Your search keyword '"Neck Muscles"' showing total 10,378 results

1. Effectiveness of a Telerehabilitation Program Based on Specific Neck Exercises in Patients With Forward Head Posture.

Author

Universidad de Zaragoza and Pilar Pardos Aguilella, Doctor of Physical Therapy

Published

2024

2. Cervical epidural hematoma: a case series highlighting uncommon causes.

Author

Lee, Wey Ting, Fun, Joan Rui Shan, and Yeo, Yi Wen Mathew

Subjects

*HEMIPLEGIA, *NECK muscles, *HEMATOMA, *EPIDURAL space, *ACUPUNCTURE, *SPINAL cord compression, *MAGNETIC resonance imaging, *NUMBNESS, *MUSCLE weakness, *MEDICAL drainage, *CERVICAL vertebrae, *SPRAINS, *PARESTHESIA, *DISEASE risk factors, *DISEASE complications

Abstract

Background: Cervical epidural hematoma (CEH) is a rare but potentially devastating condition, characterized by the accumulation of blood within the epidural space of the cervical spine, leading to spinal cord compression (Perron AD, Huff JS. Spinal cord disorders. In: Marx JA, et al. editors. Rosen's emergency medicine: concepts and clinical practice. 8th ed. Philadelphia: Saunders; 2013. pp. 1419–27.); (Raasck K, Habis AA, Aoude A, Simoes L, Barros F, Reindl R. Spontaneous spinal epidural hematoma management: a case series and literature review. Spinal Cord Ser Cases. 2017;3:16043. https://doi.org/10.1038/scsandc.2016.43.); (Ryo Yamamoto M, Ito H, Shimuzu K, Wakabayashi H, Oyama. Two cases of cervical epidural hematoma presenting with left-sided hemiplegia and requiring surgical drainage. Cureus. 2022;14(4):e23915. https://doi.org/10.7759/cureus.23915.). While trauma and iatrogenic causes are well-documented, cases attributed to neck strain and acupuncture are uncommon. (Raasck K, Habis AA, Aoude A, Simoes L, Barros F, Reindl R. Spontaneous spinal epidural hematoma management: a case series and literature review. Spinal Cord Ser Cases. 2017;3:16043. https://doi.org/10.1038/scsandc.2016.43.); (Shiraishi S, Goto I, Kuroiwa Y, Nishio S, Kinoshita K. Spinal cord injury as a complication of an acupuncture. Neurology. 1979;29(8):1188–90. https://doi.org/10.1212/wnl.29.8.1188.) Here, we present two cases of CEH secondary to these unusual aetiologies. Both cases highlight the importance of considering uncommon causes of CEH to ensure early recognition and prompt treatment. Case presentations: Case 1 is an 81-year-old lady who presented with left hemiparesis and paraesthesia following a fall with neck strain. Magnetic resonance imaging (MRI) of cervical spine revealed left C3-C7 epidural haematoma with severe cord compression. In Case 2, a 35-year-old gentleman experienced sudden onset numbness and weakness in all limbs just 10 minutes after receiving acupuncture. MRI showed an epidural hematoma at the C2-C4 levels. Both patients underwent immediate surgical decompression and had significant recovery. Conclusion: Although CEH is a rare occurrence, it can potentially be a neurosurgical emergency. Physicians must remain cognizant of the diverse aetiologies associated with CEH and the necessity for early recognition and immediate treatment. [ABSTRACT FROM AUTHOR]

Published

2024

3. Implant Design and Cervical Spinal Biomechanics and Neurorehabilitation: A Finite Element Investigation.

Author

Bahreinizad, Hossein and Chowdhury, Suman K

Subjects

*NECK muscles, *INTERVERTEBRAL disk, *INTERVERTEBRAL disk prostheses, *SPONDYLOSIS, *CERVICAL vertebrae, *SPINAL implants

Abstract

Introduction The cervical spine, pivotal for mobility and overall body function, can be affected by cervical spondylosis, a major contributor to neural disorders. Prevalent in both general and military populations, especially among pilots, cervical spondylosis induces pain and limits spinal capabilities. Anterior Cervical Discectomy and Fusion (ACDF) surgery, proposed by Cloward in the 1950s, is a promising solution for restoring natural cervical curvature. The study objective was to investigate the impacts of ACDF implant design on postsurgical cervical biomechanics and neurorehabilitation outcomes by utilizing a biofield head-neck finite element (FE) platform that can facilitate scenario-specific perturbations of neck muscle activations. This study addresses the critical need to enhance computational models, specifically FE modeling, for ACDF implant design. Materials and Methods We utilized a validated head-neck FE model to investigate spine–implant biomechanical interactions. An S-shaped dynamic cage incorporating titanium (Ti) and polyetheretherketone (PEEK) materials was modeled at the C4/C5 level. The loading conditions were carefully designed to mimic helmet-to-helmet impact in American football, providing a realistic and challenging scenario. The analysis included intervertebral joint motion, disk pressure, and implant von Mises stress. Results The PEEK implant demonstrated an increased motion in flexion and lateral bending at the contiguous spinal (C4/C5) level. In flexion, the Ti implant showed a modest 5% difference under 0% activation conditions, while PEEK exhibited a more substantial 14% difference. In bending, PEEK showed a 24% difference under 0% activation conditions, contrasting with Ti's 17%. The inclusion of the head resulted in an average increase of 18% in neck angle and 14% in C4/C5 angle. Disk pressure was influenced by implant material, muscle activation level, and the presence of the head. Polyetheretherketone exhibited lower stress values at all intervertebral disc levels, with a significant effect at the C6/C7 levels. Muscle activation level significantly influenced disk stress at all levels, with higher activation yielding higher stress. Titanium implant consistently showed higher disk stress values than PEEK, with an orders-of-magnitude difference in von Mises stress. Excluding the head significantly affected disk and implant stress, emphasizing its importance in accurate implant performance simulation. Conclusions This study emphasized the use of a biofidelic head-neck model to assess ACDF implant designs. Our results indicated that including neck muscles and head structures improves biomechanical outcome measures. Furthermore, unlike Ti implants, our findings showed that PEEK implants maintain neck motion at the affected level and reduce disk stresses. Practitioners can use this information to enhance postsurgery outcomes and reduce the likelihood of secondary surgeries. Therefore, this study makes an important contribution to computational biomechanics and implant design domains by advancing computational modeling and theoretical knowledge on ACDF–spine interaction dynamics. [ABSTRACT FROM AUTHOR]

Published

2024

4. Muscular endurance and its association with neck pain, disability, neck awareness, and kinesiophobia in patients with chronic neck pain.

Author

Dere, Tuğba and Alemdaroğlu-Gürbüz, İpek

Subjects

*NECK pain, *NECK muscles, *MYALGIA, *CHRONIC pain, *VISUAL analog scale

Abstract

Background: Recent studies revealed the connection between the endurance of neck muscles and pain, neck awareness, and fear of movement in patients with chronic neck pain in literature. Objectives: To investigate the association between cervical, scapular, trunk, and upper extremity muscles' endurance and neck pain, disability, neck awareness, and kinesiophobia in patients with chronic neck pain. Design: Cross-sectional, observational study. Methods: Thirty-six patients with chronic neck pain (aged 18–65 years) were included in the study. Endurance tests were performed for 9 muscles/muscle groups in the cervical and scapular region, upper limb, and trunk. Pain severity, neck disability, neck awareness, and fear of movement were measured by Visual Analog Scale (VAS), Neck Disability Index (NDI), Fremantle Neck Awareness Questionnaire (FreNAQ), and Tampa Scale of Kinesiophobia (TSK), respectively. Results: Negative, weak-to-moderate relations were found between VAS (at rest and during activity) and the endurance of muscles evaluated in the cervical and scapular regions, upper extremity, and trunk as well as between NDI and endurance of the same muscles, similar to the relations between FreNAQ scores and the endurance of the cervical flexor, anterior trunk flexor, and upper extremity muscles (p < 0.05). No relation was found between the endurance of the muscles and TSK (p > 0.05). Conclusions: Since the decrease in upper extremity, scapular region, and trunk muscles' endurance may contribute to neck pain and disability, and decrease neck awareness in patients with chronic neck pain; the evaluation of muscular endurance of upper body and trunk should also be considered. Clinical Trials: NCT05121467 [ABSTRACT FROM AUTHOR]

Published

2024

5. Impact of salivary flow inhibition on masticatory behaviours in healthy individuals.

Author

Goto, Rie, Ochiai, Yuto, Takei, Eri, Ita, Reiko, Ono, Kazhihiro, Takei, Ryo, Washio, Hideaki, Takahashi, Hajime, Tsujimura, Takanori, Magara, Jin, and Inoue, Makoto

Subjects

*RESEARCH funding, *MASSETER muscle, *NECK muscles, *XEROSTOMIA, *DIETARY fats, *DESCRIPTIVE statistics, *MASTICATORY muscles, *ELECTROMYOGRAPHY, *MASTICATION, *JAWS, *HYOID bone, *ATROPINE, *MUSCARINIC antagonists, *SALIVA

Abstract

Background: It remains unclear how the salivary flow and the fat content of food affect bolus formation during mastication. Objectives: We aimed to clarify: (1) how hyposalivation affects jaw‐closing and hyoid‐elevating muscle activities in bolus formation, and (2) if the effect of hyposalivation on muscle activity depends on the fat content of food. Methods: Eighteen healthy male volunteers were instructed to freely ingest four test foods: Plain, Fat without seasoning, Fat with seasoning, and Soft rice crackers. Masseter and suprahyoid electromyographic activities were recorded before and 30 min after the administration of atropine sulfate, a muscarinic receptor antagonist that induces hyposalivation. Results: Hyposalivation extended the masticatory duration significantly in all the test foods except Fat with seasoning. Masticatory cycle time was significantly longer with vs without hyposalivation for the Soft (p =.011). Suprahyoid activity/cycle was significantly greater with vs without hyposalivation (p =.013). Masticatory cycle time was significantly longer at the late stage with vs without hyposalivation for the Soft (p <.001). Suprahyoid activity/cycle was significantly greater at the middle (p =.045) and late stages (p =.002) with vs without hyposalivation for the Soft and greater at the late stage with vs without hyposalivation for the Plain (p =.043). Changes in masticatory cycle time and suprahyoid activity/cycle for these foods had significantly positive relationship (p <.001). Conclusion: Hyposalivation‐induced changes in masticatory behaviours resulted from the middle and late stage suprahyoid activity. Fat content and seasoning compensate for salivary flow inhibition. [ABSTRACT FROM AUTHOR]

Published

2024

6. High‐intensity intermittent inspiratory and abdominal muscle combined training in respiratory, swallowing and systemic muscles of healthy adults.

Author

Zhang, Linlin, Okazaki, Tatsuma, Ebihara, Satoru, and Izumi, Shin‐Ichi

Subjects

*RESPIRATORY muscle physiology, *TONGUE physiology, *PHYSIOLOGY of abdominal muscles, *MUSCLE anatomy, *TASK performance, *T-test (Statistics), *DATA analysis, *RESEARCH funding, *HIGH-intensity interval training, *NECK muscles, *BREATHING exercises, *MUSCLE strength, *COMBINED modality therapy, *ANALYSIS of variance, *STATISTICS, *DEGLUTITION, *EXERCISE tests, *DATA analysis software, *TIME, *GRIP strength, *ADULTS

Abstract

Background: Low‐intensity continuous inspiratory muscle training improves its strength. The abdominal muscles are the main expiratory muscles, and their training may improve expiratory muscle strength. Respiratory muscle strength regulates coughing effectiveness, which is critical for pneumonia management. In older people, risk factors for the development of pneumonia were respiratory muscle weakness and swallowing impairment. Currently, the impact of high‐intensity intermittent inspiratory and abdominal muscle combined training on the respiratory, swallowing, and systemic muscles is unclear. Objective: We aimed to explore the effects of high‐intensity inspiratory muscle training combined with or without abdominal muscle training on respiratory muscle strength as well as the strength, mass, and performance of swallowing and systemic muscles. Methods: Twenty‐eight healthy adults were divided into two groups. Participants performed high‐intensity intermittent inspiratory muscle single or its combination with abdominal muscle training for 4 weeks. Respiratory muscle strength, swallowing muscle strength and mass, systemic muscle strength, mass and performance were measured at baseline, Week 2 and Week 4. Results: Both groups showed greater maximal respiratory pressures at Week 2 and Week 4 than baseline. Both groups showed improved tongue pressure and geniohyoid muscle thickness at Week 4. In addition, the combined training group improved body trunk muscle mass, handgrip strength and five‐time chair stand test, whereas the single training group did not. Conclusion: This study revealed that high‐intensity inspiratory muscle training improved inspiratory muscle strength and swallowing muscle strength and mass. Moreover, inspiratory and abdominal muscle combined training showed an additional benefit of improving systemic muscle strength, mass and performance. Clinical Trial Registration Number: UMIN000046724; https://upload.umin.ac.jp/cgi‐open‐bin/ctr/index.cgi?ctrno=UMIN000046724. [ABSTRACT FROM AUTHOR]

Published

2024

7. Analysis of the suprahyoid muscles during tongue elevation: High‐density surface electromyography as a novel tool for swallowing‐related muscle assessment.

Author

Yoshikawa, Kohei, Nakamori, Masahiro, Ushio, Kai, Toko, Megumi, Yamada, Hidetada, Nishikawa, Yuichi, Fukuoka, Tatsuyuki, Maruyama, Hirofumi, and Mikami, Yukio

Subjects

*TONGUE physiology, *STATISTICAL correlation, *RESEARCH funding, *NECK muscles, *MOTOR neurons, *ELECTROMYOGRAPHY, *MUSCLE strength, *PHARYNGEAL muscles, *DEGLUTITION, *MUSCLE contraction

Abstract

Background: High‐density surface electromyography (HD‐sEMG) has enabled non‐invasive analysis of motor unit (MU) activity and recruitment, but its application to swallowing‐related muscles is limited. Objective: We aimed to investigate the utility of HD‐sEMG for quantitatively evaluating the MU recruitment characteristics of the suprahyoid muscles during tongue elevation. Methods: We measured the sEMG activity of the suprahyoid muscles of healthy participants during tongue elevation using HD‐sEMG. Maximum voluntary contraction (MVC) was measured, followed by data collection during sustained and ramp‐up tasks to capture suprahyoid muscle activity. Changes in the temporal/spatial MU recruitment patterns within individual suprahyoid muscles were analysed. Results: This study enrolled 16 healthy young adults (mean age: 27.8 ± 5.3 years; eight males and eight females). Increasing muscle force corresponded to a decrease in modified entropy and correlation coefficient and an increase in the coefficient of variation. No significant differences were observed between male and female participants. Conclusion: The results of this study, consistent with those observed in other muscles, such as the vastus lateralis muscle, suggest that HD‐sEMG is a valuable and reliable tool for quantitatively evaluating MU recruitment in the suprahyoid muscles. This measurement technique holds promise for novel assessments of swallowing function. [ABSTRACT FROM AUTHOR]

Published

2024

8. The association between mobile phone usage duration, neck muscle endurance, and neck pain among university students.

Author

Elvan, Ata, Cevik, Seval, Vatansever, Kivanc, and Erak, Ilknur

Subjects

*NECK pain, *NECK muscles, *FLEXOR muscles, *CELL phones, *PAIN measurement, *EXTENSOR muscles, *COLLEGE students, *MYALGIA

Abstract

The mobile phone is essential in daily life, especially during the pandemic. Prolonged use can cause postural issues, leading to common neck pain. This study aims to determine the correlation between mobile phone use duration, addiction, neck muscle endurance, and neck pain in university students. The study included 62 participants (30 female, 32 male) aged 18–35 years. Inclusion criteria required participants to have experienced neck pain at least twice in the past year and to have no other concomitant issues, as well as to volunteer for the study. Demographic information and daily mobile phone usage time were collected. Neck pain was assessed with the Visual Analogue Scale, smartphone addiction with the Smartphone Addiction Scale, and cervical muscle endurance was evaluated. Correlation analysis reveals a moderate relationship between neck pain severity (NPS) and cervical extensor muscle endurance (CEME), a strong relationship between NPS and cervical flexor muscle endurance (CFME), as well as a strong relationship among daily phone usage time (DPUT), CFME, and NPS, with a moderate relationship between DPUT and CEME. Participants were divided into two groups based on their DPUT, revealing that those who used their phone for four hours or more showed significantly higher levels of pain (p < 0.05) and reduced endurance in cervical flexor muscles. Our study found a strong correlation between neck pain, muscle endurance, and daily phone usage. Participants using their phones for more than four hours daily reported increased neck pain and decreased muscle endurance. We suggest integrating phone usage duration into neck pain assessments, promoting ergonomic practices, and offering detailed usage guidelines for users. [ABSTRACT FROM AUTHOR]

Published

2024

9. EVALUATION OF NECK FATIGUE CAUSED BY WEARING HELMET IN MOTION: AN ELECTROMYOGRAPHY STUDY.

Author

FAN, XIAOLI, WU, FENG, ZHAO, ANDONG, GE, HUA, LIU, HEQING, and ZHAO, YANPENG

Subjects

*TRAPEZIUS muscle, *SUPPORT vector machines, *NECK injuries, *STATISTICAL correlation, *ROOT-mean-squares, *NECK muscles

Abstract

The increased weight of multifunction and intelligent helmet systems can cause an exacerbation of the neck workload. Further, increased weight of the helmet can reduce the wearing comfort, and prolonged use may cause neck fatigue and even neck injury. This study evaluates the fatigue of neck muscles caused by wearing a helmet in motion using electromyography (EMG) measurement. Additionally, a comprehensive evaluation model for neck fatigue was established effectively. Twenty healthy subjects were selected to run for 10min continuously in each task by wearing two different helmets, respectively, during which the EMG signals of different neck muscles and subjective scores were recorded and analyzed. Two-way repeated measures analysis of variance (ANOVA) and Pearson correlation analysis were used to obtain indicators of neck fatigue, based on which the support vector machine (SVM) was used to construct a classification model of neck fatigue. By using integral EMG (IEMG) and root mean square (RMS) for assessing the neck injury in sternocleidomastoideus and trapezius muscles, it was observed that the mean power frequency (MPF) and median frequency (MF) in trapezius and splenius capitis could be used as effective evaluation indicators of neck fatigue. The EMG activity in trapezius was the highly sensitivity to fatigue when wearing helmets in motion. The classifier for distinguishing three different neck fatigue levels was 91.67% accurate. This study demonstrates the feasibility of an EMG-based method to evaluate the neck fatigue caused by wearing a helmet in motion, and also provides an evaluation method for the optimal design of helmets in the future. [ABSTRACT FROM AUTHOR]

Published

2024

10. Neck muscle function improves after neck exercises in individuals with whiplash-associated disorders: a case–control ultrasound study with speckle-tracking analyses.

Author

Peterson, Gunnel, Nilsson, David, Jönsson, Margaretha, Bennett, Kate, and Peolsson, Anneli

Subjects

*NECK muscles, *WHIPLASH injuries, *CASE-control method, *NECK, *EXERCISE therapy, *CHRONIC pain

Abstract

A whiplash injury can alter neck muscle function, which remains years after the injury and may explain why symptoms such as persistent pain and disability occur. There is currently limited knowledge about dynamic neck muscle function in chronic whiplash-associated disorders (WAD), and about the extent to which altered muscle function can improve after rehabilitation. Ultrasound can detect mechanical neck muscle function by measuring real-time deformation and deformation rate in the muscles. This method was used for five dorsal neck muscles in participants with chronic WAD versus matched controls in resistant neck rotation. We obtained real-time, non-invasive ultrasound measurements using speckle tracking, multivariate analyses, and mixed-design ANOVA analyses. The results showed altered deformation in the three deepest neck muscle layers, with less deformation area in the WAD group compared to controls in rotation to the most painful side at baseline. Participants in the WAD group performed three months of neck-specific exercises, resulting in improved deformation in the deep neck muscles in WAD and with a similar deformation pattern to controls, and the significant group differences ceased. We reveal new and important insights into the capability of ultrasound to diagnose altered neck muscle function and evaluate an exercise intervention. [ABSTRACT FROM AUTHOR]

Published

2024

11. Sex differences in cervical disc height and neck muscle activation during manipulation of external load from helmets.

Author

Yin, Nai‐Hao, Giulio, Irene Di, Hodkinson, Peter D., Formenti, Federico, and Pollock, Ross D.

Subjects

*INTERVERTEBRAL disk, *MUSCLE fatigue, *NECK muscles, *NECK pain, *HELICOPTER pilots

Abstract

Highlights Neck pain associated with helmet‐wear is an occupational health problem often observed in helicopter pilots and aircrew. Whether aircrew helmet wearing is associated with physiological and biomechanical differences between sexes is currently unknown. This study investigated neuromuscular activation patterns during different helmet‐wearing conditions. The helmet load was manipulated through a novel Helmet Balancing System (HBS) in healthy, non‐pilot male and female participants (n = 10 each, age 19–45 years) in two phases. Phase A assessed the acute effects of helmet‐wear on neck muscles activation during head movements. Phase B examined changes in muscle activity and cervical disc height after wearing a helmet for 45 min. In Phase A, muscle activity was similar between sexes in many movements, but it was higher in female participants when wearing a helmet than in males. The HBS reduced muscle activity in both sexes. In Phase B, female participants exhibited a greater level of muscular fatigue, and male participants’ cervical disc height was significantly decreased [5.7 (1.4) vs. 4.4 (1.5) mm, P < 0.001] after continuous wearing. Both sexes showed no significant change in muscle fatigue and disc height [male: 5.0 (1.3) vs. 5.2 (1.4) mm, P = 0.604] after applying HBS. These findings demonstrate sex‐specific physiological and biomechanical responses to wearing a helmet. They may indicate different postural and motor control strategies, associated with different neck pain aetiologies in male and female aircrew, the knowledge of which is important to reduce or prevent musculoskeletal injuries associated with helmet wearing. What is the central question of this study? Do sex differences exist in the neck physiological response to helmet‐wearing? What is the main finding and its importance? Sex differences exist in both the acute response and after 45 min of helmet wearing: during a given head movement, female participants’ muscle activity was greater than male participants’ and females also demonstrated greater muscular fatigue after continuous helmet‐wear than males while cervical disc height showed a significant reduction after 45 min helmet‐wear in males only. These findings could provide insight into future training or injury prevention strategy for pilots. What is the central question of this study?Do sex differences exist in the neck physiological response to helmet‐wearing?What is the main finding and its importance?Sex differences exist in both the acute response and after 45 min of helmet wearing: during a given head movement, female participants’ muscle activity was greater than male participants’ and females also demonstrated greater muscular fatigue after continuous helmet‐wear than males while cervical disc height showed a significant reduction after 45 min helmet‐wear in males only. These findings could provide insight into future training or injury prevention strategy for pilots. [ABSTRACT FROM AUTHOR]

Published

2024

12. Endoscopic minimally invasive treatment of congenital muscular torticollis in children.

Author

Li, Weidong and Xing, Shilong

Subjects

*NECK physiology, *POSTOPERATIVE care, *WOUND healing, *TORTICOLLIS, *ARTHROSCOPY, *NECK muscles, *FUNCTIONAL assessment, *ENDOSCOPIC surgery, *MINIMALLY invasive procedures, *TREATMENT effectiveness, *CHILDREN'S hospitals, *PREOPERATIVE care, *ORTHOPEDIC apparatus, *TREATMENT duration, *SURGICAL blood loss, *ORTHOPEDICS, *LOG-rank test, *LENGTH of stay in hospitals, *ENDOSCOPY, *PATIENT aftercare, *SURGICAL site, *EVALUATION, *CHILDREN

Abstract

Background: This study aimed to investigate the clinical efficacy of minimally invasive endoscopic treatment of children with congenital muscular torticollis (CMT). Methods: In total, 72 children (41 male, 31 female) with CMT who underwent endoscopic surgery at the Department of Orthopedics, Xi'an Children's Hospital, between January 2021 and January 2023 were included. Their mean age was 54 ± 36.1 (range, 12–141) months. Of these, 29 (40.3%) cases involved the left side while 43 (59.7%) involved the right side. Preoperative preparation involved precise body surface markings of the sternocleidomastoid muscle(SCM), clavicle, and important nerve and blood vessels, followed by the establishment of surgical channels through passive separation techniques. An arthroscope and a low-temperature plasma knife were utilized for accurate localization and surgical release of the clavicular and sternal heads of the SCM. The duration of surgery, blood loss, postoperative hospital stay, neck range of motion measurements, and any intraoperative or postoperative complications were analyzed using the rank sum test. Cervical and thoracic braces were applied for three months postoperatively, with follow-up assessments conducted using Cheng's scoring system. Results: All patients successfully underwent endoscopic surgery, without the need for conversion to open surgery. No intra- or postoperative complications were observed. The average surgical duration was 56.4 ± 15.7 min, with minimal intraoperative bleeding (1–5 mL) and no need for blood transfusion. The mean postoperative hospital stay was 2.7 ± 0.8 days. Over a mean follow-up period of 22.2 ± 5.5 (range, 14–32) months, significant improvements were observed in neck rotation (from 20.2° [17.7° to 25°] to only 3.6° [2° to 6.7°]) and lateral flexion (from 19° [17° to 22.6°] to only 3° [2° to 7.8°]) restrictions (p < 0.05). According to Cheng's scoring system, 70 (97.2%) patients achieved excellent or good clinical outcomes, while 2 (2.8%) had average outcomes. The torticollis deformity was corrected during the follow-up period, and all surgical incisions healed without noticeable scarring. Conclusion: Endoscopic release is a safe, effective, and minimally invasive treatment option for CMT in children. [ABSTRACT FROM AUTHOR]

Published

2024

13. Individualized Cognitive Functional Therapy Compared with Conservative Treatment for Patients with Chronic Neck Pain—Study Protocol for a Single Blind Pragmatic Randomized Controlled Trial.

Author

Ploutarchou, George, Korakakis, Vasileios, Lazoura, Evi, Savva, Christos, Pavlou, Kyriakos, Christofi, Iacovos, Sotiriou, Katerina, Savvidou, Chara, Panteli, Andreas, Karagiannis, Christos, and Mamais, Ioannis

Subjects

*BEHAVIOR therapy, *COGNITIVE therapy, *NECK muscles, *MUSCULOSKELETAL pain, *RANDOMIZED controlled trials, *NECK pain

Abstract

Chronic neck pain (CNP) is one of the most common musculoskeletal conditions, is considered the second leading cause of pain, and is among the leading causes of disability. Cognitive Functional Therapy (CFT) is a novel behavioral therapy for individualizing the management of spinal pain targeting the multidimensional aspect of musculoskeletal pain. This study outlines the protocol for an assessor-blind randomized controlled trial (RCT) designed to compare an individualized Cognitive Functional Therapy (CFT) intervention with usual care in terms of pain and disability. Aiming for a pragmatic intervention, the CFT group will receive 16 sessions based on patient's condition characteristics, and clinical presentation and progression. The control group will receive 16 sessions of standardized usual care (electrotherapy, massage, posture exercise, and educations). Both groups will have the same intervention duration. Patients will be randomly allocated into groups and will be assessed at baseline, at the 8th session, at the 16th session, and 3 months after randomization. Primary outcomes will be pain, disability, cervical range of motion, and neck muscle isometric strength. To our knowledge, this study will be the first RCT to compare the clinical effectiveness of CFT compared to UC for adults with CNP. The study results will provide information about the use of CFT in clinical practice. [ABSTRACT FROM AUTHOR]

Published

2024

14. Reduced Cervical Muscle Fat Infiltrate Is Associated with Self-Reported Recovery from Chronic Idiopathic Neck Pain Over Six Months: A Magnetic Resonance Imaging Longitudinal Cohort Study.

Author

Snodgrass, Suzanne J., Weber II, Kenneth A., Wesselink, Evert O., Stanwell, Peter, and Elliott, James M.

Subjects

*NECK pain, *MUSCULOSKELETAL pain, *MAGNETIC resonance imaging, *MYALGIA, *NECK muscles

Abstract

Background: It is unclear why neck pain persists or resolves, making assessment and management decisions challenging. Muscle composition, particularly muscle fat infiltrate (MFI), is related to neck pain, but it is unknown whether MFI changes with recovery following targeted interventions. Methods: We compared muscle composition quantified from fat-water magnetic resonance images from the C3 to T1 vertebrae in individuals with and without chronic idiopathic neck pain at two times 6 months apart. Those with neck pain received six weeks of intervention (physiotherapy or chiropractic) after their baseline MRI; at 6 months, they were classified as recovered (≥3 on the 11-point Global Rating of Change scale) or not recovered. Results: At 6 months, both asymptomatic and recovered individuals had decreased MFI compared to baseline (asymptomatic estimated marginal mean difference −1.6% 95%; CI −1.9, −1.4; recovered −1.6; −1.8, −1.4; p < 0.001) whereas those classified as not recovered had increased MFI compared to baseline (0.4; 0.1, 0.7; p = 0.014), independent of age, sex and body mass index. Conclusions: It appears MFI decreases with recovery from neck pain but increases when neck pain persists. The relationship between cervical MFI and neck pain suggests MFI may inform diagnosis, theragnosis and prognosis in individuals with neck pain. Future development of a clinical test for MFI may assist in identifying patients who will benefit from targeted muscle intervention, improving outcomes. [ABSTRACT FROM AUTHOR]

Published

2024

15. The dominance of dorsal scapular artery as the blood supply to muscles of the back in the absence of two primary vessels: a cadaveric case report.

Author

Rocha, Janay, Chalk, Robert, and Bhattacharya, Arunabh

Subjects

*BACK muscles, *SUPRASPINATUS muscles, *TRAPEZIUS muscle, *SUBCLAVIAN artery, *NECK muscles, *SHOULDER injuries, *NECK pain

Abstract

Purpose: Understanding of rare or unknown anatomical variations of the vasculature of the neck is critical to reduce the risk of complications during surgeries and other invasive procedures in the neck and shoulder regions. Methods: Bilateral dissection of the neck and muscles of the back of an 87-year-old Caucasian male donor was performed to demonstrate the origin, course and termination of the arteries that arise in the neck. Results: Several anatomical variations were noted on the right side of the neck of the donor body – (i) only inferior thyroid and ascending cervical arteries originated from the thyrocervical trunk (TCT), from the first part of the subclavian artery (SA), whereas the transverse cervical (TCA) and suprascapular (SSA) arteries were entirely absent, (ii) Dorsal scapular artery (DSA) emerged normally from the third part of the SA. However, after supplying the rhomboids and levator scapulae muscles, DSA provided two additional branches to the trapezius muscle and a branch to the supraspinatus muscle. Interestingly, the branches to the trapezius muscle from the DSA were the only sources of blood supply to the muscle. Conclusion: We report a unique anatomical variation involving the absence of the TCA and SSA from the TCT. The unilateral absence of these major vessels and the branches of DSA supplying the trapezius and supraspinatus muscles have not been reported previously in the literature in a single case report. This case study may provide useful information for head and neck reconstruction and shoulder repair surgeries. [ABSTRACT FROM AUTHOR]

Published

2024

16. Neck Muscle Coactivation Response to Varied Levels of Mental Workload During Simulated Flight Tasks.

Author

Le, Peter, Mills, Emily H. L., Weisenbach, Charles A., and Davis, Kermit G.

Subjects

*NECK muscles, *MILITARY air pilots, *TASK performance, *NECK pain, *WORK environment, *RESOURCE management

Abstract

Objective: To evaluate neck muscle coactivation across different levels of mental workload during simulated flight tasks. Background: Neck pain (NP) is highly prevalent among military aviators. Given the complex nature within the flight environment, mental workload may be a risk factor for NP. This may induce higher levels of neck muscle coactivity, which over time may accelerate fatigue, increase neck discomfort, and affect flight task performance. Method: Three counterbalanced mental workload conditions represented by simulated flight tasks modulated by interstimulus frequency and complexity were investigated using the Modifiable Multitasking Environment (ModME). The primary measure was a neck coactivation index to describe the neuromuscular effort of the neck muscles as a system. Additional measures included perceived workload (NASA TLX), subjective discomfort, and task performance. Participants (n = 60; 30M, 30F) performed three test conditions over 1 hr each while seated in a simulated seating environment. Results: Neck coactivation indices (CoA) and subjective neck discomfort corresponded with increasing level of mental workload. Average CoAs for low, medium, and high workloads were:.0278(SD =.0232),.0286(SD =.0231), and.0295(SD =.0228), respectively. NASA TLX mental, temporal, effort, and overall scores also increased with the level of mental workload assigned. For ModME task performance, the overall performance score, monitoring accuracy, and resource management accuracy decreased while reaction times increased with the increasing level of mental workload. Communication accuracy was lowest with the low mental workload but had higher reaction times relative to increasing workload. Conclusion: Mental workload affects neck muscle coactivation during combinations of simulated flight tasks within a simulated helicopter seating environment. Application: The results of this study provide insights into the physical response to mental workload. With increasing multisensory modalities within the work environment, these insights may assist the consideration of physical effects from cognitive factors. [ABSTRACT FROM AUTHOR]

Published

2024

17. The relationship between myofascial trigger points sensitivity, cervical postural abnormality, and clinical tension-type headache parameters.

Author

Embaby, Eman, Khalil, Aya A, Mansour, Abdallah, and Hamdy, Hend A

Subjects

*FACIAL muscles, *PEARSON correlation (Statistics), *SECONDARY analysis, *T-test (Statistics), *MYOFASCIAL pain syndromes, *SEX distribution, *NECK muscles, *INTERVIEWING, *QUESTIONNAIRES, *DESCRIPTIVE statistics, *CHI-squared test, *TENSION headache, *RESEARCH methodology, *CERVICAL vertebrae, *DATA analysis software, *CONFIDENCE intervals

Abstract

Background: Myofascial Trigger Points (MTrPs) play a significant role in the pathogenesis of Tension Type Headache (TTH). Abnormal cranio-cervical posture has been linked to various types of headaches. However, the correlation between MTrPs sensitivity, cervical postural alignment, and clinical measures of headache has not been extensively studied in patients with TTH. Objectives: To investigate the relationship between MTrPs sensitivity in cervical and pericranial muscles, cervical postural abnormality, and clinical headache parameters in patients with TTH. Furthermore, to investigate the effect of sex on the examined variables and their association with headache type (episodic vs chronic TTH). Methods: A total of 72 patients with TTH of both sexes were enrolled in this study. Headache frequency and disability as clinical measures of headache, pressure pain threshold (PPT) of bilateral upper trapezius (UT) and suboccipital (SUB) muscles, cervical lordosis angle (CA), and anterior head translation (AHT) were measured. Results: Pericranial MTrPs sensitivity did not demonstrate any correlation with clinical headache parameters or cervical postural abnormality. However, there was a significant correlation between the frequency of headaches and the level of disability (r = 0.32, P < 0.05). In addition, episodic TTH was more prevalent in females who exhibited greater AHT and MTrPs sensitivity of both bilateral UT and right SUB muscles than males. Conclusions: There was no correlation found between the frequency of headaches and the level of disability with measures of cervical posture alignment or MTrPs sensitivity in individuals with TTH.. Based on findings, Clinicians should consider sex differences when assessing patients with TTH. [ABSTRACT FROM AUTHOR]

Published

2024

18. The effect of craniocervical flexors endurance training on suprahyoid muscle activation in healthy adults: A randomised controlled trial.

Author

Toksal Uçar, Arzucan, Yalçın, Ali Imran, Cetin, Hatice, Bostan, Geylan, and Bilgin, Sevil

Subjects

*EXERCISE physiology, *NECK muscles, *STATISTICAL sampling, *HEAD, *RANDOMIZED controlled trials, *DESCRIPTIVE statistics, *BIOFEEDBACK training, *ELECTROMYOGRAPHY, *MUSCLE strength, *PHARYNGEAL muscles, *HYOID bone, *DEGLUTITION, *ENDURANCE sports training, *CERVICAL vertebrae, *POSTURE, *CONFIDENCE intervals, *MUSCLE contraction, *RANGE of motion of joints

Abstract

Background: Cervical posture affects swallowing function through contractile and non‐contractile structures. Craniocervical flexor endurance training (CCFET), which focuses on the activation of deep cervical muscles, is used to ensure cervical posture stability. Objective: The aim of this study was to investigate the effect of CCFET on the suprahyoid muscles (SH), which play an important role in swallowing function. Methods: Eighty healthy individuals (52 female and 28 male, mean age 21.77 ± 1.81 years) were recruited and randomly assigned to groups that underwent either deep cervical flexor (DCF) training with a pressure biofeedback unit (CCFET group, n = 41) or no intervention (control group, n = 39). The intervention was applied for 4 weeks (five sessions per week). Static endurance and activation of DCF muscles (Craniocervical Flexion Test, CCFT), tragus–wall distance (TWD) for forward head posture and surface electromyographic (sEMG) activation of suprahyoid muscles were evaluated. Results: The endurance and activation of the DCF muscles were significantly increased in the CCFET group (p = <.001). In the CCFET group, TWD significantly lower than the control group (p = <.001) Peak SH amplitude and mean SH amplitude were lower in the CCFET group compared to the control group (p =.013, p =.003). Conclusion: The study shows that 4 weeks of CCFET reduced SH muscle activation, allowing the same work to be done with fewer motor units. CCFET can be included in rehabilitation programs as an additional method that has an effect on the muscles involved in swallowing by providing cervical motor control. [ABSTRACT FROM AUTHOR]

Published

2024

19. 塑料扎带扎（勒）颈致人窒息死亡一例.

Author

王立晓, 李 晓, 王金波, 林晟鹏, 李 清, and 张 正

Subjects

NECK muscles, TIME of death, FORENSIC pathology, CAROTID artery, CHEMICAL testing

Abstract

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

Published

2024

20. A case of opioid-induced rigidity requiring naloxone administration at the time of anesthesia emergence.

Author

Fukasawa, Ryohei, Oishi, Ayumi, Nemoto, Chiaki, and Inoue, Satoki

Subjects

SUGAMMADEX, ROCURONIUM bromide, NECK muscles, FLUMAZENIL, MUSCLE contraction

Abstract

Background: Opioid-induced rigidity is typically observed during rapid administration of fentanyl. Herein, we present a case in which rigidity occurred after reversal of rocuronium during emergence from anesthesia. Case presentation: A 73-year-old man underwent video-assisted partial lung resection. General anesthesia was induced with propofol, remimazolam, remifentanil, and rocuronium. Fentanyl was administered early during anesthesia. The surgery was completed without complications, and sugammadex sodium was administered for rocuronium reversal. The patient became agitated, but spontaneous breathing was maintained; therefore, the intratracheal tube was removed after the administration of flumazenil. The patient developed stiffness in the neck and jaw muscles along with remarkable skeletal muscle contractions. Dramatic improvement was observed immediately after administration of naloxone. Conclusions: Even as the simulated effect site concentration of fentanyl decreases during anesthesia emergence, opioid-induced rigidity may still occur. Rapid reversal of remimazolam by flumazenil might have contributed to the rigidity in this case. [ABSTRACT FROM AUTHOR]

Published

2024

21. An Unusual Cause of Lymphadenopathy: Rosai Dorfman Disease in a 7-Year-Old Female Zambian Child: Case Report and Literature Review.

Author

M'hango, Hellen, Chirwa, Uzima, Muhimba, Zoran, Chilufya, Rose, Mulopwe, Juliet, Mumba, Chibamba, and Mpabalwani, Evans

Subjects

*LYMPH nodes, *PHYSICAL diagnosis, *SENTINEL lymph node biopsy, *ACADEMIC medical centers, *DIFFERENTIAL diagnosis, *COMPUTED tomography, *NECK muscles, *PREDNISOLONE, *TREATMENT effectiveness, *CHILDREN'S hospitals, *CHEST X rays, *LYMPHOMAS, *CLINICAL pathology, *IMMUNOHISTOCHEMISTRY, *LYMPHADENITIS, *HISTIOCYTOSIS, *TUBERCULOSIS, *SYMPTOMS, *CHILDREN

Abstract

Rosai Dorfman disease (RDD) is a rare non-Langerhans histiocytic disorder, which belongs to the R group of the 2016 revised histiocytic classification. It's characterized by the accumulation of activated histiocytes in the sinusoids of lymph nodes and/or extranodal tissues. Herein, we report a 7-year-old female who was initially suspected to have a lymphoma but was later identified as having RDD. She presented with a history of fever, night sweats, and weight loss, and on physical examination had bilateral cervical lymphadenopathy. Histologic examination of the biopsied cervical lymph nodes showed distended sinuses with S100 and CD68 immunoreactive histiocytes demonstrating emperipolesis, confirming a diagnosis of RDD. The condition is known to be self-limiting. However, evidence from literature and our case management shows that medical therapy can hasten remission in pediatric cases. [ABSTRACT FROM AUTHOR]

Published

2024

22. Comparison of the Effects of Posterior Cervical Fixation or Posterior Cervical Fixation Extending to the Upper Thoracic Region on Cervical Sagittal Alignment.

Author

Kaya, Mustafa, Ceylan, Davut, Kacira, Tibet, Hiziroglu, Sabahattin, Erdin, Cigdem, and Kitiki Kacira, Özlem

Subjects

*DEGENERATION (Pathology), *LORDOSIS, *NECK muscles

Abstract

Objective Methods Result Conclusion For degenerative diseases accompanied by cervical malalignment, the starting and ending points of fixation for better cervical sagittal alignment and clinical results are not as clear as the thoracolumbar region. In this study we aimed to compare the effects of posterior subaxial cervical fixation (PSCF), posterior cervical fixation extending to the upper thoracic region and posterior upper cervical fixation extending to the upper thoracic region on cervical sagittal alignment.Sixty‐three patients who underwent posterior cervical and cervical‐up thoracic fixation were retrospectively analyzed in a comparative study. The procedures that we performed from May 2019 to March 2022 on these 63 patients were: (1) C3‐C6 group—posterior subaxial cervical fixation; (2) Subaxial‐T2 group—posterior subaxial cervicothoracic fixation (PSCTF); (3) C2‐T2 upper thoracic posterior fixation group. The C3‐C6 group had 27 patients, Subaxial‐T2 group had 24, and C2‐T2 group had 12. We determined the minimum follow‐up period as 12 months. C0‐2, C2‐7 lordosis angle, sagittal vertical axis (SVA), C2 slope, C7 slope, T1 slope, cervical slope, neck slope, and thoracic inlet angle (TIA) measurements were made in three patient groups. Comparatively, cervical sagittal alignment was evaluated.In the C2‐T2 group, a significant increase in C2‐C7 lordosis, decrease in C2 slope, and increase in TS‐CL were observed. Significant C2‐C7 lordosis decrease, C2 slope increase, and TS‐CL decrease were observed in the C3‐C6 group. A significant increase in C2‐C7 lordosis and a decrease in C2 slope were observed in the subaxial‐T2 group. No significant change was observed in the TS‐CL angle.In cervical degenerative disorders accompanied by cervical malalignment, we recommend the C2‐T2 fixation method, which provides the desired C2‐C7 lordosis, SVA within the normal range, and the best Neck Disability Index results. [ABSTRACT FROM AUTHOR]

Published

2024

23. Stochastic electrical stimulation of the thoracic or cervical regions with surface electrodes facilitates swallow in rats.

Author

In Kitamura, Frazure, Michael, Iceman, Kimberly, Takuji Koike, and Pitts, Teresa

Subjects

ELECTRIC stimulation, NECK muscles, NEURAL stimulation, DEGLUTITION, SENSORY stimulation, ASPIRATION pneumonia

Abstract

Introduction: Aspiration pneumonia, a leading cause of mortality, poses an urgent challenge in contemporary society. Neuromuscular electrical stimulation (NMES) has been commonly used in dysphagia rehabilitation. However, given that NMES at motor threshold targets only specific muscles, it carries a potential risk of further compromising functions related to swallowing, respiration, and airway protection. Considering that the swallow motor pattern is orchestrated by the entire swallow pattern generator (the neural mechanism governing a sequence of swallow actions), a rehabilitation approach that centrally facilitates the entire circuit through sensory nerve stimulation is desirable. In this context, we propose a novel stimulation method using surface electrodes placed on the back to promote swallowing. Methods: The efficacy of the proposed method in promoting swallowing was evaluated by electrically stimulating sensory nerves in the back or neck. Probabilistic stimulus was applied to either the back or neck of male and female rats. Swallows were evoked by an oral water stimulus, and electromyographic (EMG) activity of the mylohyoid, thyroarytenoid, and thyropharyngeus muscles served as the primary outcome measure. Results: Gaussian frequency stimulation applied to the skin surface of the thoracic back elicited significant increases in EMG amplitude of all three swallow-related muscles. Neck stimulation elicited a significant increase in EMG amplitude of the thyroarytenoid during swallow, but not the mylohyoid or thyropharyngeus muscles. Discussion: While the targeted thoracic spinal segments T9-T10 have been investigated for enhancing respiration, the promotion of swallowing through back stimulation has not been previously studied. Furthermore, this study introduces a new probabilistic stimulus based on Gaussian distribution. Probabilistic stimuli have been reported to excel in nerve stimulation in previous research. The results demonstrate that back stimulation effectively facilitated swallow more than neck stimulation and suggest potential applications for swallowing rehabilitation. [ABSTRACT FROM AUTHOR]

Published

2024

24. 三维数字儿童蒙医针刺穴位可视化系统的研发.

Author

刘宇航, 孙瑞芬, 木日根吉雅, 王 星, 李志军, 刘亚楠, 郝韵腾, 蔡永强, 张少杰, and 李 琨

Subjects

*ACUPUNCTURE points, *ASIANS, *CHINESE medicine, *CERVICAL cord, *HUMAN anatomical models, *NECK muscles

Abstract

BACKGROUND: Nowadays, there are increasing reports on the digitization and visualization system of acupuncture points for adults in traditional Chinese medicine, and the digitization and visualization system of acupuncture points for children in traditional Chinese medicine and the simulation system of acupuncture manipulation for Mongolian medicine training have been reported. However, there are no reports on relevant systems for children in Mongolian medicine. OBJECTIVE: To develop a simulation system of acupuncture points for children in Mongolian medicine, in the hope that it can be used for clinical teaching, manipulation practice and research on acupuncture safety. METHODS: Based on the tomographic anatomical dataset of preschool boys, a three-dimensional (3D) digital virtual anatomical model of children with multiple internal organs and tissues was constructed by using PhotoShop.2021 and Digihuman Reconstruction System software. The relevant annotation information database of 27 acupoints such as Dinghui acupoint of Mongolian medicine was compiled by the Unity database language. The Mongolian gold needle and silver needle were selected to record the acupuncture point teaching video on the 3D printed head and neck resin model of children. In Unity3D software, children’s anatomical model, acupoint annotation information database and acupuncture operation video were integrated and coded, and a 3D digital children’s Mongolian acupuncture acupoint visualization system integrating simulation acupuncture training, clinical teaching and acupuncture safety research was successfully created. RESULTS AND CONCLUSION: This study was based on real children’s specimens. In order to reduce the error of two-dimensional segmentation, the manual layer-by-layer segmentation section image method was used to ensure the accuracy of the 3D model to the greatest extent. The Digihuman Reconstruction System was used to extract and save the individual segmentation data while maximizing the accuracy of the 3D model. PhotoShop.2021 software was used to complete the 3D reconstruction of the outer skin of the head and neck of children and the internal bony structure, cervical spinal cord, blood vessels and nerves, muscles and ligaments. After 3D reconstruction, the basic morphology of each independent structure and the integrity of the overall contour were verified in MeshLab software and the final fine adjustment and anatomical position confirmation were conducted using 3-matic research 13.0 software. The real anatomical morphology of the head and neck of preschool children was successfully simulated and restored. Unity3D software was used to integrate the 3D model of children, acupuncture operation video and acupoint annotation database, and the 3D digital Mongolian acupuncture acupoint visualization system for children was successfully constructed. Based on the real continuous fault ultra-thin dataset of preschool boys in China, China’s first 3D digitization and visualization system of acupuncture points in the head and neck of children in Mongolian medicine was developed. Compared with the previous acupuncture soft works, this system is more suitable for the anatomical morphological development characteristics of Asian children, and has a high value of application in the fields of research on the safety of acupuncture in Mongolian medicine, clinical teaching and acupuncture simulation training. [ABSTRACT FROM AUTHOR]

Published

2024

25. Impact of Tumor Size on Prognosis in Differentiated Thyroid Cancer with Gross Extrathyroidal Extension to Strap Muscles: Redefining T3b.

Author

Park, Joonseon, An, Solji, Bae, Ja Seong, Kim, Kwangsoon, and Kim, Jeong Soo

Subjects

*RISK assessment, *THYROID gland tumors, *RECEIVER operating characteristic curves, *NECK muscles, *DESCRIPTIVE statistics, *PROGRESSION-free survival, *COMPARATIVE studies, *TUMOR classification, *OVERALL survival, MORTALITY risk factors

Abstract

Simple Summary: This study investigated the impact of tumor size on T3b differentiated thyroid cancer prognosis. No significant difference was found in the prognosis of small T3b tumors compared to the T1 tumors. Disease-specific survival, disease-free survival, and overall survival were significantly lower only in large T3b tumors compared to T2 and T3a. If T3b tumors are 2 cm or smaller, downstaging may be considered. The modified T category, reclassifying T3b (≤2 cm) as T1, showed better staging performance than the existing category. Adopting this modified T category could improve the prognostic accuracy of the AJCC/TNM staging. The prognostic significance of tumor size in T3b differentiated thyroid cancer (DTC) remains debated and underexplored. This study aimed to examine the varying impact of T3b based on tumor size, analyzing disease-specific survival, disease-free survival, and overall survival. A retrospective review of 6282 DTC patients who underwent thyroid surgery at Seoul St. Mary's Hospital from September 2000 to December 2017 was conducted. T3b was classified into three subcategories, T3b-1 (≤2 cm), T3b-2 (2–4 cm), and T3b-3 (>4 cm), using the same size criteria for T1, T2, and T3a. T3b-1 showed no significant difference in disease specific survival compared to T1, and both disease-free and disease-specific survival curves were sequentially ranked as T1, T3b-1, T2, T3a, T3b-2, and T3b-3. The modified T category, reclassifying T3b-1 as T1, demonstrated superior staging performance compared to the classic T category (c-index: 0.8961 vs. 0.8959 and AUC: 0.8573 vs. 0.8518). Tumors measuring 2 cm or less within the T3b category may require downstaging, and a modified T category could improve the precision of prognostic staging compared to the current T category. [ABSTRACT FROM AUTHOR]

Published

2024

26. Effects of head alignment devices on working memory and postural support during computer work.

Author

Jung, Ju-Yeon and Kang, Chang-Ki

Subjects

*SHORT-term memory, *NECK muscles, *COMPUTER storage devices, *MUSCLE tone, *VISUAL analog scale, *COMPUTERS

Abstract

The most common risk factor of computer workers is poor head and neck posture. Therefore, upright seated posture has been recommended repeatedly. However, maintaining an upright seated posture is challenging during computer work and induces various complaints, such as fatigue and discomfort, which can interfere working performance. Therefore, it is necessary to maintain an upright posture without complaints or intentional efforts during long-term computer work. Alignment devices are an appropriate maneuver to support postural control for maintaining head-neck orientation and reduce head weight. This study aimed to demonstrate the effects of workstations combined with alignment device on head-neck alignment, muscle properties, comfort and working memory ability in computer workers. Computer workers (n = 37) participated in a total of three sessions (upright computer (CPT_U), upright support computer (CPT_US), traction computer (CPT_T) workstations). The craniovertebral angle, muscles tone and stiffness, visual analog discomfort scale score, 2-back working memory performance, and electroencephalogram signals were measured. All three workstations had a substantial effect on maintaining head-neck alignment (p< 0.001), but only CPT_US showed significant improvement on psychological comfort (p = 0.04) and working memory performance (p = 0.024), which is consistent with an increase in delta power. CPT_U showed the increased beta 2 activity, discomfort, and false rates compared to CPT_US. CPT_T showed increased alpha and beta 2 activity and decreased delta activity, which are not conductive to working memory performance. In conclusion, CPT_US can effectively induce efficient neural oscillations without causing any discomfort by increasing delta and decreasing beta 2 activity for working memory tasks. [ABSTRACT FROM AUTHOR]

Published

2024

27. Correlation between degeneration of cervical intervertebral disc and degeneration of paravertebral muscle.

Author

Qiujiang Li, Xingxia Long, Rui Wang, Niu Pengying, Lijun Cai, Lei Wang, and Yueming Song

Subjects

MULTIPLE regression analysis, INTERVERTEBRAL disk, NECK muscles, NECK pain, ONE-way analysis of variance, RANK correlation (Statistics), MAGNETIC resonance imaging

Abstract

Objective: To investigate the relationship between degeneration of cervical intervertebral disc and degeneration of paravertebral muscles[multifidus (MF), cervical semispinalis (SCer), semispinalis capitis (SCap) and splenius capitis (SPL)]. Methods: 82 patients with chronic neck pain were randomly selected, including 43 males and 39 females, with 50.73 0.7.51 years old. All patients were scanned by 3.0T MRI Philips Ingenia performed conventional MRI sequence scanning and fat measurement sequence mDIXON-Quant scanning of cervical. Fat infiltration (FI) and cross-sectional area (CSA) of cervical paravertebral muscle (MF, SCer, SCap and SPL) at central level of C5–6 disc were measured by Philips 3.0T MRI image post-processing workstation. According to Pfirrmann grading system, there was no grade I in the included cases. The number of grade IIr IV cases were n=16, 40, 19 and 7 respectively. CSA and FI of cervical paravertebral muscles were compared with t test or one-way ANOVA, Spearman correlation analysis was used to evaluate the correlation between age, disc degeneration, and CSA, FI of cervical paravertebral muscles, and multiple linear regression analysis was used to analyze the independent influencing factors of CSA and FI. Results: CSA of cervical paravertebral muscles in male patients was significantly higher than that in female patients (all P<0.001), but there was no significant difference in FI (all P>0.05). Age was weakly correlated with CSA of MF+SCer, moderately correlated with CSA of SCap and SPL (r=-0.256, -0.355 and -0.361,P<0.05), weakly correlated with FI of SCap and SPL (r= 0.182 and 0.264, P<0.001), moderately correlated with FI of MF+SCer (r=0.408, P<0.001). There were significant differences in FI with disc degeneration (P<0.001, P=0.028 and P=0.005). Further correlation analysis showed that disc degeneration was strongly correlated with FI of MF+SCer (r=0.629, P<0.001), and moderately correlated with FI of SCap and SPL (r=0.363, P=0.001; r=0.345, P=0.002). Multiple linear regression analysis showed that sex and age were the influencing factors of CSA of SCap and SPL, sex was the independent influencing factor of CSA of MF+SCer, and disc degeneration was the independent influencing factor of FI. Conclusions: Age is negatively correlated with CSA and positively correlated with FI. Disc degeneration was correlated with FI of paravertebral muscles, especially with FI of MF and SCer. Sex and age were the influencing factors of CSA, while disc degeneration was the independent influencing factor of FI. [ABSTRACT FROM AUTHOR]

Published

2024

28. Investigation of the Relationship Between Disc Degeneration and Cross-Sectional Area of Deep Extensor Muscles in Patients with Chronic Non-specific Neck Pain.

Author

TEKİN, Ayla, GÜL, Gülüzar, ÇOLAK, Tuncay, and ÇAKIR, Özgür

Subjects

*EXTENSOR muscles, *MAGNETIC resonance imaging, *INTERVERTEBRAL disk, *NECK pain, *NECK muscles

Abstract

Objective: The objective of our research is to analyze the impact of the degree of C4-C5 disc degeneration on the relative cross-sectional area of the deep extensor muscles (R-CSADEs). Methods: A total of 162 patients, 98 (60.5%) females and 64 (39.5%) males, who presented to our hospital between 2020 and 2022 with chronic non-specific neck pain, were included in our study. Retrospectively, the degrees of C4-C5 disc degeneration were determined through magnetic resonance imaging, and the R-CSADEswas measured. DEs Results: The average age of 162 patients was found to be 42.30±8.8, and the average relative CSA of the deep cervical extensor muscles (R-CSADEs) was found to be 1.96±0.45. C4-C5 disc degeneration was found in 41 (25.3%) patients at grade 0, in 99 (61.1%) patients at grade 1, and in 22 (13.6%) patients at grade 2. The mean R-CSADEs of male were higher than those of female, and this elevation was statistically significant (p<0.05). It was observed that both female (p<0.001) and male patients (p<0.01) had an increased age as the degeneration grade increased. There was a significant difference in R-CSADEs between the degrees of disc degeneration in female (p<0.001). Conclusion: In patients with chronic neck pain, especially in female, there is a significant decrease in the R-CSADEs as the degree of disc degeneration increases. [ABSTRACT FROM AUTHOR]

Published

2024

29. Longitudinal visibility of MRI findings in living victims of strangulation.

Author

Bauer, Melanie, Hollenstein, Christina, Lieb, Johanna Maria, Grassegger, Sabine, Haas, Tanja, Egloff, Laura, Berger, Celine, Scheurer, Eva, and Lenz, Claudia

Subjects

*MAGNETIC resonance imaging, *STRANGLING, *NECK muscles, *NECK injuries

Abstract

Initial experiences with magnetic resonance imaging (MRI) of living strangulation victims demonstrated additional findings of internal injuries compared to the standard clinical forensic examination. However, existing studies on the use of MRI for this purpose mostly focused on the first 48 h after the incident. The aims of this study were (a) to evaluate the longitudinal visibility of MRI findings after violence against the neck by performing two MRI examinations within 12 days and a minimum of four days between both MRI scans and (b) to assess which MRI sequences were most helpful for the detection of injuries. Twenty strangulation victims participated in this study and underwent one (n = 8) or two (n = 12) MRI scans. The first MRI examination was conducted during the first five days, the second five to 12 days after the incident. Two blinded radiologists assessed the MRI data and looked for lesions in the structures of the neck. In total, 140 findings were reported in the 32 MRI examinations. Most of the findings were detected in the thyroid and the muscles of the neck. T2-weighted SPACE with fat suppression, T1-weighted TSE and T1-weighted MPRAGE were rated as the most helpful MRI sequences. Subjects who showed findings in the initial scan also demonstrated comparable results in the second scan, which was performed on average 8.4 days after the incident. Our results show that even up to 12 days after the incident, the criminal proceeding of strangulation cases may greatly profit from the information provided by an MRI examination of the neck in addition to the standard clinical forensic examination. [ABSTRACT FROM AUTHOR]

Published

2024

30. Finite Element Analysis of Cervical Spine Kinematic Response during Ejection Utilising a Hill-Type Dynamic Muscle Model.

Author

Gong, Yikang, Cheng, Zhenghan, Teo, Ee-Chon, and Gu, Yaodong

Subjects

*CERVICAL vertebrae, *FINITE element method, *DYNAMIC models, *ROTATIONAL motion, *NECK, *NECK muscles

Abstract

To determine the impact of active muscle on the dynamic response of a pilot's neck during simulated emergency ejection, a detailed three-dimensional (3D) cervical spine (C0–T1) finite element (FE) model integrated with active muscles was constructed. Based on the Hill-type model characterising the muscle force activation mechanics, 13 major neck muscles were modelled. The active force generated by each muscle was simulated as functions of (i) active state ( N a ), (ii) velocity ( F v (v)), and (iii) length ( F L (L)). An acceleration-time profile with an initial acceleration rate of 125 G·s−1 in the 0–80 ms period, reaching peak acceleration of 10 G, then kept constant for a further 70 ms, was applied. The rotational angles of each cervical segment under these ejection conditions were compared with those without muscles and with passive muscles derived from the previous study. Similar trends of segmental rotation were observed with S- and C-curvature of the cervical spine in the 150 ms span analysed. With active muscles, the flexion motion of the C0–C2 segments exhibited higher magnitudes of rotation compared to those without muscle and passive muscle models. The flexion motion increased rapidly and peaked at about 95–105 ms, then decreased rapidly to a lower magnitude. Lower C2–T1 segments exhibited less variation in flexion and extension motions. Overall, during emergency ejections, active muscle activities effectively reduce the variability in rotational angles across cervical segments, except C0–C2 segments in the 60–120 ms period. The role of the active state dynamics of the muscles was crucial to the magnitude of the muscle forces demonstrated. This indicates that it is crucial for pilots to consciously contract their muscles before ejection to prevent cervical spine injuries. [ABSTRACT FROM AUTHOR]

Published

2024

31. Evaluating Neck-Strengthening Protocols to Reduce the Incidence of Traumatic Brain Injury: Traditional vs. Nontraditional Neck-Strengthening Techniques.

Author

Schroeder, Lindsey H., McDaniel, Alexander T., Yishi Wang, Dickens, Gabe M., Pantani, Valentina, and Kubinak, Haley

Subjects

*NECK physiology, *NECK muscles, *ISOMETRIC exercise, *STATISTICAL sampling, *KINEMATICS, *MULTIPLE regression analysis, *RANDOMIZED controlled trials, *DESCRIPTIVE statistics, *STRENGTH training, *RESISTANCE training, *BRAIN injuries, *CERVICAL vertebrae, *BODY movement, *COMPARATIVE studies, *DISEASE incidence, *MUSCLE contraction

Abstract

A common cause of traumatic brain injuries (TBIs) is the head’s kinematic response to rapid movement, which can be reduced with dynamic neck strengthening. This study aimed to determine the most effective neck-strengthening program by comparing a traditional and nontraditional program. Isometric neck strength was assessed in 32 subjects randomly assigned to one of the traditional and nontraditional neck-strengthening programs. The nontraditional program used a novel neck-strengthening device. After weeks 6 and 10 of training, isometric neck strength was reassessed. With the collected data, linear mixed models were established to compare the changes in neck strength between the 2 groups during the 10-week training period. Statistical analysis results suggest that, for both cervical extension (CE) and cervical flexion (CF), subjects in the novel neck-strengthening device group had a significantly higher gain of strength during the 10 weeks than the traditional group. With test statistics of 22.691 and 23.203 and corresponding 2-sided p-value of 0.01289 and 0.003889, respectively, we conclude that there is a statistically significant difference in the linear slopes of increase for both CE and CF between the 2 groups. As to left cervical lateral flexion and right cervical lateral flexion, the novel neck strength group had increased strength gains compared with the traditional group. However, the increase was not enough to demonstrate significant findings. Results were considered significant at p, 0.05. The results of this study show that the novel neck-strengthening device may be an effective mechanism for preventing mild TBIs. [ABSTRACT FROM AUTHOR]

Published

2024

32. The Relationship Between Postural Torticollis Abnormalities and Plagiocephaly on the Early Motor Development Milestones of Lying and Rolling Activities in Infants: A Retrospective Study.

Author

Park, Hyun-Suk, Kang, Mo-Yeol, Choi, Chi-Whan, Koo, Jung-Wan, and Jeong, Yeon-Gyu

Subjects

*MOTOR ability, *EARLY medical intervention, *TORTICOLLIS, *NECK muscles, *MULTIPLE regression analysis, *RETROSPECTIVE studies, *CHILD development, *DEFORMATIONAL plagiocephaly, *MEDICAL records, *ACQUISITION of data, *PHYSICAL activity, *CHILDREN

Abstract

The study examined how neck muscle imbalance and plagiocephaly affect the lying and rolling activities in 118 infants aged 4 to 6 months with postural torticollis. Outcome measures included age, sex, cervical movement, and plagiocephaly severity. Neck muscle function was assessed with the Muscle Function Scale (MFS), and infant motor abilities in lying and rolling were evaluated through the corresponding dimensions of the Gross Motor Function Measure (GMFM). Multiple regression analysis showed that a better MFS score of the affected neck was significantly associated with improved lying and rolling activities in the GMFM (p <.01), and importantly, the interaction between the plagiocephaly and the MFS scores of the affected neck muscle in these activities was found to be significant (p <.05). These results highlight the need for early intervention in infants with torticollis to address muscle imbalance and plagiocephaly, crucial for early motor development (KCT0008367). [ABSTRACT FROM AUTHOR]

Published

2024

33. The effect of cervical traction on stabilometric parameters in cervical radiculopathy patients: A randomized crossover study.

Author

Jellad, Anis, Kalai, Amine, Abbes, Ilef, Jguirim, Mahbouba, Boudokhane, Soumaya, Salah Frih, Zohra Ben, and Bedoui, Mohamed Hedi

Subjects

*PAIN measurement, *STATISTICAL sampling, *DIZZINESS, *NECK muscles, *TREATMENT effectiveness, *RANDOMIZED controlled trials, *DESCRIPTIVE statistics, *RADICULOPATHY, *CROSSOVER trials, *ORTHOPEDIC traction, *PAIN management, *CERVICAL vertebrae, *COMPARATIVE studies, *GRIP strength

Abstract

BACKGROUND: Cervical traction is effective on pain and function in patients with cervical radiculopathy but its effectiveness on balance disorders has not yet been studied. OBJECTIVE: To evaluate the effect of mechanical intermittent cervical traction (MICT) on stabilometric parameters in patients with cervical radiculopathy. METHODS: This randomized crossover study assigned 20 patients with cervical radiculopathy to one of the two groups: Group effective traction (ET)/sham traction (ST) (n = 10) treated firstly with ET (traction force of 12 Kg) then with ST (traction force of 2 Kg) with one-week interval and group ST/ET (n = 10) treated invertedly with a ST then ET. Each traction procedure was maintained for 10 minutes twice separated by 5 minutes of rest. Patients were assessed before and immediately after MICT procedure. Main outcome measures were stabilometric parameters: center of pressure, sway area and lateral and anteroposterior displacements using a force platform. Secondary outcome measures were pain intensity, grip strength and dizziness. RESULTS: ET has provided a significantly greater improvement in both groups and in the total population in terms of stabilometric parameters (p < 0.01), pain intensity, and grip strength (p < 0.05), compared to ST. CONCLUSION: MICT seems to have an immediate beneficial effect on stabilometric parameters, pain and grip strength in patients with cervical radiculopathy. [ABSTRACT FROM AUTHOR]

Published

2024

34. Reproducibility of the Ultrasonography in Measuring the Cross-section of the Longus Colli in Patients With Non-specific Neck Pain.

Author

Samiei, Afsaneh, Hosseinifar, Mohammad, Ghiasi, Fateme, Namvar, Hasan, and Ashtiani, Ahmadreza Asgari

Subjects

CROSS-sectional method, PEARSON correlation (Statistics), CHRONIC pain, NECK pain, RESEARCH evaluation, NECK muscles, STATISTICAL sampling, DESCRIPTIVE statistics, INTRACLASS correlation, CERVICAL vertebrae, DATA analysis software, INTER-observer reliability, MUSCLE contraction

Abstract

Purpose: Ultrasonography (US) can be used to measure the dimensions and the cross-section of muscles. This study aims to investigate the intra- and inter-tester reproducibility of the US measures of the cross-section of the longus colli (LC) muscle at rest and in contraction states in patients with chronic non-specific neck... [ABSTRACT FROM AUTHOR]

Published

2024

35. Neck muscle function improves after neck exercises in individuals with whiplash-associated disorders: a case–control ultrasound study with speckle-tracking analyses

Author

Gunnel Peterson, David Nilsson, Margaretha Jönsson, Kate Bennett, and Anneli Peolsson

Subjects

Whiplash injury, Ultrasonography, Neck muscles, Spine, Rehabilitation, Physical therapy, Medicine, Science

Abstract

Abstract A whiplash injury can alter neck muscle function, which remains years after the injury and may explain why symptoms such as persistent pain and disability occur. There is currently limited knowledge about dynamic neck muscle function in chronic whiplash-associated disorders (WAD), and about the extent to which altered muscle function can improve after rehabilitation. Ultrasound can detect mechanical neck muscle function by measuring real-time deformation and deformation rate in the muscles. This method was used for five dorsal neck muscles in participants with chronic WAD versus matched controls in resistant neck rotation. We obtained real-time, non-invasive ultrasound measurements using speckle tracking, multivariate analyses, and mixed-design ANOVA analyses. The results showed altered deformation in the three deepest neck muscle layers, with less deformation area in the WAD group compared to controls in rotation to the most painful side at baseline. Participants in the WAD group performed three months of neck-specific exercises, resulting in improved deformation in the deep neck muscles in WAD and with a similar deformation pattern to controls, and the significant group differences ceased. We reveal new and important insights into the capability of ultrasound to diagnose altered neck muscle function and evaluate an exercise intervention.

Published

2024

36. Investigation of the Relationship Between Disc Degeneration and Cross-Sectional Area of Deep Extensor Muscles in Patients with Chronic Non-specific Neck Pain

Author

Ayla TEKİN, Gülüzar GÜL, Tuncay ÇOLAK, and Özgür ÇAKIR

Subjects

intervertebral disc degeneration, mri, neck muscles, Medicine (General), R5-920

Abstract

Objective: The objective of our research is to analyze the impact of the degree of C4-C5 disc degeneration on the relative cross-sectional area of the deep extensor muscles (R-CSADEs). Methods: A total of 162 patients, 98 (60.5%) females and 64 (39.5%) males, who presented to our hospital between 2020 and 2022 with chronic non-specific neck pain, were included in our study. Retrospectively, the degrees of C4-C5 disc degeneration were determined through magnetic resonance imaging, and the R-CSADEs was measured. Results: The average age of 162 patients was found to be 42.30±8.8, and the average relative CSA of the deep cervical extensor muscles (R-CSADEs) was found to be 1.96±0.45. C4-C5 disc degeneration was found in 41 (25.3%) patients at grade 0, in 99 (61.1%) patients at grade 1, and in 22 (13.6%) patients at grade 2. The mean R-CSADEs of male were higher than those of female, and this elevation was statistically significant (p

Published

2024

37. Acute calcific tendinitis of the longus colli: A case report

Author

Valery L. Turner, MD, Camila Martinez, MD, Judith Rocha, MD, and Antonia Valenzuela, MD

Subjects

Tendinopathy, Calcinosis, Neck muscles, Case report, Multidetector computed tomography, Magnetic resonance imaging, Medical physics. Medical radiology. Nuclear medicine, R895-920

Abstract

Acute calcific longus colli tendinitis is a differential diagnosis of neck pain. Typical presentation consists in a triad of symptoms including acute onset neck pain, neck stiffness and odynophagia. Computed tomography (CT) is the gold standard for acute calcific longus colli tendinitis diagnosis and the main radiological findings include prevertebral soft tissue swelling and the presence of amorphous calcifications. The case involves a 39-year-old female who presented to the emergency department with acute unilateral cervical pain that resulted in acute calcific longus colli tendinitis.

Published

2024

38. Neuro-Mechanical AI fusion: A paradigm of wearable assistance for cervical impairments.

Author

Muralikrishnan, Sai Rohit, Kumar, Manish S., Kalaipriyan, R., and Doss, Arockia Selvakumar Arockia

Subjects

*ASSISTIVE technology, *TECHNOLOGICAL innovations, *NECK, *NECK muscles, *OLDER people, *ARTIFICIAL intelligence, *SURFACE strains

Abstract

Dynamic wearable human neck assistive device is a state-of-the-art technological innovation created to support and aid people with neck problems or impairments. To dynamically adapt to the user's movements and offer real-time feedback and direction, this device makes use of cutting-edge sensors, algorithms, and artificial intelligence. The gadget can assist with activities including head stabilization, posture correction, and assistance with neck movement. By boosting their mobility, comfort, and independence, this cutting-edge technology has the potential to greatly improve the quality of life for those with neck impairments or disabilities. Based on the information about the human anatomical head and neck, a dynamic wearable assistive cervical collar was developed to address this problem. In an experimental investigation, a group of older individuals with mild neck discomfort had their neck surface muscles bent and compressed both with and without the aid of a dynamic wearable supportive cervical collar. It was found that test subjects could imitate 65% of human head and neck motions, such as flexion, extension, lateral bending, and rotation, with this suggested assistive device while putting the least amount of strain on the neck surface muscle. The findings indicate that utilizing the developed assistive device reduced the strain on the neck surface muscle and that the strain obtained is being reduced. [ABSTRACT FROM AUTHOR]

Published

2024

39. Frequency of breaks, amount of muscular rest, and sustained muscle activity related to neck pain in a pooled dataset.

Author

Koch, Markus, Forsman, Mikael, Enquist, Henrik, Baare Olsen, Henrik, Søgaard, Karen, Sjøgaard, Gisela, Østensvik, Tove, Nilsen, Petter, Andersen, Lars Louis, Due Jacobsen, Markus, Brandt, Mikkel, Westgaard, Rolf, Mork, Paul Jarle, Fan, Xuelong, Wærsted, Morten, and Veiersted, Kaj Bo

Subjects

*NECK pain, *TRAPEZIUS muscle, *NECK muscles, *CHRONIC pain, *CONFOUNDING variables, *REST periods, *WORKING hours

Abstract

Background: Neck pain remains a persistent challenge in modern society and is frequently encountered across a wide range of occupations, particularly those involving repetitive and monotonous tasks. It might be expected that patterns of trapezius muscle activity at work, characterized by few breaks and prolonged periods of sustained muscle activity, are linked to neck pain. However, previous cross-sectional studies have generally failed to establish a definitive association. While some longitudinal studies have suggested that extended periods of heightened muscle activity could be a risk factor for neck pain, these findings often relied on limited participant numbers or specific professional groups. This study aimed to investigate the relationship between trapezius muscle activity and neck pain by pooling data from seven Scandinavian research institutes encompassing a diverse range of occupational backgrounds. Methods: Electromyographic (EMG) data for the upper trapezius muscle, collected during working hours, were coupled with questionnaire responses pertaining to neck pain, individual characteristics, and potential confounding variables for a total of 731 subjects. Additionally, longitudinal data from 258 subjects were available. The various EMG datasets were consolidated into a standardized format, and efforts were made to harmonize inquiries about neck pain. Regression analyses, adjusting for sex and height, were conducted to explore the associations between muscle activity variables and neck pain. An exposure index was devised to quantify the cumulative neck load experienced during working hours and to differentiate between various occupational categories. Results: The cross-sectional data displayed a distinct pattern characterized by positive associations for brief periods of sustained muscle activity (SUMA) and negative associations for prolonged SUMA-periods and neck pain. The longitudinal data exhibited a contrasting trend, although it was not as pronounced as the cross-sectional findings. When employing the exposure index, notable differences in cumulative muscle load emerged among occupational groups, and positive associations with longitudinal neck pain were identified. Discussion: The results suggest that individuals with neck pain experience higher cumulative workloads and extended periods of muscle activity over the long term. In the short term, they appear to compensate by taking frequent short breaks, resulting in a lower cumulative workload. Regardless of their occupation, it is crucial to distribute work breaks throughout the workday to ensure that the cumulative load remains manageable. [ABSTRACT FROM AUTHOR]

Published

2024

40. Muscle texture features on preoperative MRI for diagnosis and assessment of severity of congenital muscular torticollis.

Author

Qiu, Xin, Zhu, Tianfeng, Zhao, Zhenhui, Cui, Zhiwen, Deng, Hansheng, Tang, Shengping, Sechi, Leonardo Antonio, Caggiari, Gianfilippo, Zhao, Cailei, and Xiong, Zhu

Subjects

*RECEIVER operating characteristic curves, *RESEARCH funding, *TORTICOLLIS, *NECK muscles, *RADIOMICS, *LOGISTIC regression analysis, *PREOPERATIVE care, *SEVERITY of illness index, *MAGNETIC resonance imaging, *RETROSPECTIVE studies, *DESCRIPTIVE statistics, *MEDICAL records, *ACQUISITION of data, *DIGITAL image processing, *STAINS & staining (Microscopy), *CONFIDENCE intervals, *SENSITIVITY & specificity (Statistics), *EVALUATION

Abstract

Objectives: To develop an objective method based on texture analysis on MRI for diagnosis of congenital muscular torticollis (CMT). Material and methods: The T1- and T2-weighted imaging, Q-dixon, and T1-mapping MRI data of 38 children with CMT were retrospectively analyzed. The region of interest (ROI) was manually drawn at the level of the largest cross-sectional area of the SCM on the affected side. MaZda software was used to obtain the texture features of the T2WI sequences of the ROI in healthy and affected SCM. A radiomics diagnostic model based on muscle texture features was constructed using logistic regression analysis. Fatty infiltration grade was calculated by hematoxylin and eosin staining, and fibrosis ratio by Masson staining. Correlation between the MRI parameters and pathological indicators was analyzed. Results: There was positive correlation between fatty infiltration grade and mean value, standard deviation, and maximum value of the Q-dixon sequence of the affected SCM (correlation coefficients, 0.65, 0.59, and 0.58, respectively, P < 0.05).Three muscle texture features—S(2,2)SumAverg, S(3,3)SumVarnc, and T2WI extreme difference—were selected to construct the diagnostic model. The model showed significant diagnostic value for CMT (P < 0.05). The area under the curve of the multivariate conditional logistic regression model was 0.828 (95% confidence interval 0.735–0.922); the sensitivity was 0.684 and the specificity 0.868. Conclusion: The radiomics diagnostic model constructed using T2WI muscle texture features and MRI signal values appears to have good diagnostic efficiency. Q-dixon sequence can reflect the fatty infiltration grade of CMT. [ABSTRACT FROM AUTHOR]

Published

2024

41. Case report: Rapid clinical improvement in acute exacerbation of MuSK-MG with efgartigimod.

Author

Geke Zhu, Yongbo Ma, Han Zhou, Xiangtao Nie, Wenjing Qi, Lei Hao, and Xiuming Guo

Subjects

DISEASE exacerbation, MYASTHENIA gravis, NECK muscles, ACETYLCHOLINESTERASE inhibitors, EYE movements, BIOLOGICALS

Abstract

Myasthenia gravis with positive MuSK antibody often involves the bulbar muscles and is usually refractory to acetylcholinesterase inhibitors. For MuSK-MG patients who experience acute exacerbations and do not respond to conventional treatments, there is an urgent need to find more suitable treatment options. With the advent of biologic agents, efgartigimod has shown promising results in the treatment of MG. We report a 65-year-old MuSK-MG patient who presented with impaired eye movements initially, and the symptoms rapidly worsened within a week, affecting the limbs and neck muscles, and had difficulties in chewing and swallowing. Lymphoplasmapheresis did not achieve satisfactory results, but after a cycle of efgartigimod treatment, the patient’s symptoms gradually improved and remained in a good clinical state for several months. [ABSTRACT FROM AUTHOR]

Published

2024

42. Correlations between the Frankfort Plane and the Presence of Myofascial Trigger Points in Posterior Cervical Musculature: An Exploratory Study.

Author

Sánchez-Guilabert, Darío and Martínez-Carrasco, Ángel

Subjects

*MYOFASCIAL pain syndromes, *NECK pain, *MUSCULOSKELETAL pain, *PRACTICE (Sports), *DISABILITIES, *MODERN society, *SKELETAL muscle, *NECK muscles

Abstract

Neck pain is a pathology with a high impact in terms of physical disability in modern society. The position of the head is related to neck pain. The Frankfort plane determines the position of the skull in space. The profile photograph of the subjects was used to determine the Frankfort plane and to study its degree of inclination. Myofascial pain syndrome is one of the most common causes of musculoskeletal pain. Trigger points are hyperirritable spots located in a palpable taut band of skeletal muscle that is painful on compression or stretch and causes a local twitch in response to snapping or palpation of the band. Objectives: The aim of this study was to analyze the relationship between the Frankfort plane and the presence of myofascial trigger points causing cervical myofascial pain. Methods: This is a cross-sectional descriptive observational study. All subjects underwent a photographic study to determine the degree of Frankfort plane inclination, and the posterior cervical musculature was palpated to find myofascial trigger points that were measured with a pressure algometer in three cervical locations on the right and left sides. Results: Our study included 47 subjects who had suffered at least one episode of cervical pain in their lifetimes. The mean age was 22.3 ± 2.9 years. Statistically significant results were found in the first right location and sports practice (p = 0.007), in the second right location and gender (p = 0.0097), in the second right location and sports practice (p = 0.0486), in the third right location and gender (p = 0.0098), and in the first, second, and third left locations and gender (p = 0.0083; p = 0.024; p = 0.0016, respectively). In the correlation between the Frankfort plane and the presence of myofascial trigger points, all locations were positive, with the first right location being statistically significant (p = 0.048). Conclusions: A positive relationship was found between the Frankfort plane and the presence of myofascial trigger points. The greater the angle of the Frankfort plane, the less the myofascial pain. [ABSTRACT FROM AUTHOR]

Published

2024

43. Routine Physical Therapy with and without Neural Mobilization in Chronic Musculoskeletal Neck Disorders with Nerve-Related Symptoms: Systematic Review and Meta-Analysis.

Author

López-Pardo, María José, Calvache-Mateo, Andrés, Martín-Núñez, Javier, Heredia-Ciuró, Alejandro, López-López, Laura, Valenza, Marie Carmen, and Cabrera-Martos, Irene

Subjects

PHYSICAL therapy, RESEARCH funding, MUSCULOSKELETAL system diseases, NECK muscles, MANIPULATION therapy, META-analysis, DESCRIPTIVE statistics, RADICULOPATHY, SYSTEMATIC reviews, MEDLINE, PAIN, ONLINE information services, QUALITY assurance, DATA analysis software, CONFIDENCE intervals, PHYSICAL mobility, RANGE of motion of joints

Abstract

No previous study has evaluated the effectiveness of routine physical therapy with and without neural mobilization for patients with chronic musculoskeletal neck disorders and cervical radiculopathy. The objective is to evaluate the effectiveness of routine physical therapy with and without neural mobilization on pain and mobility in patients with chronic musculoskeletal neck disorders and cervical radiculopathy. A systematic review with meta-analysis of randomized clinical trials involving the use of neural mobilization techniques for the treatment of chronic musculoskeletal neck disorders and cervical radiculopathy was conducted. Methodological quality was assessed by the Cochrane Risk of Bias Tool and PEDro scale. Data were pooled and a meta-analysis was performed using a random effects model with Review Manager 5 software. Seven articles were included in our review. Significant differences were found in mobility but not in pain in favor of using routine physical therapy with neural mobilization for the treatment of chronic musculoskeletal neck disorders and cervical radiculopathy. Our results show that routine physical therapy accompanied by neural mobilization is superior for improving mobility in comparison with routine physical therapy alone in patients with musculoskeletal neck disorders and cervical radiculopathy. [ABSTRACT FROM AUTHOR]

Published

2024

44. Effect of Forward Head Posture on Resting State Brain Function.

Author

Jung, Ju-Yeon, Lee, Yeong-Bae, and Kang, Chang-Ki

Subjects

BRAIN physiology, SKELETAL muscle physiology, HEAD physiology, BIOMECHANICS, CRANIOVERTEBRAL junction, STATISTICAL correlation, EFFECT sizes (Statistics), PEARSON correlation (Statistics), RESEARCH funding, INSULAR cortex, T-test (Statistics), NEUROPHYSIOLOGY, ELECTROENCEPHALOGRAPHY, NECK muscles, ELECTROOCULOGRAPHY, OCCIPITAL lobe, PARAMETERS (Statistics), DESCRIPTIVE statistics, CROSSOVER trials, ELECTROCARDIOGRAPHY, MATHEMATICAL statistics, FRONTAL lobe, RESEARCH, POSTURE, BRAIN waves, PARIETAL lobe, COMPARATIVE studies, CERVICAL vertebrae, DATA analysis software, RELAXATION for health, ELECTROPHYSIOLOGY, STERNOCLEIDOMASTOID muscle, BRAIN mapping

Abstract

Forward head posture (FHP) is a common postural problem experienced by most people. However, its effect on brain activity is still unknown. Accordingly, we aimed to observe changes in brain waves at rest to determine the effect of FHP on the nervous systems. A total of 33 computer users (Male = 17; Female = 16; age = 22.18 ± 1.88) were examined in both FHP and neutral posture. For each session, brain waves were measured for 5 min, and then muscle mechanical properties and cranio-vertebral angle (CVA) were measured. Changes in brain waves between the neutral posture and FHP were prominent in gamma waves. A notable increase was confirmed in the frontal and parietal lobes. That is, eight channels in the frontal lobe and all channels in the parietal lobe showed a significant increase in FHP compared to neutral posture. Additionally, FHP changes were associated with a decrease in CVA (p < 0.001), an increase in levator scapulae tone (Right, p = 0.014; Left, p = 0.001), and an increase in right sternocleidomastoid stiffness (p = 0.002), and a decrease in platysma elasticity (Right, p = 0.039; Left, p = 0.017). The change in CVA was found to have a negative correlation with the gamma activity (P7, p = 0.044; P8, p = 0.004). Therefore, increased gamma wave activity in FHP appears to be related to CVA decrease due to external force that was applied to the nervous system and cervical spine. [ABSTRACT FROM AUTHOR]

Published

2024

45. How does the consecutive use of intraoral scanners affect musculoskeletal health? A preliminary clinical study.

Author

Son, KeunBaDa, Lee, Ji-Min, Kim, Jin-Wook, Jin, Myoung-Uk, and Lee, Kyu-Bok

Subjects

MUSCLE fatigue, DIGITAL dental impression systems, SYSTEMS software, ADJUSTMENT disorders, SCANNING systems, NECK muscles, ROOT-mean-squares

Abstract

Background: Minimizing muscle strain and reducing the risk of musculoskeletal disorders associated with intraoral scanner (IOS) usage require ergonomic awareness, device selection, and workplace adjustments in dental practice. This preliminary clinical study aimed to simulate intraoral scanning tasks using wired and wireless IOSs and assess muscle activation and fatigue for both types. Materials and methods: Fourteen participants performed intraoral scanning tasks using wired and wireless IOSs (i700; MEDIT), with weights of 280 g and 328 g, respectively. The same computer system and software conditions were maintained for both groups (N = 14 per IOS group). Electrodes were placed on arm, neck, and shoulder muscles, and maximal voluntary contraction (MVC) was measured. Surface electromyography (EMG) was performed during the simulation, and EMG values were normalized using MVC. The root mean square EMG (%MVC) and muscle fatigue (%) values were calculated. Statistical comparisons were performed using the Mann–Whitney U and Friedman tests, with the Bonferroni adjustment for multiple comparisons (α = 0.05). Results: Arm (flexor digitorum superficialis) and neck muscles (left sternocleidomastoid and left splenius capitis) showed significantly higher EMG values with wireless IOS (P < 0.05). The neck (left sternocleidomastoid and right levator scapulae) and shoulder muscles (right trapezius descendens) demonstrated significantly higher muscle fatigue with wireless IOS (P < 0.05). Conclusions: The consecutive use of heavier wireless IOS may increase the risk of muscle activation and fatigue in certain muscles, which may have clinical implications for dentists in terms of ergonomics and musculoskeletal health. [ABSTRACT FROM AUTHOR]

Published

2024

46. Vagus nerve stimulation for the treatment of epilepsy: things to note on the protocols, the effects and the mechanisms of action.

Author

Abdullahi, Auwal, Etoom, Mohammad, Badaru, Umaru Muhammad, Elibol, Nuray, Abuelsamen, Abdulsalam Ali, Alawneh, Anoud, Zakari, Usman Usman, Saeys, Wim, and Truijen, Steven

Subjects

*VAGUS nerve stimulation, *EPILEPSY, *BREATHING exercises, *NECK muscles, *PEOPLE with epilepsy

Abstract

Epilepsy is a chronic brain disorder that is characterized by repetitive un-triggered seizures that occur severally within 24 h or more. Non-pharmacological methods for the management of epilepsy were discussed. The non-pharmacological methods include the vagus nerve stimulation (VNS) which is subdivided into invasive and non-invasive techniques. For the non-invasive techniques, the auricular VNS, stimulation of the cervical branch of vagus nerve in the neck, manual massage of the neck, and respiratory vagal nerve stimulation were discussed. Similarly, the stimulation parameters used and the mechanisms of actions through which VNS improves seizures were also discussed. Use of VNS to reduce seizure frequency has come a long way. However, considering the cost and side effects of the invasive method, non-invasive techniques should be given a renewed attention. In particular, respiratory vagal nerve stimulation should be considered. In doing this, the patients should for instance carry out slow-deep breathing exercise 6 to 8 times every 3 h during the waking hours. Slow-deep breathing can be carried out by the patients on their own; therefore this can serve as a form of self-management. Epilepsy can interfere with the patients' ability to carry out their daily activities and ultimately affect their quality of life. Medications are used to manage epilepsy; but they often have their serious side effects. Vagus nerve stimulation (VNS) is gaining ground especially in the management of refractory epilepsy. The VNS is administered through either the invasive or the non-invasive methods The invasive method of VNS like the medication has potential side effects, and can be costly. The non-invasive method includes auricular VNS, stimulation of the neck muscles and skin and respiratory vagal nerve stimulation via slow-deep breathing exercises. The respiratory vagal nerve stimulation via slow-deep breathing exercises seems easy to administer even by the patients themselves. Consequently, it is our opinion that patients with epilepsy be made to carry out slow-deep breathing exercise 6–8 times every 3 h during the waking hours. [ABSTRACT FROM AUTHOR]

Published

2024

47. Pallidal multifractal complexity is a new potential physiomarker of dystonia.

Author

Semenova, Ulia, Dzhalagoniya, Indiko, Gamaleya, Anna, Tomskiy, Alexey, Shaikh, Aasef G., and Sedov, Alexey

Subjects

*DYSTONIA, *DEEP brain stimulation, *NECK muscles

Abstract

• Multifractal properties of pallidal neuronal activity seem to reflect proprioceptive and neural impairment in dystonia. • Decreased multifractal complexity of pallidal LFP is correlated with the severity of dystonia. • DBS and neck muscle vibration restores the lost multifractal complexity of pallidal LFP. Low-frequency 4–12 Hz pallidal oscillations are being considered as potential physiomarkers for dystonia. We suggest investigating the multifractal properties of pallidal activity as an additional marker. We employed local field potentials (LFP) recordings from 23 patients with dystonia who were undergoing deep brain stimulation (DBS) surgery to explore the connection between disease severity and the multifractal characteristics of pallidal activity. Furthermore, we performed an analysis of LFP recordings from four patients, following the externalization of DBS lead electrodes, to investigate the impact of DBS and neck muscle vibration on multifractal parameters. Greater dystonia severity exhibited a correlation with a narrower multifractal spectrum width but higher multifractal spectral asymmetry. Both GPi DBS and muscle vibration in dystonia patients expanded the multifractal spectrum width while restoring multifractal spectral symmetry. Notably, the threshold peak intensities for an increase in multifractal spectrum width substantially overlapped with the optimal volume of tissue activated. A broader multifractal spectrum during DBS corresponded to more favorable clinical outcomes. Multifractal properties of pallidal neuronal activity serve as indicators of neural dysfunction in dystonia. These findings suggest the potential of utilizing multifractal characteristics as predictive factors for the DBS outcome in dystonia. [ABSTRACT FROM AUTHOR]

Published

2024

48. Text Neck: Looking Down at Devices for Way Too Long.

Author

Michael, Katina

Subjects

*NECK muscles, *VIDEO game consoles, *NECK, *CELL phones, *AGE groups

Abstract

Text Neck is a diagnosed condition denoting overuse of the neck muscles with technology devices such as tablets, smartphones, and video game consoles. The condition is prevalent in all age groups, particularly in those who are heavy users of smartphones , ,. The main contributor to text neck is the frequency of handheld technology device use and the length of time that a user is engaged with their device without physical movement, while their head is in a forward posture. It is said to be a type of repetitive stress injury that can affect the spine, neck, shoulder, upper back, muscles, and associated ligaments. Although studies vary in their findings, adults use their mobile phones on average for 5 hours per day, university students for about 8.5 hours per day, and others on average about 2 hours per day , , ,. Some studies have shown that people have their mobile phones with them for all but 2 hours of the whole day, increasing the ease with which to access online applications, thus continuing to aggravate existing strains. Text Neck, also referred to as iNeck, is now recognized as a global public health problem. [ABSTRACT FROM AUTHOR]

Published

2024

49. Four-layer technique for tracheostomy scar treatment.

Author

Jae Kyoung Kang and Byung Min Yun

Subjects

*SCARS, *NECK muscles, *SURGICAL complications

Abstract

One important complication of the tracheostomy procedure is the depressed scar left after the tube is removed. A depressed tracheostomy scar can be aesthetically and functionally unacceptable. Tracheostomy scar treatment aims to fill lost soft tissue volume and correct tracheal skin tug. There are various techniques described to manage post-tracheostomy scars, including the use of autologous tissue or allogenic material and the creation of muscle flaps. In this article, the authors introduce a surgical method using four layers: the scar, the strap muscles, the platysma muscle, and the skin. This procedure has been used in two patients with depressed scar after prolonged tracheostomy placement. The tracheal tug was eliminated in each patient, and an imperceptible cutaneous scar remained. In each case, patient satisfaction was complete. The authors recommend this technique as a simple and effective method of closure for these troublesome tracheostomy scars. [ABSTRACT FROM AUTHOR]

Published

2024

50. Investigating the influence of neck muscle vibration on illusory self-motion in virtual reality.

Author

Kooijman, Lars, Asadi, Houshyar, Gonzalez Arango, Camilo, Mohamed, Shady, and Nahavandi, Saeid

Subjects

VECTION, NECK muscles, VIRTUAL reality, FLIGHT simulators, PARAMETER estimation, SIMULATOR sickness

Abstract

The illusory experience of self-motion known as vection, is a multisensory phenomenon relevant to self-motion processes. While some studies have shown that neck muscle vibrations can improve self-motion parameter estimation, the influence on vection remains unknown. Further, few studies measured cybersickness (CS), presence, and vection concurrently and have shown conflicting results. It was hypothesized that 1) neck vibrations would enhance vection and presence, and 2) CS to negatively relate to presence and vection, whereas presence and vection to positively relate to one another. Thirty-two participants were visually and audibly immersed in a virtual reality flight simulator and occasional neck muscle vibrations were presented. Vection onset and duration were reported through button presses. Turning angle estimations and ratings of vection quality, presence, and CS were obtained after completion of the flights. Results showed no influence of vibrations on turning angle estimation errors, but a medium positive effect of vibrations on vection quality was found. Presence and vection quality were positively related, and no strong association between CS and presence or vection was found. It is concluded that neck vibrations may enhance vection and presence, however, from the current study it is unclear whether this is due to proprioceptive or tactile stimulation. [ABSTRACT FROM AUTHOR]

Published

2024