of TUG (cameras, multiple sensors, other clinical tests) have already been proposed. Here, we added a single wearable inertial measurement unit (IMU) to capture the residents' body center-of-mass kinematics in view of improving TUG's predictive accuracy. The aim is to find out which kinematic variables and residents' characteristics are relevant for distinguishing faller from non-faller patients. Data were collected in 73 nursing home residents with the IMU placed on the lower back. Acceleration and angular velocity time series were analyzed during different subtasks of the TUG. Multiple logistic regressions showed that total time required, maximum angular velocity at the first half-turn, gender, and use of a walking aid were the parameters leading to the best predictive abilities of fall risk. The predictive accuracy of the proposed new test, called i + TUG, reached a value of 74.0%, with a specificity of 95.9% and a sensitivity of 29.2%. By adding a single wearable IMU to TUG, an accurate and highly specific test is therefore obtained. This method is quick, easy to perform and inexpensive. We recommend to integrate it into daily clinical practice in nursing homes.

Published

2022

32. Sensorimotor performance in acute-subacute non-specific neck pain: a non-randomized prospective clinical trial with intervention.

Author

Hage R, Detrembleur C, Dierick F, Brismée JM, Roussel N, and Pitance L

Subjects

Humans, Prospective Studies, Range of Motion, Articular, Reproducibility of Results, Cervical Vertebrae, Neck Pain diagnosis, Neck Pain therapy

Abstract

Background: The assessment of cervical spine kinematic axial rotation performance is of great importance in the context of the study of neck sensorimotor control. However, studies addressing the influence of the level of provocation of spinal pain and the potential benefit of passive manual therapy mobilizations in patients with acute-subacute non-specific neck pain are lacking., Methods: A non-randomized prospective clinical trial with an intervention design was conducted. We investigated: (1) the test-retest reliability of kinematic variables during a fast axial head rotation task standardized with the DidRen laser test device in 42 Healthy pain-free Control Participants (HCP) (24.3 years ±6.8); (2) the differences in kinematic variables between HCP and 38 patients with Acute-subacute Non-Specific neck Pain (ANSP) assigned to two different groups according to whether their pain was localized in the upper or lower spine (46.2 years ±16.3); and (3) the effect of passive manual therapy mobilizations on kinematic variables of the neck during fast axial head rotation., Results: (1) Intra-class correlation coefficients ranged from moderate (0.57 (0.06-0.80)) to excellent (0.96 (0.91-0.98)). (2) Kinematic performance during fast axial rotations of the head was significantly altered in ANSP compared to HCP (age-adjusted) for one variable: the time between peaks of acceleration and deceleration (p<0.019). No significant difference was observed between ANSP with upper vs lower spinal pain localization. (3) After the intervention, there was a significant effect on several kinematic variables, e.g., ANSP improved peak speed (p<0.007) and performance of the DidRen laser test (p<0.001), with effect sizes ranging from small to medium., Conclusion: (1) The DidRen laser test is reliable. (2) A significant reduction in time between acceleration and deceleration peaks was observed in ANSP compared to HCP, but with no significant effect of spinal pain location on kinematic variables was found. (3) We found that neck pain decreased after passive manual therapy mobilizations with improvements of several kinematic variables., Trial Registration: Registration Number: NCT04407637., (© 2021. The Author(s).)

Published

2021

33. Perceived Usefulness of Telerehabilitation of Musculoskeletal Disorders: A Belgium-France Pilot Study during Second Wave of COVID-19 Pandemic.

Author

Dierick F, Pierre A, Profeta L, Telliez F, and Buisseret F

Abstract

Background: COVID-19 has affected the practice of physiotherapy, and telerehabilitation (TR) may be seen as an alternative model of care if it is accepted by patients and physiotherapists. This study investigates the perceived usefulness of TR and the intention to use it among physiotherapists and patients from Belgium and France concerned with musculoskeletal disorders (MSDs) during the pandemic period., Methods: An online questionnaire based on the technology-acceptance model was designed. Sociodemographic data were collected and Likert scales were proposed to assess perceived ease-of-use, perceived usefulness and intention to use TR. Data were collected between 17 January and 17 March 2021; 68 patients and 107 physiotherapists answered., Results: In total, 88% of patients and 76% physiotherapists had not used TR at the time they answered. Only 12% of patients and 1% of physiotherapists are willing to use TR, and 50% of physiotherapists think they will never use TR compared to 25% of patients. A total of 98% of participants agreed that they had a good mastery of the technological tools requested., Conclusions: Physiotherapists are more reluctant to use TR than patients, regardless of convincing EBM results. This is related to their own representation of proper MSD management, which must include the use of hands-on techniques.

Published

2021

34. Motor strategies and adiabatic invariants: The case of rhythmic motion in parabolic flights.

Author

Boulanger N, Buisseret F, Dehouck V, Dierick F, and White O

Abstract

The role of gravity in human motor control is at the same time obvious and difficult to isolate. It can be assessed by performing experiments in variable gravity. We propose that adiabatic invariant theory may be used to reveal nearly conserved quantities in human voluntary rhythmic motion, an individual being seen as a complex time-dependent dynamical system with bounded motion in phase space. We study an explicit realization of our proposal: An experiment in which we asked participants to perform ∞- shaped motion of their right arm during a parabolic flight, either at self-selected pace or at a metronome's given pace. Gravity varied between 0 and 1.8 g during a parabola. We compute the adiabatic invariants in the participant's frontal plane assuming a separable dynamics. It appears that the adiabatic invariant in vertical direction increases linearly with g, in agreement with our model. Differences between the free and metronome-driven conditions show that participants' adaptation to variable gravity is maximal without constraint. Furthermore, motion in the participant's transverse plane induces trajectories that may be linked to higher-derivative dynamics. Our results show that adiabatic invariants are relevant quantities to show the changes in motor strategy in time-dependent environments.

Published

2021

35. Fine adaptive precision grip control without maximum pinch strength changes after upper limb neurodynamic mobilization.

Author

Dierick F, Brismée JM, White O, Bouché AF, Périchon C, Filoni N, Barvaux V, and Buisseret F

Subjects

Adult, Algorithms, Analysis of Variance, Female, Healthy Volunteers, Humans, Male, Median Nerve physiology, Models, Theoretical, Sensation, Students, Young Adult, Hand Strength, Physical Therapy Modalities, Pinch Strength

Abstract

Before and immediately after passive upper limb neurodynamic mobilizations targeting the median nerve, grip ([Formula: see text]) and load ([Formula: see text]) forces applied by the thumb, index and major fingers (three-jaw chuck pinch) were collected using a manipulandum during three different grip precision tasks: grip-lift-hold-replace (GLHR), vertical oscillations (OSC), and vertical oscillations with up and down collisions (OSC/COLL/u, OSC/COLL/d). Several parameters were collected or computed from [Formula: see text] and [Formula: see text]. Maximum pinch strength and fingertips pressure sensation threshold were also examined. After the mobilizations, [Formula: see text] max changes from 3.2 ± 0.4 to 3.4 ± 0.4 N (p = 0.014), d[Formula: see text] from 89.0 ± 66.6 to 102.2 ± 59.6 [Formula: see text] (p = 0.009), and d[Formula: see text] from 43.6 ± 17.0 to 56.0 ± 17.9 [Formula: see text] ([Formula: see text]0.001) during GLHR. [Formula: see text] SD changes from 0.9 ± 0.3 to 1.0 ± 0.2 N (p = 0.004) during OSC. [Formula: see text] peak changes from 17.4 ± 8.3 to 15.1 ± 7.5 N ([Formula: see text]0.001), [Formula: see text] from 12.4 ± 6.7 to 11.3 ± 6.8 N (p = 0.033), and [Formula: see text] from 2.9 ± 0.4 to 3.00 ± 0.4 N (p = 0.018) during OSC/COLL/u. [Formula: see text] peak changes from 13.5 ± 7.4 to 12.3 ± 7.7 N (p = 0.030) and [Formula: see text] from 14.5 ± 6.0 to 13.6 ± 5.5 N (p = 0.018) during OSC/COLL/d. Sensation thresholds at index and thumb were reduced (p = 0.001, p = 0.008). Precision grip adaptations observed after the mobilizations could be partly explained by changes in cutaneous median-nerve pressure afferents from the thumb and index fingertips.

Published

2021

36. Progenitor/Stem Cells in Vascular Remodeling during Pulmonary Arterial Hypertension.

Author

Dierick F, Solinc J, Bignard J, Soubrier F, and Nadaud S

Subjects

Animals, Cells, Cultured, Humans, Pulmonary Arterial Hypertension pathology, Stem Cells cytology, Stem Cells pathology, Vascular Remodeling

Abstract

Pulmonary arterial hypertension (PAH) is characterized by an important occlusive vascular remodeling with the production of new endothelial cells, smooth muscle cells, myofibroblasts, and fibroblasts. Identifying the cellular processes leading to vascular proliferation and dysfunction is a major goal in order to decipher the mechanisms leading to PAH development. In addition to in situ proliferation of vascular cells, studies from the past 20 years have unveiled the role of circulating and resident vascular in pulmonary vascular remodeling. This review aims at summarizing the current knowledge on the different progenitor and stem cells that have been shown to participate in pulmonary vascular lesions and on the pathways regulating their recruitment during PAH. Finally, this review also addresses the therapeutic potential of circulating endothelial progenitor cells and mesenchymal stem cells.

Published

2021

37. Kinematics and Esthetics of Grand Battement After Static and Dynamic Hamstrings Stretching in Adolescents.

Author

Dierick F, Buisseret F, Filiputti L, and Roussel N

Subjects

Adolescent, Biomechanical Phenomena, Humans, Range of Motion, Articular, Dancing, Esthetics, Hamstring Muscles

Abstract

The objective of this study was to explore the effects of static and dynamic hamstring muscles stretching on kinematics and esthetics of grand battement (high velocity kicks) in adolescent recreational dancers. Sixteen participants were assessed before and immediately after both stretching modalities. Kinematics of movement was measured by an optoelectronic system and esthetics was scored by a jury of professional dancers. Both stretching modalities led to significant kinematic differences compared with without stretching. Significant linear correlations between kinematic parameters and esthetic scores have been observed: improving dancers' physical performances has noticeable impact on the perception of their movements.

Published

2021

38. Asymptomatic Genu Recurvatum reshapes lower limb sagittal joint and elevation angles during gait at different speeds.

Author

Dierick F, Schreiber C, Lavallée P, and Buisseret F

Subjects

Ankle Joint physiology, Ankle Joint physiopathology, Biomechanical Phenomena, Case-Control Studies, Female, Foot physiology, Foot physiopathology, Humans, Knee physiology, Lower Extremity physiopathology, Male, Young Adult, Gait, Knee physiopathology, Knee Joint physiopathology, Lower Extremity physiology, Walking Speed

Abstract

Background: Kinematic characteristics of walking with an asymptomatic genu recurvatum are currently unknown. The objective of this study is to characterize the lower limb sagittal joint and elevation angles during walking in participants with asymptomatic genu recurvatum and compare it with control participants without knee deformation at different speeds., Methods: The spatio-temporal parameters and kinematics of the lower limb were recorded using an optoelectronic motion capture system in 26 participants (n = 13 with genu recurvatum and n = 13 controls). The participants walked on an instrumented treadmill during five minutes at three different speeds: slow, medium and fast., Results: Participants with genu recurvatum showed several significant differences with controls: a narrower step width, a greater maximum hip joint extension angle, a greater knee joint extension angle at mid stance, a lower maximum knee joint flexion angle during the swing phase, and a greater ankle joint extension angle at the end of the gait cycle. Participants with genu recurvatum had a greater minimum thigh elevation angle, a greater maximum foot elevation angle, and a change in the orientation of the covariance plane. Walking speed had a significant effect on nearly all lower limb joint and elevation angles, and covariance plane parameters., Conclusion: Our findings show that genu recurvatum reshapes lower limb sagittal joint and elevation angles during walking at different speeds but preserves the covariation of elevation angles along a plane during both stance and swing phases and the rotation of this plane with increasing speed., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2021 Elsevier B.V. All rights reserved.)

Published

2021

39. Low-Cost Sensors and Biological Signals.

Author

Dierick F, Buisseret F, and Eggermont S

Subjects

Accelerometry instrumentation, Autism Spectrum Disorder, Calibration, Heart Rate, Humans, Photoplethysmography, Monitoring, Ambulatory instrumentation, Wearable Electronic Devices

Abstract

Low-cost sensors, i [...].

Published

2021

40. Benefits of nonlinear analysis indices of walking stride interval in the evaluation of neurodegenerative diseases.

Author

Dierick F, Vandevoorde C, Chantraine F, White O, and Buisseret F

Subjects

Adult, Aging, Algorithms, Female, Humans, Huntington Disease physiopathology, Male, Middle Aged, Parkinson Disease physiopathology, Principal Component Analysis, Fractals, Gait, Gait Analysis methods, Neurodegenerative Diseases physiopathology, Walking

Abstract

Indices characterising the long-range temporal structure of walking stride interval (SI) variability such as Hurst exponent (H) and fractal dimension (D) may be used in addition to indices measuring the amount of variability like the coefficient of variation (CV). We assess the added value of the former indices in a clinical neurological context. Our aim is to demonstrate that they provide a clinical significance in aging and in frequent neurodegenerative diseases such as Parkinson's disease, Huntington, and amyotrophic lateral sclerosis. Indices assessing the temporal structure of variability are mainly dependent on SI time series length and algorithms used, making quantitative comparisons between different studies difficult or even impossible. Here, we recompute these indices from available SI time series, either from our lab or from online databases. More precisely, we recompute CV, H, and D in a unified way. The average SI is also added to the measured parameters. We confirm that variability indices are relevant indicators of aging process and neurodegenerative diseases. While CV is sensitive to aging process and pathology, it does not discriminate between specific neurodegenerative diseases. H, which measures predictability of SI, significantly decreases with age but increases in patients suffering from amyotrophic lateral sclerosis. D, catching complexity of SI, is correlated with total functional capacity in patients with Huntington's disease. We conclude that the computation of H complements the clinical diagnosis of walking in patients with neurodegenerative diseases and we recommend it as a relevant supplement to classical CV or averaged SI. Since H and D indices did not lead to the same observations, suggesting the multi-fractal nature of SI dynamics, we recommend to open clinical gait analysis to the evaluation of more parameters., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published

2021

41. Adiabatic invariants drive rhythmic human motion in variable gravity.

Author

Boulanger N, Buisseret F, Dehouck V, Dierick F, and White O

Subjects

Humans, Periodicity, Models, Biological, Male, Adult, Biomechanical Phenomena, Forearm physiology, Female, Gravitation, Movement

Abstract

Voluntary human movements are stereotyped. When modeled in the framework of classical mechanics they are expected to minimize cost functions that may include energy, a natural candidate from a physiological point of view also. In time-changing environments, however, energy is no longer conserved-regardless of frictional energy dissipation-and it is therefore not the preferred candidate for any cost function able to describe the subsequent changes in motor strategies. Adiabatic invariants are known to be relevant observables in such systems, although they still need to be investigated in human motor control. We fill this gap and show that the theory of adiabatic invariants provides an accurate description of how human participants modify a voluntary, rhythmic, one-dimensional motion of the forearm in response to variable gravity (from 1 to 3g). Our findings suggest that adiabatic invariants may reveal generic hidden constraints ruling human motion in time-changing gravity.

Published

2020

42. Timed Up and Go and Six-Minute Walking Tests with Wearable Inertial Sensor: One Step Further for the Prediction of the Risk of Fall in Elderly Nursing Home People.

Author

Buisseret F, Catinus L, Grenard R, Jojczyk L, Fievez D, Barvaux V, and Dierick F

Subjects

Aged, Artificial Intelligence, Female, Gait, Humans, Male, Nursing Homes, Risk Assessment, Walking, Accidental Falls prevention & control, Wearable Electronic Devices

Abstract

Assessing the risk of fall in elderly people is a difficult challenge for clinicians. Since falls represent one of the first causes of death in such people, numerous clinical tests have been created and validated over the past 30 years to ascertain the risk of falls. More recently, the developments of low-cost motion capture sensors have facilitated observations of gait differences between fallers and nonfallers. The aim of this study is twofold. First, to design a method combining clinical tests and motion capture sensors in order to optimize the prediction of the risk of fall. Second to assess the ability of artificial intelligence to predict risk of fall from sensor raw data only. Seventy-three nursing home residents over the age of 65 underwent the Timed Up and Go (TUG) and six-minute walking tests equipped with a home-designed wearable Inertial Measurement Unit during two sets of measurements at a six-month interval. Observed falls during that interval enabled us to divide residents into two categories: fallers and nonfallers. We show that the TUG test results coupled to gait variability indicators, measured during a six-minute walking test, improve (from 68% to 76%) the accuracy of risk of fall's prediction at six months. In addition, we show that an artificial intelligence algorithm trained on the sensor raw data of 57 participants reveals an accuracy of 75% on the remaining 16 participants.

Published

2020

43. FHL2 Is Essential for Spleen T Cell-Dependent B Cell Activation and Antibody Response.

Author

Ebrahimian T, Dierick F, Simon D, Heidari M, Orthwein A, Mann KK, and Lehoux S

Subjects

Animals, Cell Differentiation, Cell Survival, Chemokine CXCL12 metabolism, Chemokine CXCL13 metabolism, Immunoglobulin Class Switching, LIM-Homeodomain Proteins antagonists & inhibitors, LIM-Homeodomain Proteins genetics, Male, Mice, Mice, Inbred C57BL, Mice, Knockout, Muscle Proteins antagonists & inhibitors, Muscle Proteins genetics, Spleen cytology, Transcription Factors antagonists & inhibitors, Transcription Factors genetics, Transcriptional Activation, Antibody Formation, B-Lymphocytes immunology, Germinal Center immunology, Immunoglobulin G metabolism, LIM-Homeodomain Proteins metabolism, Muscle Proteins metabolism, T-Lymphocytes immunology, Transcription Factors metabolism

Abstract

Four-and-a-half LIM domain protein 2 (FHL2) is an adaptor molecule regulating various cellular processes, including signal transduction, transcription, and cell survival. Although involved in inflammation and immune responses, its role in the germinal center reaction and B cell maturation remains unknown. We found that FHL2 -/- mouse spleens displayed enlarged follicles with more B cells. When a T cell-dependent immune response was elicited using SRBC, FHL2 -/- germinal center area was enhanced 2-fold compared with wild type (WT), concomitant with expanded dark zones. Nevertheless, the SRBC-induced rise in spleen IgG1 expression, and plasma IgG1 levels observed in WT were absent in FHL2 -/- mice, and circulating plasma cells were also reduced in FHL2 -/- This could be explained by deficient upregulation of spleen activation-induced cytidine deaminase mRNA. Interestingly, FHL2 -/- B cells successfully underwent class-switch recombination in vitro, and both activation-induced cytidine deaminase induction and IgG1 response to SRBC were equivalent in B cell-deficient μMT mice transplanted with WT or FHL2 -/- bone marrow, suggesting that the defects observed in FHL2 -/- mice were not B cell intrinsic. However, spleen lysates from FHL2 -/- mice revealed a disturbed spleen microenvironment, with reduced CXCL12 and CXCL13 levels compared with WT. Our data suggest that spleen FHL2 expression is essential for a normal germinal center reaction and proper induction of class-switch recombination in response to a T cell-dependent Ag, leading to the emergence of Ab producing plasma cells. This could be due to the regulation of spleen cytokine production by FHL2., (Copyright © 2020 The Authors.)

Published

2020

44. Digital natives and dual task: Handling it but not immune against cognitive-locomotor interferences.

Author

Dierick F, Buisseret F, Renson M, and Luta AM

Subjects

Adolescent, Adult, Brain physiology, Female, Gait physiology, Humans, Male, Young Adult, Cell Phone Use, Cognition, Locomotion physiology

Abstract

Digital natives developed in an electronic dual tasking world. This paper addresses two questions. Do digital natives respond differently under a cognitive load realized during a locomotor task in a dual-tasking paradigm and how does this address the concept of safety? We investigate the interplay between cognitive (talking and solving Raven's matrices) and locomotor (walking on a treadmill) tasks in a sample of 17 graduate level participants. The costs of dual-tasking on gait were assessed by studying changes in stride interval time and its variability at long-range. A safety index was designed and computed from total relative change between the variability indices in the single walking and dual-task conditions. As expected, results indicate high Raven's scores with gait changes found between the dual task conditions compared to the single walking task. Greater changes are observed in the talking condition compared to solving Raven's matrices, resulting in high safety index values observed in 5 participants. We conclude that, although digital natives are efficient in performing the dual tasks when they are not emotional-based, modification of gait are observable. Due to the variation within participants and the observation of high safety index values in several of them, individuals that responded poorly to low cognitive loads should be encouraged to not perform dual task when executing a primate task of safety to themselves or others., Competing Interests: The authors have declared that no competing interests exist. The commercial affiliation to Eleda International Ltd does not alter our adherence to PLOS ONE policies on sharing data and materials.

Published

2020

45. Three-Dimensional Spinal Position With and Without Manual Distraction Load Increases Spinal Height.

Author

Hallur SS, Brismée JM, Sizer PS, Dierick F, Dewan BM, Thiry P, and Sobczak S

Subjects

Adult, Biomechanical Phenomena, Female, Humans, Male, Random Allocation, Rotation, Young Adult, Cervical Vertebrae physiology, Intervertebral Disc physiology, Lumbar Vertebrae physiology, Weight-Bearing

Abstract

Objective: The purpose of this study was to investigate if spinal height increases using 3-dimensional (3-D) spinal position with and without manual distraction load and to assess the correlation between spine height changes and degrees of trunk rotation., Methods: Fifty-six participants were randomly placed in one of two groups: (1) 3-D spinal position with manual distraction load, and (2) without manual distraction load. Spinal height was measured before and after the interventions using a stadiometer. For the statistical analysis, we used a 2 (Loading status: pre- versus post-intervention height) X 2 (3-D spinal position: with versus without manual distraction load) repeated measures Analysis of Variance (ANOVA) was used to identify significant interaction and main effects. Paired t-tests were used to calculate differences in spinal height changes between the two interventions. Pearson correlation coefficient was used to measure correlations between changes in spinal heights and degrees of trunk rotation., Results: Mean spinal height increase with 3-D spinal position with and without manual distraction load was 6.30 mm (±6.22) and 5.69 mm (±4.13), respectively. No significant interaction effect was present between loading status and 3-D spinal position but a significant main effect in loading status was. Paired t-tests revealed significant differences in spinal heights between pre-and post-3-D spinal position with and without manual distraction load. No significant correlation was measured between trunk rotation and spinal height changes., Conclusion: 3-D spinal position with or without distraction load increased spinal height. This suggests that 3-D spinal positioning without manual distraction could be used in home settings to help maintain intervertebral disc (IVD) health., (Copyright © 2020. Published by Elsevier Inc.)

Published

2020

46. DYSKIMOT: An Ultra-Low-Cost Inertial Sensor to Assess Head's Rotational Kinematics in Adults during the Didren-Laser Test.

Author

Hage R, Detrembleur C, Dierick F, Pitance L, Jojczyk L, Estievenart W, and Buisseret F

Subjects

Acceleration, Adult, Biomechanical Phenomena, Persons with Disabilities, Electronics, Female, Humans, Male, Movement, Neck Pain therapy, Rotation, Walking, Young Adult, Equipment Design, Head physiology, Lasers, Monitoring, Ambulatory economics, Monitoring, Ambulatory instrumentation

Abstract

Various noninvasive measurement devices can be used to assess cervical motion. The size, complexity, and cost of gold-standard systems make them not suited to clinical practice, and actually difficult to use outside a dedicated laboratory. Nowadays, ultra-low-cost inertial measurement units are available, but without any packaging or a user-friendly interface. The so-called DYSKIMOT is a home-designed, small-sized, motion sensor based on the latter technology, aiming at being used by clinicians in "real-life situations". DYSKIMOT was compared with a gold-standard optoelectronic system (Elite). Our goal was to evaluate the DYSKIMOT accuracy in assessing fast head rotations kinematics. Kinematics was simultaneously recorded by systems during the execution of the DidRen Laser test and performed by 15 participants and nine patients. Kinematic variables were computed from the position, speed and acceleration time series. Two-way ANOVA, Passing-Bablok regressions, and dynamic time warping analysis showed good to excellent agreement between Elite and DYSKIMOT, both at the qualitative level of the time series shape and at the quantitative level of peculiar kinematical events' measured values. In conclusion, DYSKIMOT sensor is as relevant as a gold-standard system to assess kinematical features during fast head rotations in participants and patients, demonstrating its usefulness in both clinical practice and research environments., Competing Interests: The authors declare no conflict of interest. The funders had no role in the design of the study; in the collection, analyses, or interpretation of data; in the writing of the manuscript, or in the decision to publish the results.

Published

2020

47. Head-neck rotational movements using DidRen laser test indicate children and seniors' lower performance.

Author

Hage R, Buisseret F, Pitance L, Brismée JM, Detrembleur C, and Dierick F

Subjects

Adolescent, Adult, Aged, Aged, 80 and over, Biomechanical Phenomena, Child, Female, Head, Humans, Male, Middle Aged, Young Adult, Head Movements physiology, Lasers, Neck physiology, Rotation

Abstract

Sensorimotor control strategies during cervical axial rotation movements have been previously explored in narrow age ranges but never concurrently in Children and Seniors during a well-standardized task. However, the lifespan developmental approach provides a framework for research in human sensorimotor control of the head-neck complex. A cross-sectional design was used to investigate the influence of age on head-neck dynamic performance adopted by asymptomatic Children, Adults and Seniors using a standardized task (DidRen Laser test). Participants performed 5 cycles of left/right head-neck complex fast rotational movements toward 3 targets with 30° of angular separation. Dynamic performances were computed from total execution time of the test and kinematic variables derived from rotational motion of head measured by an optoelectronic system. Eighty-one participants, aged 8-85 yrs, were stratified in four groups: Children, Younger adults, Older adults and Seniors. Children were significantly slower than Younger (p<0.001) and Older adults (p<0.004) and Seniors slower than Younger adults (p<0.017) to perform the test. Children adopted a lower average speed compared to Younger (p<0.001) and Older adults (p<0.008). Children reached the peaks speed significantly later than Younger (p<0.004) and Older adults (p<0.04) and acceleration significantly later than Younger (p<0.001) and Older adults (p<0.013). From the peak acceleration, Children reached end of the cycle significantly slower than Younger (p<0.008) and Older adults (p<0.008). Children significantly differed from all other groups for rotational kinetic energy, with smaller values compared to Younger adults (p<0.001), Older adults (p<0.005) and Seniors (p<0.012). Variability was also significantly higher for Seniors and Children. In conclusion, age influences head-neck visually elicited rotational dynamics, especially in Children. These results suggest that age should be taken into account when establishing normative data and assessing dynamic head-neck sensorimotor control of patients with neck pain., Competing Interests: The authors have declared that no competing interests exist.

Published

2019

48. Age-related kinematic performance should be considered during fast head-neck rotation target task in individuals aged from 8 to 85 years old.

Author

Hage R, Dierick F, Roussel N, Pitance L, and Detrembleur C

Abstract

Kinematic behavior during fast cervical rotations is a useful parameter for assessing sensorimotor control performances in neck-pain patients. However, the influence of age in asymptomatic individuals from children to older people still needs to be explored. Our aim was to assess the impact of age on sensorimotor control performance of the head-neck with execution time and kinematic variables (time of task, mean speed/acceleration/deceleration, overshoots (OSs), minimum/maximum speed) during standardized fast rotation target task using the DidRen Laser test. A total of 80 volunteers were stratified in four different age-groups: Children (8-14 years): n = 16; Young Adults (18-35 years): n = 29; Old Adults (36-64 years): n = 18; Seniors (65-85 years): n = 17. Results showed that to perform the test, Children were slower (69.0 (60.6-87.3)s) compared to Young Adults (49.6 (45.6-55.6)s) with p < 0.001, and Old Adults (51.7 (48.4-55.8)s) with p < 0.001. It was also slower in Seniors (57 (52.3-67.6)s) compared to Young Adults with p < 0.013. Mean speed was slower in Children (9.4 ± 2.3 °s -1 ) and Seniors (10.6 ± 2.4 °s -1 ) compared to Young Adults (13.7 ± 1.9 °s -1 ) with p < 0.001 and Old Adults (13.3 ± 2.4 °s -1 ) with p < 0.001. Mean acceleration was slower for Children (8.4(7.6-10.2) °s -2 ) compared to Young Adults (11.1 (8.8-15.3) °s -2 ) with p < 0.016, and Old Adults (12.0(8.4-15.3) °s -2 ) with p < 0.015. Mean deceleration was slower for Children (-1.9(-2.6-1.4) °s -2 ) compared to Young Adults (-2.9(-3.7-2.5) °s -2 ) with p < 0.001 and Old Adults (-3.2(-3.7-2.3) °s -2 ) with p < 0.003. The DidRen Laser test allows us to discriminate age-specific performances for mean speed, acceleration and deceleration. Seniors and Children needed to be slower to become as precise as Young Adults and Old Adults. No difference was observed for OSs which assesses accuracy of movement. Age should therefore be considered as a key parameter when analyzing execution time and kinematic results during DidRen Laser test. These normative data can therefore guide clinicians in the assessment of subjects with neck pain., Competing Interests: The authors declare that they have no competing interests.

Published

2019

49. Unstable footwear as a speed-dependent noise-based training gear to exercise inverted pendulum motion during walking.

Author

Dierick F, Bouché AF, Scohier M, Guille C, and Buisseret F

Subjects

Biomechanical Phenomena, Female, Humans, Reproducibility of Results, Young Adult, Gait, Noise, Shoes, Walking

Abstract

Previous research on unstable footwear has suggested that it may induce mechanical noise during walking. The purpose of this study was to explore whether unstable footwear could be considered as a noise-based training gear to exercise body center of mass (CoM) motion during walking. Ground reaction forces were collected among 24 healthy young women walking at speeds between 3 and 6 km h -1 with control running shoes and unstable rocker-bottom shoes. The external mechanical work, the recovery of mechanical energy of the CoM during and within the step cycles, and the phase shift between potential and kinetic energy curves of the CoM were computed. Our findings support the idea that unstable rocker-bottom footwear could serve as a speed-dependent noise-based training gear to exercise CoM motion during walking. At slow speed, it acts as a stochastic resonance or facilitator that reduces external mechanical work; whereas at brisk speed it acts as a constraint that increases external mechanical work and could mimic a downhill slope.

Published

2018

50. Clinical and MRI changes of puborectalis and iliococcygeus after a short period of intensive pelvic floor muscles training with or without instrumentation : A prospective randomized controlled trial.

Author

Dierick F, Galtsova E, Lauer C, Buisseret F, Bouché AF, and Martin L

Subjects

Female, Humans, Magnetic Resonance Imaging, Muscle Strength, Muscle, Skeletal diagnostic imaging, Pelvic Floor diagnostic imaging, Physical Conditioning, Human instrumentation, Young Adult, Isometric Contraction, Muscle, Skeletal physiology, Pelvic Floor physiology, Physical Conditioning, Human methods

Abstract

Purpose: This study evaluates the impact of a 3-week period of intensive pelvic floor muscles training (PFMT), with or without instrumentation, on clinical and static magnetic resonance imaging (MRI) changes of puborectalis (PR) and iliococcygeus (IL) muscles., Methods: 24 healthy young women were enrolled in the study and 17 achieved the 9 sessions of 30 min training exercises and conducted all assessments. Participants were randomly assigned in two training groups: voluntary contractions combined with hypopressive exercises (HYPO) or biofeedback exercises combined with transvaginal electrical stimulations (ELEC). Clinical and T2-weighted MRI assessments were realized before and after training., Results: Modified Oxford Grading System (MOGS) scores for left PR and perineal body significantly increased in the two groups (p = 0.039, p = 0.008), but MOGS score for right PR significantly increased only in HYPO (p = 0.020). Muscle volumes of right and left IL significantly decreased (p = 0.040, p = 0.045) after training as well as signal intensities of right and left PR (p = 0.040, p = 0.021) and thickness of right and left IL at mid-vagina location (p = 0.012, p = 0.011)., Conclusions: A short period of intensive PFMT induces clinical and morphological changes in PFMs at rest suggesting a decrease in IL volume and adipose content of PR. Although the results suggested that an intensive non-instrumented PFMT is as effective as an instrumented training, future controlled studies with greater sample sizes are needed to establish the relative and absolute effectiveness of each of the two interventions.

Published

2018