Pelvic belt effects on pelvic morphometry, muscle activity and body balance in patients with sacroiliac joint dysfunction

Soisson, Odette, Lube, Juliane, Germano, Andresa, Hammer, Karl-Heinz, Josten, Christoph, Sichting, Freddy, Winkler, Dirk, Milani, Thomas L., Hammer, Niels

17 March 2015

The sacroiliac joint (SIJ) is frequently involved in low back and pelvic girdle pain. However, morphometrical and functional characteristics related to SIJ pain are poorly defined. Pelvic belts represent one treatment option, but evidence still lacks as to their pain-reducing effects and the mechanisms involved. Addressing these two issues, this case-controlled study compares morphometric, functional and clinical data in SIJ patients and healthy controls and evaluates the effects of short-term pelvic belt application.

Beckengurt

Beckengürtelmorphometrie

Körperbalance

Muskelaktivität

Dysfunktion der Iliosakralgelenke

Pelvic belt

pelvic morphometry

body balance

muscle activity

sacroiliac joint dysfunction

ddc:610

Ajustes posturais dos músculos escapulares e globais como mecanismos de controle do movimento do ombro e da postura / Postural adjustments of scapular and global muscles as mechanisms to control the shoulder motion and posture

Cajueiro, Monique Oliveira Baptista

06 December 2018

A falha na estabilidade escapular e no ritmo escápulo-umeral são associadas ao risco de lesão no complexo do ombro. Apesar de se saber que a estabilização ativa dos músculos escapulares é fundamental para evitar disfunções ainda pouco se sabe sobre como o controle postural no complexo do ombro ocorre e como tais mecanismos poderiam auxiliar na estabilização da articulação perante uma tarefa. Será que há ajustes posturais antecipatórios (APA) e compensatórios (APC) nos músculos escapulares (serrátil anterior, trapézio inferior e trapézio superior) em tarefas motoras que envolvem o movimento dos membros superiores? Como as ações motoras modulam a resposta postural dos músculos escapulares e globais (músculos do tronco e membros inferiores) para estabilizar e orientar o corpo? O objetivo deste estudo foi analisar a existência dos ajustes posturais antecipatórios e compensatórios nos músculos escapulares e globais em sujeitos ativos saudáveis em tarefas de membros superiores. Para tal, participaram 70 indivíduos ativos saudáveis (18 mulheres e 52 homens, 28,0±7,2 anos, 70,5±13,4 kg e 1,72±0,07 m). Foi mensurada atividade eletromiográfica do músculo focal Deltóide Anterior, músculos escapulares (Serrátil Anterior, Trapézio Superior, Trapézio Inferior) e músculos globais (Reto Abdominal, Eretor Longuíssimo, Reto Femoral, Bíceps Femoral, Gastrocnêmio, Tibial Anterior) em 4 tarefas de membros superiores (abdução no plano escapular, adução, flexão e extensão) executadas com halteres de massa 1kg e 3kg. Os resultados mostraram a existência de ajustes posturais dos músculos escapulares (p<0,001); a tarefa e massa influenciaram nos ajustes posturais antecipatórios e compensatórios (p<0,001); as tarefas de adução versus extensão não apresentaram diferença entre si na atividade muscular dos músculos escapulares durante os ajustes posturais antecipatórios e compensatórios (p>0,05); as tarefas de abdução versus flexão são semelhantes com massa 1kg (p>0,05), mas se tornam diferentes com massa 3kg (p<0,001) com relação a atividade muscular dos músculos escapulares e globais; nas tarefas de flexão e abdução os maiores ajustes posturais foram dos músculos escapulares (Serrátil Anterior e Trapézio Inferior) (p<0,001); nas tarefas de adução e extensão os maiores são dos músculos globais (p<0,001); os ajustes posturais antecipatórios e compensatórios foram maiores nos músculos escapulares Serrátil Anterior e Trapézio Inferior do que no músculo focal Deltóide Anterior (p<0,001); existiu modulações nos tipos e níveis de APA e APC nas tarefas de membros superiores (p<0,001). Em conclusão, temos uma associação de ajustes posturais como mecanismos de estabilização e orientação do ombro em tarefas dos membros superiores. No entanto, a intensidade e modulação dos ajustes posturais são afetadas pela tarefa e massa. Acreditamos que a atividade muscular dos músculos escapulares esteja diretamente associada a necessidade de minimizar a perturbação para a manutenção da orientação e estabilidade segmento (ombro), assim como atividade dos músculos globais está associada a manutenção da estabilidade e orientação do corpo. Esses achados podem ser utilizados para futuros estudos comparando sujeitos com disfunção e saudáveis e assim entender se há atividade anormal dos músculos escapulares nos períodos de ajustes posturais antecipatórios e compensatórios e se esta atividade muscular contribui para disfunção do complexo do ombro / The failure of scapular stability and scapulohumeral rhythm is associated with the risk of injury to the shoulder complex. Although it is known that the active stabilization of the scapular muscles is fundamental to avoid dysfunctions, little is known about how postural control in the shoulder complex occurs and how such mechanisms could help stabilize the joint before a task. Are there anticipatory postural adjustments (APA) and compensatory (CPA) in the scapular muscles (serratus anterior, lower trapezius and upper trapezius) in motor tasks involving the movement of the upper limbs? How do motor actions modulate the postural response of the scapular and global muscles (trunk muscles and lower limbs) to stabilize and guide the body? The objective of this study was to analyze the existence of anticipatory and compensatory postural adjustments in the scapular and global muscles in healthy subjects in upper limb tasks. To do this, participated 70 healthy active individuals (18 women and 52 men, 28,0±7,2 years 70,5±13,4 kg and 1,72±0,07 m). It Was measured electromyographic activity of focal muscle (Deltoid Anterior), scapular muscles (Serratus Anterior, Upper Trapezius, Lower Trapezius) and global muscles (Rectus Abdominis, Longissimus, Rectus Femoris, Biceps Femoris, Gastrocnemius, Tibial Anterior) was measured in 4 upper limb tasks (abduction in the scapular plane, adduction, flexion and extension) performed with dumbbells of 1kg and 3kg mass. The results showed the existence of postural adjustments of the scapular muscles (p <0.001); the task and mass influenced the anticipatory and compensatory postural adjustments (p <0.001); the tasks of adduction versus extension did not difference among themselves in the muscular activity of the scapular muscles during the anticipatory and compensatory postural adjustments (p> 0.05); the abduction versus flexion tasks are similar with mass 1kg (p> 0.05), but become different with mass 3kg (p <0.001) in relation to muscular activity of the scapular and global muscles; during flexion and abduction tasks, the greatest postural adjustments were the scapular muscles (Serratus Anterior and Lower Trapezius) (p <0.001); during adduction and extension tasks, the largest of the global muscles (p <0.001); anticipatory and compensatory postural adjustments were higher in the serratus anterior and lower trapezius scapula muscles than in the anterior deltoid focal muscle (p <0.001); there were modulations in the types and levels of APA and CPA in upper limb tasks (p <0.001). In conclusion, we have an association of postural adjustments as mechanisms of stabilization and orientation of the shoulder in tasks of the upper limbs. However, the intensity and modulation of postural adjustments are affected by task and mass. We believe that the muscular activity of the scapular muscles is directly associated with the need to minimize the perturbation to the maintenance of the orietantion and stability segment (shoulder), as well as overall muscle activity is associated with maintaining stability and body orientation. These findings can be used for future studies comparing subjects with dysfunction and health and thus to understand if there is abnormal activity of the scapular muscles in the periods of anticipatory and compensatory postural adjustments and if this muscular activity contributes to dysfunction of the shoulder complex

Ajustes posturais

Atividade muscular

Controle postural

Muscle activity

Ombro

Postural adjustments

Postural control

Ritmo escápulo-umeral

Scapulohumeral rhythm

Shoulder

Ajustes posturais dos músculos escapulares e globais como mecanismos de controle do movimento do ombro e da postura / Postural adjustments of scapular and global muscles as mechanisms to control the shoulder motion and posture

Monique Oliveira Baptista Cajueiro

06 December 2018

A falha na estabilidade escapular e no ritmo escápulo-umeral são associadas ao risco de lesão no complexo do ombro. Apesar de se saber que a estabilização ativa dos músculos escapulares é fundamental para evitar disfunções ainda pouco se sabe sobre como o controle postural no complexo do ombro ocorre e como tais mecanismos poderiam auxiliar na estabilização da articulação perante uma tarefa. Será que há ajustes posturais antecipatórios (APA) e compensatórios (APC) nos músculos escapulares (serrátil anterior, trapézio inferior e trapézio superior) em tarefas motoras que envolvem o movimento dos membros superiores? Como as ações motoras modulam a resposta postural dos músculos escapulares e globais (músculos do tronco e membros inferiores) para estabilizar e orientar o corpo? O objetivo deste estudo foi analisar a existência dos ajustes posturais antecipatórios e compensatórios nos músculos escapulares e globais em sujeitos ativos saudáveis em tarefas de membros superiores. Para tal, participaram 70 indivíduos ativos saudáveis (18 mulheres e 52 homens, 28,0±7,2 anos, 70,5±13,4 kg e 1,72±0,07 m). Foi mensurada atividade eletromiográfica do músculo focal Deltóide Anterior, músculos escapulares (Serrátil Anterior, Trapézio Superior, Trapézio Inferior) e músculos globais (Reto Abdominal, Eretor Longuíssimo, Reto Femoral, Bíceps Femoral, Gastrocnêmio, Tibial Anterior) em 4 tarefas de membros superiores (abdução no plano escapular, adução, flexão e extensão) executadas com halteres de massa 1kg e 3kg. Os resultados mostraram a existência de ajustes posturais dos músculos escapulares (p<0,001); a tarefa e massa influenciaram nos ajustes posturais antecipatórios e compensatórios (p<0,001); as tarefas de adução versus extensão não apresentaram diferença entre si na atividade muscular dos músculos escapulares durante os ajustes posturais antecipatórios e compensatórios (p>0,05); as tarefas de abdução versus flexão são semelhantes com massa 1kg (p>0,05), mas se tornam diferentes com massa 3kg (p<0,001) com relação a atividade muscular dos músculos escapulares e globais; nas tarefas de flexão e abdução os maiores ajustes posturais foram dos músculos escapulares (Serrátil Anterior e Trapézio Inferior) (p<0,001); nas tarefas de adução e extensão os maiores são dos músculos globais (p<0,001); os ajustes posturais antecipatórios e compensatórios foram maiores nos músculos escapulares Serrátil Anterior e Trapézio Inferior do que no músculo focal Deltóide Anterior (p<0,001); existiu modulações nos tipos e níveis de APA e APC nas tarefas de membros superiores (p<0,001). Em conclusão, temos uma associação de ajustes posturais como mecanismos de estabilização e orientação do ombro em tarefas dos membros superiores. No entanto, a intensidade e modulação dos ajustes posturais são afetadas pela tarefa e massa. Acreditamos que a atividade muscular dos músculos escapulares esteja diretamente associada a necessidade de minimizar a perturbação para a manutenção da orientação e estabilidade segmento (ombro), assim como atividade dos músculos globais está associada a manutenção da estabilidade e orientação do corpo. Esses achados podem ser utilizados para futuros estudos comparando sujeitos com disfunção e saudáveis e assim entender se há atividade anormal dos músculos escapulares nos períodos de ajustes posturais antecipatórios e compensatórios e se esta atividade muscular contribui para disfunção do complexo do ombro / The failure of scapular stability and scapulohumeral rhythm is associated with the risk of injury to the shoulder complex. Although it is known that the active stabilization of the scapular muscles is fundamental to avoid dysfunctions, little is known about how postural control in the shoulder complex occurs and how such mechanisms could help stabilize the joint before a task. Are there anticipatory postural adjustments (APA) and compensatory (CPA) in the scapular muscles (serratus anterior, lower trapezius and upper trapezius) in motor tasks involving the movement of the upper limbs? How do motor actions modulate the postural response of the scapular and global muscles (trunk muscles and lower limbs) to stabilize and guide the body? The objective of this study was to analyze the existence of anticipatory and compensatory postural adjustments in the scapular and global muscles in healthy subjects in upper limb tasks. To do this, participated 70 healthy active individuals (18 women and 52 men, 28,0±7,2 years 70,5±13,4 kg and 1,72±0,07 m). It Was measured electromyographic activity of focal muscle (Deltoid Anterior), scapular muscles (Serratus Anterior, Upper Trapezius, Lower Trapezius) and global muscles (Rectus Abdominis, Longissimus, Rectus Femoris, Biceps Femoris, Gastrocnemius, Tibial Anterior) was measured in 4 upper limb tasks (abduction in the scapular plane, adduction, flexion and extension) performed with dumbbells of 1kg and 3kg mass. The results showed the existence of postural adjustments of the scapular muscles (p <0.001); the task and mass influenced the anticipatory and compensatory postural adjustments (p <0.001); the tasks of adduction versus extension did not difference among themselves in the muscular activity of the scapular muscles during the anticipatory and compensatory postural adjustments (p> 0.05); the abduction versus flexion tasks are similar with mass 1kg (p> 0.05), but become different with mass 3kg (p <0.001) in relation to muscular activity of the scapular and global muscles; during flexion and abduction tasks, the greatest postural adjustments were the scapular muscles (Serratus Anterior and Lower Trapezius) (p <0.001); during adduction and extension tasks, the largest of the global muscles (p <0.001); anticipatory and compensatory postural adjustments were higher in the serratus anterior and lower trapezius scapula muscles than in the anterior deltoid focal muscle (p <0.001); there were modulations in the types and levels of APA and CPA in upper limb tasks (p <0.001). In conclusion, we have an association of postural adjustments as mechanisms of stabilization and orientation of the shoulder in tasks of the upper limbs. However, the intensity and modulation of postural adjustments are affected by task and mass. We believe that the muscular activity of the scapular muscles is directly associated with the need to minimize the perturbation to the maintenance of the orietantion and stability segment (shoulder), as well as overall muscle activity is associated with maintaining stability and body orientation. These findings can be used for future studies comparing subjects with dysfunction and health and thus to understand if there is abnormal activity of the scapular muscles in the periods of anticipatory and compensatory postural adjustments and if this muscular activity contributes to dysfunction of the shoulder complex

Ajustes posturais

Atividade muscular

Controle postural

Ombro

Ritmo escápulo-umeral

Muscle activity

Postural adjustments

Postural control

Scapulohumeral rhythm

Shoulder

Asmenų jaučiančių apatinės nugaros dalies skausmą, giliųjų ir paviršinių liemens raumenų aktyvumo bei liemens stabilumo vertinimas / Evaluation of deep and surface torso muscle activity and stability between individuals with and without lower back pain

Stonytė, Sigita

27 January 2014

Darbo tikslas: palyginti paviršinių ir giliųjų liemens raumenų aktyvumo ir liemens stabilumo matavimų duomenis tarp asmenų, jaučiančių apatinės nugaros dalies skausmą (tiriamoji grupė) ir šio nusiskundimo neturinčių (kontrolinė grupė), pagrindinėse padėtyse. Pasirinktam darbo tikslui įgyvendinti buvo iškelti šie uždaviniai: 1. Palyginti giliųjų ir paviršinių liemens raumenų aktyvumą bei liemens stabilumą, atliekant izoliuotą skersinio pilvo raumens susitraukimą, tarp tiriamosios ir kontrolinės grupės. 2. Palyginti giliųjų ir paviršinių liemens raumenų aktyvumą bei liemens stabilumą, atliekant testus gulint ant pilvo, tarp tiriamosios ir kontrolinės grupės. 3. Palyginti giliųjų ir paviršinių liemens raumenų aktyvumą bei liemens stabilumą, atliekant testus gulint ant šono, tarp tiriamosios ir kontrolinės grupės. 4. Palyginti giliųjų ir paviršinių liemens raumenų aktyvumą, atliekant testus gulint ant nugaros, tarp tiriamosios ir kontrolinės grupės. Tyrimas atliktas poliklinikoje, Kaune. Tyrime dalyvavo 62 tiriamieji (28 vyrai ir 34 moterys). Tyrimo metodai: 1. Anketinė apklausa. 2. Elektromiografas su diferenciniu slėgio jutikliu (4 kanalų EMG + Stabilizer pressure biofeedback). 3.Statistinė analizė. Rezultatai: 1. Atliekant izoliuotą skersinio pilvo raumens susitraukimą, gauta, kad asmenų jaučiančių apatinės nugaros dalies skausmą tiesiamojo nugaros raumens juosmeninės dalies ir tiesiojo pilvo raumens apatinės dalies elektrinis aktyvumas buvo didesnis, o dauginio raumens ir... [toliau žr. visą tekstą] / The aim of the Master’s work is to compare the deep and surface torso muscle activity and stability measurement data, collected during main physical positions, of individuals that suffer from lower back pain (research group) and those who don’t (control group). The achievement of the works goal consists of the following tasks: 1. To compare deep and surface muscle activity and stability of the torso between both the research and control group individuals, during isolated transverse abdominal muscle contraction. 2 To compare deep and surface muscle activity and stability of the torso between both the research and control group individuals, during tests while lying on the abdomen. 3 To compare deep and surface muscle activity and stability of the torso between both the research and control group individuals, during tests while lying on the side. 4. To compare deep and surface muscle activity and stability of the torso between both the research and control group individuals, during tests while lying on the back. The study was conducted at a clinic in Kaunas. The study included 62 subjects (28 men and 34 women). Methods used within the study: 1. A questionnaire. 2. Electromyograph with a differential pressure sensor (4 channel EMG + Stabilizer pressure biofeedback). 3.Statistic analysis. The results: 1. It was found that while performing an isolated contraction of the transverse abdominal muscle, individuals with lower back pain had a considerably smaller electrical muscle... [to full text]

Nursing

Apatinės nugaros dalies skausmas

Raumenų aktyvumas

Liemens - dubens stabilumas

Low back pain

Muscle activity

Lumbo - pelvic stability

Ergonomic and Time Cost of One-Handed Lifting tasks as a Function of Shelf Height, Item Weight and Walking Distance

Sun, Chunyi

January 2019

No description available.

Industrial Engineering

A comparison of ground reaction forces and muscle activity of the Tsunami Bar® against a rigid barbell during back squat phases

Middleton, John Carver

08 August 2023

An Institutional Review Board (IRB)-approved study was conducted to investigate the effects of the Tsunami Bar® (TB), a flexible barbell, on ground reaction force (GRF) production and muscle activity in the quadricep, hamstring, and gluteal muscle groups during phases of the squat exercise and compare the effects to the effects to using a rigid barbell (RB). A two-by-two repeated measures Analysis of Variance (ANOVA) test was used to compare the results. Descriptive statistics showed significantly higher GRFs for the TB during the unweighting phase, significant differences in GRFs between speeds for each phase, significantly higher forces on average with the RB during the breaking and propulsive phases at the 90 beats-per-minute (bpm) speed, and significantly higher muscle activity with the RB at the 60-bpm speed. A linkage to the beneficial effects of the TB seen in literature was seen with familiarity with the TB.

electromyography

exercise science

flexible barbell

ground reaction forces

muscle activity

tsunami bar

Biomechanics

Exercise Science

Other Engineering

Sports Sciences

Experimental analysis and computational simulation of unilateral transtibial amputee walking to evaluate prosthetic device design characteristics and amputee gait mechanics

Ventura, Jessica Dawn

05 October 2010

Over one million amputees are living in the United States with major lower limb loss (Ziegler-Graham et al. 2008). Lower limb amputation leads to the functional loss of the ankle plantar flexor muscles, which are important contributors to body support, forward propulsion, and leg swing initiation during walking (Neptune et al. 2001; Liu et al. 2006). Effective prosthetic component design is essential for successful rehabilitation of amputees to return to an active lifestyle by partially replacing the functional role of the ankle muscles. The series of experimental and computer simulation studies presented in this research showed that design characteristics of energy storage and return prosthetic ankles, specifically the elastic stiffness, significantly influence residual and intact leg ground reaction forces, knee joint moments, and muscle activity, thus affecting muscle output. These findings highlight the importance of proper prosthetic foot stiffness prescription for amputees to assure effective rehabilitation outcomes. The research also showed that the ankle muscles serve to stabilize the body during turning the center of mass. When amputees turn while supported by their prosthetic components, they rely more on gravity to redirect the center of mass than active muscle generation. This mechanism increases the risks of falling and identifies a need for prosthetic components and rehabilitation focused on increasing amputee stability during turning. A proper understanding of the effects of prosthetic components on amputee walking mechanics is critical to decreasing complications and risks that are prevalent among lower-limb amputees. The presented research is an important step towards reaching this goal. / text

Biomechanics

Below-knee amputee

Prosthetic feet

Prosthetic ankle

Joint kinetics

Ground reaction forces

Muscle activity

Gait mechanics

Forward dynamics simulation

Transtibial amputees

Amputee gait mechanics

Prosthetics

Artificial limbs

Repetitive and monotonous work among women : Psychophysiological and subjective stress reactions, muscle activity and neck and shoulder pain

Rissén, Dag

January 2006

<p>Repetitive and monotonous work is frequently associated with neck and shoulder pain and negative psychosocial factors inducing stress reactions. The present thesis concerns the relations between psychophysiological and subjective stress reactions, muscle activity measured by surface electromyography (SEMG) in the trapezius muscle, and neck and shoulder pain in women performing repetitive and monotonous work. In Study I cardiovascular and subjective stress reactions were investigated during computer work in a laboratory setting. The findings indicated that heart rate variability is a more sensitive and selective measure of mental stress compared with blood pressure recordings. Study II explored the relations between stress reactions and muscle activity during supermarket work. The results showed that perceived negative stress reactions may have a specific influence on muscle activity in the neck and shoulder region, which can be of importance for work-related musculoskeletal disorders in repetitive and monotonous work. In Study III the association between SEMG activity patterns and neck and shoulder pain was investigated during cash register work. It was found that pain-afflicted women had a different muscle activation pattern (more static, more co-contraction, less muscle rest) compared with pain-free women. Study IV was a follow-up study evaluating the introduction of job rotation among female cashiers. The results indicated positive effects on diastolic blood pressure, muscle activity, and partly on neck and shoulder pain, although perceived stress was unchanged. It was concluded that job rotation seems to have a limited effect on chronic neck and shoulder pain, but may be an effective preventive measure. The empirical findings are particularly relevant for women who, compared with men, more often perform repetitive and monotonous work and are also more often affected by neck and shoulder pain.</p>

Repetitive and monotonous work

women

psychophysiological stress reactions

subjective stress reactions

muscle activity

trapezius muscle

neck and shoulder pain

job rotation

Psychology

Psykologi

Hypoxie transitoire en relation avec les activités rythmiques des muscles de la mastication chez les patients atteints du bruxisme du sommeil

Dumais, Isabelle

06 1900

Study Objectives: Sleep bruxism (SB) is a repetitive jaw-muscle activity characterized by clenching or grinding of the teeth and/or by bracing or thrusting of the mandible occurring during sleep. SB is scored, from electromyographic traces, as rhythmic masticatory muscle activity (RMMA). Most RMMA occurred during sleep in association with sleep arousal. Since not all RMMA episodes were associated with sleep arousal we hypothesized that some event could be observed in relation to small fluctuations of the oxygen level resulting in mild desaturation/hypoxia. Methods: Sleep laboratory or home recordings from 22 SB (teeth grinding) patients were analyzed from our data bank. A total of 143 RMMA/SB episodes were classified in 4 categories: (i) no arousal & no body movement; (ii) arousal + & no body movement; (iii) no arousal & body movement +; (iv) arousal + & body movement +. Minimum blood oxygen levels were assessed from finger oxymetry signal: 1) during the baseline period before RMMA, i.e., an average of 7 s before RMMA onset (-20 s to -14 s); 2) during RMMA, i.e. a window of 15 s corresponding to -5 s before the onset until +10 s after the episode. For all episodes, the minimum oximetry values were compared for each patient. Results: There was a significant variation of blood oxygen level over time (p=0.001) with a statistically significant transient hypoxia during RMMA at time (+7),(+8) and (+9) s. The variation over time was similar among the 4 groups (non significant group*time interaction p=0.10) and no overall difference was observed between groups (p=0.91). Of the 22 subjects, 6 subjects (27%) remained equal or had a slight increase in SaO2 (+8) s after the RMMA/SB onset compared to baseline (-20 s to -14) s, 10 subjects (45%) showed a small decrease in SaO2 (>0 to <1%) and 6 others (27%) had a decrease of 1-1.8%. Conclusions: These preliminary findings suggest that in some SB patients, RMMA episodes are potentially triggered by minor transient hypoxia. Key words: sleep bruxism, oximetry, desaturation, hypoxia, rhythmic masticatory muscle activity / Objectifs: Le bruxisme du sommeil (BRS) est une activité répétitive des muscles de la mâchoire caractérisée par le serrement et le grincement des dents et/ou par le bracing et le thrusting de la mandibule durant le sommeil. Les mouvements des muscles de la mâchoire que l’on appelle activité rythmique des muscles de la mastication (ARMM) sont des activités oromotrices qui constituent le modèle de base du BRS. La plupart des ARMM sont reliées à un micro-éveil de sommeil. Étant donné que ce ne sont pas tous les épisodes qui sont associés à un micro-éveil, notre hypothèse est qu'une légère désaturation/hypoxie en oxygène pourrait contribuer à l'apparition de certains épisodes d'activité rythmique des muscles de la mastication associé au bruxisme du sommeil-grincement des dents (ARMM/BRS). Méthodologie: Des enregistrements polysomnographiques en laboratoire ou ambulatoire de notre banque de données de 22 patients BRS ont été analysés. Leurs épisodes d'ARMM/BRS sont ensuite classifiés en 4 catégories : (i) sans micro-éveil & sans mouvement; (ii) micro-éveil + & sans mouvement; (iii) sans micro-éveil & mouvement +; (iv) micro-éveil + & mouvement +. Les valeurs minimales de saturation en oxygène sont évalués : 1) à la valeur de base avant le début de l'ARMM, correspondant à une moyenne de 7 sec avant le début de l'épisode, équivalent de (-20) sec à (-14) sec; 2) pendant l'ARMM dans une fenêtre temporale de 15 sec, correspondant de (-5) sec avant le début jusqu'à (+10) sec après l'épisode. Ensuite pour tous les épisodes, tous les points minimaux en oxymétrie sont comparés pour chaque patient. Résultats: Il y a une variation significative de la saturation en oxygène dans le temps (p=0.001) avec une hypoxie transitoire statistiquement significative durant l'ARMM à (+7), (+8) et (+9) sec. La variation dans le temps était semblable pour les 4 catégories (interaction non significative catérogie*temps p=0.1) et pas de différence globale n'est observé entre les catégories (p=0.91). Sur les 22 patients, 6 (27%) ont eu une légère augmentation ou sont restés stables dans la saturation en oxygène (+8) sec après le début de l'ARMM comparé à la valeur de base; 10 (45%) ont eu une légère diminution (>0 à <1%) et 6 autres (27%) ont eu une désaturation en oxygène de 1 à 1.8%. Conclusion: Ces résultats préliminaires suggèrent que chez certains patients BRS, les épisodes d'ARMM/BRS sont possiblement déclenchés par une légère hypoxie transitoire. Mots-clés : bruxisme du sommeil, oxymétrie, désaturation, hypoxie, activité rythmique des muscles de la mastication

Bruxisme du sommeil

Oxymétrie

Désaturation

Hypoxie

Sleep bruxism

Oximetry

Desaturation

Hypoxia

Rhythmic masticatory muscle activity

Analýza svalové činnosti při točení volantem / Analysis of muscle activity during steering wheel movement

Dostálová, Veronika

January 2015

❆❜str❛❝t ❚✐t❧❡✿ ❆♥❛❧②s✐s ♦❢ ♠✉s❝❧❡ ❛❝t✐✈✐t② ❞✉r✐♥❣ st❡❡r✐♥❣ ✇❤❡❡❧ ♠♦✈❡♠❡♥t ❖❜❥❡❝t✐✈❡s✿ ❚❤❡ ❛✐♠ ♦❢ t❤✐s t❤❡s✐s ✐s t♦ ♣r♦❝❡ss ❛♥ ❛✉t♦♠♦t✐✈❡ ❡r❣♦♥♦♠② ✐ss✉❡✳ ❋✉t❤❡r♠♦r❡✱ t♦ ❛♥❛❧②s❡ ✉♣♣❡r ❡①tr❡♠✐t② ♠♦✈❡♠❡♥t ❛♥❞ ❡❧❡❝tr✐❝❛❧ ❛❝t✐✈✐t② ♦❢ s♣❡✲ ❝✐✜❡❞ s❤♦✉❧❞❡r ♠✉s❝❧❡s ❞✉r✐♥❣ st❡❡r✐♥❣ ✇❤❡❡❧ ♠♦✈❡♠❡♥t ✇✐t❤ ❛ ❞✐✛❡r❡♥t ❤❛♥❞ ♣❧❛❝❡♠❡♥t✳ ❆♥♦t❤❡r ❛✐♠ ✐s t♦ ❝♦♠♣❛r❡ ♠❡❛s✉rr❡❞ ❡❧❡❝tr♦♠②♦❣r❛♣❤✐❝ ❞❛t❛ ✇✐t❤ ❛♥ ♦♣t✐♠❛❧ r❛♥❣❡ ♦❢ ♠✉s❝❧❡ ❛❝t✐✈✐t② ❞✉r✐♥❣ r❡♣❡t✐t✐✈❡ t❛s❦s✳ ▼❡t❤♦❞s✿ ❚❤❡ t❤❡s✐s ❤❛s ❛ ❝❤❛r❛❝t❡r ♦❢ ❛ ♣✐❧♦t st✉❞②✳ ❚❡♦r❡t✐❝❛❧ ❜❛s✐s ❤❛s ❜❡❡♥ ♦❜t❛✐♥❡❞ ❜② ❛ r❡✈✐❡✇ ♦❢ ❧✐t❡r❛t✉r❡ ❞❡❛❧ ✇✐t❤ s✐♠✐❧❛r q✉❡st✐♦♥s✳ ❊①♣❡r✐♠❡♥t❛❧ ♣❛rt ❤❛s ❜❡❡♥ ❝♦♥❝❡r♥❡❞ ✇✐t❤ ❡❧❡❝tr✐❝❛❧ ❛❝t✐✈✐t② ♦❢ s♣❡❝✐✜❡❞ s❤♦✉❧❞❡r ♠✉s❝❧❡s ❛♥❞ ♠♦t✐✲ ♦♥ ❛♥❛❧②s✐s ♦❢ ✉♣♣❡r ❡①tr❡♠✐t② ❞✉r✐♥❣ ❝♦♥tr❛❧❛t❡r❛❧ ❛♥❞ ✐♣s✐❧❛t❡r❛❧ st❡❡r✐♥❣ ✇❤❡❡❧ ♠♦✈❡♠❡♥t ✇✐t❤ ❛ ❞✐✛❡r❡♥t ❤❛♥❞ ♣❧❛❝❡♠❡♥t✳ ❖♥❧② t✇♦ s✉❜❥❡❝ts ❤❛s ❜❡❡♥ ❝❤♦s❡♥ ❞✉❡ t♦ ❛ t❡❝❤♥✐❝❛❧ ❞✐✣❝✉❧t② ♦❢ ❡①♣❡r✐♠❡♥t✳ ❚❤❡ ❡❧❡❝tr✐❝❛❧ ❛❝t✐✈✐t② ♦❢ ♠✉s❝❧❡s ❤❛s ❜❡❡♥ ❛♥❛❧②s❡❞ ✇✐t❤ s✉r❢❛❝❡ ❡❧❡❝tr♦♠②♦❣r❛♣❤②✳ ❚❤❡r❡ ❤❛s ❜❡❡♥ ♠❡❛s✉r❡❞ ❢♦❧❧♦✇✐♥❣ ♠✉s❝❧❡s✿ ♠✳ ❞❡❧t♦✐❞❡✉s ♣❛rs ❛♥t❡r✐♦r✱ ♠✳ ❞❡❧t♦✐❞❡✉s ♣❛rs ♠❡❞✐❛❧✐s✱ ♠✳ ♣❡❝t♦r❛❧✐s ♠❛❥♦r ♣❛rs ❝❧❛✈✐❝✉❧❛r✐s ❛ ♠✳ tr✐❝❡♣s ❜r❛❝❤✐✐ ❝❛♣✉t ❧♦♥❣✉♠✱ ♠✳ ♣❡❝t♦r❛❧✐s ♠❛❥♦r ♣❛rs st❡r♥♦❝♦st❛❧✐s✱ ♠✳ ❜✐❝❡♣s ❜r❛❝❤✐✐✱ ♠✳ ❞❡❧t♦✐❞❡✉s ♣❛rs ♣♦st❡r✐♦r✱ ♠✳ ✐♥❢r❛s♣✐✲ ♥❛t✉s ❛ ♠✳ tr✐❝❡♣s ❜r❛❝❤✐✐ ❝❛♣✉t ❧❛t❡r❛❧❡✳ ❚❤❡ ❡❧❡❝tr✐❝❛❧ ❛❝t✐✈✐t② ♦❢...