Your search keyword '"SPINAL curvatures"' showing total 5,636 results

1. Comparison of Three Approaches of Electrode Placement to Detect Changes in Motor Evoked Potentials During Spine Surgery

Published

2024

2. Effect of a Flexibility Program on the Extensibility of the Hamstrings and the Thoracic and Lumbar Spinal Curvatures

Author

Francisco Esparza Ros, Director of the International Kinanthropometry Chair

Published

2024

3. Patient-specific rods in adult spinal deformity: a systematic review.

Author

Picton, Bryce, Stone, Lauren, Liang, Jason, Solomon, Sean, Brown, Nolan, Luzzi, Sophia, Osorio, Joseph, and Pham, Martin

Subjects

Machine learning, Operative planning, Patient-specific rods, Spinal deformity, Humans, Adult, Lordosis, Treatment Outcome, Spinal Curvatures, Spine, Spinal Fusion

Abstract

PURPOSE: The purpose of this review was to evaluate the effectiveness of patient-specific rods for adult spinal deformity. METHODS: A systematic review of the literature was performed through an electronic search of the PubMed, Scopus, and Web of Science databases. Human studies between 2012 and 2023 were included. Sample size, sagittal vertical axis (SVA), pelvic incidence-lumbar lordosis (PI-LL), pelvic tilt (PT), operation time, blood loss, follow-up duration, and complications were recorded for each study when available. RESULTS: Seven studies with a total of 304 adult spinal deformity patients of various etiologies were included. All studies reported SVA, and PT; two studies did not report PI-LL. Four studies reported planned radiographic outcomes. Two found a significant association between preoperative plan and postoperative outcome in all three outcomes. One found a significant association for PI-LL alone. The fourth found no significant associations. SVA improved in six of seven studies, PI-LL improved in all five, and three of seven studies found improved postoperative PT. Significance of these results varied greatly by study. CONCLUSION: Preliminary evidence suggests potential benefits of PSRs in achieving optimal spino-pelvic parameters in ASD surgery. Nevertheless, conclusions regarding the superiority of PSRs over traditional rods must be judiciously drawn, given the heterogeneity of patients and study methodologies, potential confounding variables, and the absence of robust randomized controlled trials. Future investigations should concentrate on enhancing preoperative planning, standardizing surgical methodologies, isolating specific patient subgroups, and head-to-head comparisons with traditional rods to fully elucidate the impact of PSRs in ASD surgery.

Published

2024

4. Prospective Cohort Study of Outcome After Minimally Invasive Posterior Cervical Spine Surgery (PECD)

Author

Seoul National University Bundang Hospital, Kyungpook National University Hospital, and Chun Kee Chung, professor

Published

2024

5. Investigating the relationship between sagittal spinal curvature and fall incidence and fall risk among elderly nursing home residents.

Author

Osanlou, Samaneh, Miri, Hadi, Nichols, Jeanne F., and Hosseinzadeh, Mahdi

Subjects

*NURSING home residents, *RISK assessment, *SELF-evaluation, *FEAR, *DATA analysis, *RECEIVER operating characteristic curves, *SPINAL curvatures, *KYPHOSIS, *LOGISTIC regression analysis, *PROBABILITY theory, *DESCRIPTIVE statistics, *LONGITUDINAL method, *GERIATRIC assessment, *STATISTICS, *LORDOSIS, *EARLY diagnosis, *ACCIDENTAL falls, *PSYCHOSOCIAL factors, *PATIENTS' attitudes, *POSTURAL balance, *DISEASE complications, *OLD age

Abstract

Summary: Designing appropriate diagnostic and treatment methods to reduce fall risk and improve quality of life, as well as reduce the cost of care in elderlies. Our findings have potential for early diagnosis of those with a high probability of falling based on fairly simple clinical measures of hyperkyphosis, forward head, and lordosis. Introduction: Poor balance is an underlying cause of falling in the elderly, for which a change in the natural curvature of the spine plays a major role. Little is known about the relationship between spinal curvatures and fall incidence in this population. We primarily aimed to investigate the relationship between sagittal plane spinal curvatures and fall incidence over 1 year among nursing facility residents. Secondarily, we aim to determine associations of sagittal plane spinal curvatures with participants' perception of fall risk and balance capability. Methods: Participants (100 residents mean age 70.17 ± 6.01 years) underwent standing measures of sagittal plane spinal curvatures (flexible ruler technique) and forward displacement of the head relative to the cervical spine. The Tinetti Performance Oriented Mobility Assessment (POMA) and Fall Efficacy Scale assessed participants' perception of balance and fear of falling. Incident falls were self-reported monthly and tracked across 1 year. Spearman's correlations and logistic regression evaluated associations between fall incidence and spinal curvature. Predictive performance of spinal curvature and fall risk was determined by the corresponding ROC for defining a cut-off for variables of spinal curvature and fall risk indicators. Results: Predictive performance of spinal curvature and fall risk factors indicated 84% and 77% of participants were correctly classified using models of kyphosis and head angle, respectively. Conclusions: Our study adds new data on spinal curvatures and incident falls among nursing facility residents. Efforts are needed to intervene to counter progression of spinal curvatures and improve fall prevention practices. [ABSTRACT FROM AUTHOR]

Published

2024

6. The impact of halo-pelvic traction on sagittal kyphosis in the treatment of severe scoliosis and kyphoscoliosis.

Author

Liang, Yan, Zhu, Zhenqi, Zhao, Chong, Xu, Shuai, Guo, Chen, Zhao, Deng, and Liu, Haiying

Subjects

*SPINE radiography, *PULMONARY function tests, *PREDICTIVE tests, *VITAL capacity (Respiration), *RESEARCH funding, *SCOLIOSIS, *KYPHOSIS, *THORACIC surgery, *SPINAL curvatures, *TREATMENT effectiveness, *RETROSPECTIVE studies, *DESCRIPTIVE statistics, *SEVERITY of illness index, *SURGICAL complications, *ORTHOPEDIC traction, *SPINAL fusion, *MEDICAL records, *ACQUISITION of data, *FORCED expiratory volume, *POSTURAL balance

Abstract

Background: Halo-pelvic traction (HPT) is acknowledged for enhancing pulmonary function and reducing neurological complications in severe and rigid scoliosis and kyphoscoliosis. While its role in improving coronal balance is established, its impact on sagittal kyphosis remains under-researched. This study aims to assess HPT's effects on sagittal alignment in these conditions. Methods: A retrospective review of 37 patients with severe and rigid scoliosis or kyphoscoliosis was conducted to evaluate HPT's efficacy. The analysis focused on the impact of HPT on coronal and sagittal parameters, pulmonary function tests (PFTs) and complications. Radiographic assessments included main cobb angle in coronal, sagittal major kyphosis. Results: HPT was applied for an average of 2.9 months, significantly reducing the primary coronal curve from 127.7°±30.3° to 74.9°±28.3° (P < 0.05), achieving a 41.3% correction rate. Sagittal kyphosis correction was more pronounced, with angles decreasing from 80.4°±26.4° to 41.3°±24.4° (P < 0.05), resulting in a 48.6% correction rate. Pulmonary function tests showed improvements in forced vital capacity (FVC) (from 1.32 ± 0.91 to 1.55 ± 0.83) and forced expiratory volume in 1 s (FEV1) (from 1.03 ± 0.76 to 1.28 ± 0.72), with percentage predicted values also increasing (FVC%: 40.4%±24.3–51.4%±23.1%; FEV1%: 37.8%±25.2–48.1%±22.7%; all P < 0.05). Conclusion: HPT effectively reduces spinal deformity severity and improves pulmonary function in patients with severe and rigid scoliosis and kyphoscoliosis. Sagittal kyphosis correction was notably greater than coronal scoliosis correction. The correlation between PFT improvements and coronal curve adjustments suggests that correcting the coronal Cobb angle is pivotal for pulmonary function enhancement. [ABSTRACT FROM AUTHOR]

Published

2024

7. Curve Progression and Clinical Outcomes in Pregnant Females with Adolescent Idiopathic Scoliosis: A Systematic Review and Meta-Analysis.

Author

Singh, Manjot, Yan, Zhao, Daher, Mohammad, Hanna, John, Diebo, Bassel G., and Daniels, Alan H.

Subjects

*TEENAGE pregnancy, *ADOLESCENT idiopathic scoliosis, *LUMBAR pain, *SPINAL curvatures, *TEENAGE girls

Abstract

Prior reviews investigating the impact of pregnancy on adolescent idiopathic scoliosis (AIS) have reached different conclusions and a meta-analysis of curve progression among pregnant females with AIS and its effects on clinical outcomes has not previously been performed. A comprehensive search of major bibliographic databases (PubMed, Embase, and Scopus) was conducted for articles pertaining to spinal curve progression during pregnancy among patients with AIS. Patient demographics, scoliotic curve outcomes, and patient-reported quality of life measures were extracted. Ten studies, including 857 patients with a mean age of 28.7 years, were included. Before pregnancy, 42.1% had undergone spinal fusion and 59.0% had a thoracic curve. Based on prepregnancy and postpregnancy radiographs, the curve increased from 33.9°–38.5°, and meta-analysis revealed a curve progression of 3.6° (range = −5.85 to 1.25, P = 0.003), primarily arising from loss of correction in the unfused group (Unfused = −5.0, P = 0.040; Fused = −3.0, P = 0.070). At the same time, 45.9% patients reported increased low back pain and many reported a negative body self-image and limitations in sexual function. However, 5 studies noted that pregnancy and number of pregnancies were not associated with curve progression, and multiple studies identified similar quality of life-related changes in non-pregnant patients with AIS. Among unfused pregnant females with AIS, the spinal curvature increased significantly by 5.0° from before to after pregnancy. However, these changes may be independent of pregnancy status and occur with time. Such curve progression can contribute to a negative body self-image, low back pain, and functional limitations irrespective of pregnancy state. [ABSTRACT FROM AUTHOR]

Published

2024

8. The effects of cycling posture on exercise performance as determined by infrared thermography.

Author

Tseng, Shiuan-Yu, Chang, Yu-Kang, Tseng, Chin-Yen, Dai, Sin-Ling, Wang, Chun-Hou, and Ko, Chung-Po

Subjects

ELITE athletes, SPINAL curvatures, PHYSICAL therapists, CYCLING, SKIN temperature

Abstract

A sore neck and back are very common among cyclists and can be caused by a change in spinal curvature and forward head posture during cycling. In addition, elite cyclists were found to have a decreased infrared thermography measurement during incremental exercise, and increased measurements after exhaustion. This study aims to assess the benefits of corrected cycling posture, evaluated by the OpenPose evaluation system and physical therapists, on exercise performance as determined by infrared thermography. We adopt a case–control study design. Thirty participants were divided into the group riding with a natural posture (control group) and the group riding with a corrected posture (experimental group). While both groups had comparable back and neck temperatures before and 10 min after finishing the exercise, the corrected posture group had a statistically lower temperature compared to the control one after riding for 30 min (33.58 ± 0.69°C vs. 35.18 ± 0.89°C; p < 0.001). This observed decrease in skin temperature during exercise implies better heat dissipation mechanisms and hence fatigue avoidance among cyclists with corrected posture. Larger studies with various static and dynamic cycling positions are required to gain better insights about the correlation between those positions, infrared thermography measurements, enhanced athletic performance and injury prevention. [ABSTRACT FROM AUTHOR]

Published

2024

9. Quantifying rider posture variability in powered two- and three-wheelers for safety assessment.

Author

Lundin, Linus, Oikonomou, Maria, Lioras, Athanasios, Mihailidis, Athanassios, Pipkorn, Bengt, Rorris, Lambros, Svensson, Mats Y., and Iraeus, Johan

Subjects

PRINCIPAL components analysis, SPINAL curvatures, ROAD users, HUMAN body, SYSTEM safety

Abstract

Objective: Injury outcomes for powered two- and three-wheeler (PTW) riders are influenced by the rider posture. To enable analysis of PTW rider accidents and development of protection systems, detailed whole-body posture data is needed. Therefore, the aim of this study is to fill this gap by providing collections of average male whole-body postures, including subpopulation variability, for different PTW types. This will enable future studies to explore the influence of PTW rider posture variation and to support safety system development. Methods: 3D photometric measurements of 51 anatomical landmarks were recorded on 20 (50th percentile male) volunteers in their preferred riding postures across three PTW types (naked, scooter, and touring). Following an outlier removal process, a principal component analysis (PCA) was performed to calculate average postures and principal components (PCs), to describe the observed posture variation, for each PTW. The visualization of the PCs was facilitated through kinematic linkage representations, connecting anatomical landmarks and estimated joint centers to form segments and characteristic joint angles. Results: The first seven PCs explained 80% of the variance in posture for each of the three PTWs. Across PTWs, these PCs frequently described combinations of postural features including variation in fore-aft seat positions, pelvic tilt, spinal curvature, head position, and extremity flexion-extension. Analysis revealed distinct differences in average postures across the three PTWs, on average, 10 ± 9° for the characteristic joint angles within a min-to-max range between the three PTWs. However, for all three PTWs, the variability between volunteers in characteristic joint angles on the same PTW were on average more than twice as large within a ± 2 SD range (26 ± 11°). Conclusions: The results suggest that PTW rider posture variation must be addressed by involving simultaneous adjustments of multiple body parts, as described by each of the first seven PCs, as a direct consequence of the human body interconnectedness. Furthermore, the study's findings challenge conventional assumptions that the relative distance between PTWs' handlebar, seat, and foot support predominantly influences rider postures. Instead, the research demonstrates that individual variability has a substantial influence on rider posture and should be considered in PTW safety development. [ABSTRACT FROM AUTHOR]

Published

2024

10. Trunk kinematic analysis of ascent and descent stairs in college students with idiopathic scoliosis: a case-control study.

Author

Gou, Yanyun, Tao, Jing, Lei, Huangwei, Hou, Meijin, Chen, Xiang, and Wang, Xiangbin

Subjects

*MOTION capture (Human mechanics), *RANGE of motion of joints, *SPINAL curvatures, *MOTION analysis, *ANATOMICAL planes, *ADOLESCENT idiopathic scoliosis

Abstract

Traditional 3D motion analysis typically considers the spine as a rigid entity. Nevertheless, previous single-joint models have proven inadequate in evaluating the movement across different spinal segments in patients with idiopathic scoliosis (IS). Scoliosis significantly impairs movement functions, especially during activities such as ascending and descending stairs. There is a lack of research on the patterns of stair movement specifically for patients with IS. This study aims to investigate trunk kinematics in college students with IS during stair ascent and descent tasks. A total of 56 participants, 28 with IS and 28 with healthy controls, were recruited for this case-control study. The trunk movements were analyzed using a motion analysis system that incorporated a multisegment spine model. Understanding the multi-segment spine kinematics during stair tasks can contribute to the development of effective rehabilitation programs for individuals with IS. Case-control study. Twenty-eight IS and 28 controls. Cobb angle, spinal curvature, spinal active range of motion (ROM), Kinematics. The Qualisys system (Gothenburg, Sweden) was utilized in this study with a sampling frequency of 150 Hz. It recorded the kinematics in the thoracic, lumbar, thoracic cage, and pelvis while ascending and descending stairs for both the 28 IS individuals and the 28 control participants. Additionally, clinical parameters such as the Cobb angle, curvature of the spine, spinal range of motion (ROM), and other relevant factors were concurrently assessed among the subjects. Project supported by the National Natural Science Foundation of China (Grant No. 82205306). The authors declare no conflict of interest in preparing this article. The findings of this study revealed that IS individuals exhibited reduced kyphotic curvature in the sagittal plane (p<.05) when compared to the control group. In contrast, these IS patients displayed greater coronal curvature (Cobb angle) in the frontal plane and a more substantial difference in thoracic side bending range of motion in comparison to the control group (p.05). Moreover, during the ascending stair activity, IS patients showed reduced thoracic cage flexion-extension range of motion (p<.05), while displaying increased lumbar rotation range of motion and anterior-posterior pelvic tilt range of motion (p<.05) in contrast to the control group. Notably, the kinematic analysis during the descent of stairs indicated that IS patients exhibited a larger range of motion in thoracic flexion-extension, thoracic side bending, thoracic cage side bending, thoracic rotation, and thoracic cage rotation when compared to the control group (p<.05). The results showed significant differences in trunk kinematics between the two groups during both stair ascent and descent tasks. The utilization of the "multisegment spine model" facilitates the acquisition of motion information across multiple segments of the spine in patients diagnosed with IS, effectively enhancing the assessment outcomes derived from imaging information. The three-dimensional structural deformity in the trunk affects both static and dynamic activity patterns. In different activity states, IS patients demonstrate stiff movements in certain segments while experiencing compensatory instability in others. In the future, clinical rehabilitation programs for IS should prioritize stair-related activity training. [ABSTRACT FROM AUTHOR]

Published

2024

11. Magnetic Resonance Imaging-CCCFLS Scoring System: Toward Predicting Clinical Symptoms and C5 Paralysis.

Author

Wang, Shunmin, Sun, Jingchuan, Han, Dan, Fan, Jianping, Yu MM, Yaping, Yang MM, Haiqin, Gao, Chunyan, Zhou, XiaoNan, Guo, Yongfei, and Shi, Jiangang

Subjects

SPINAL cord compression, SPONDYLOSIS, SPINAL curvatures, VISUAL analog scale, CEREBROSPINAL fluid

Abstract

Study Design: A retrospective study. Objective: To develop a new MRI scoring system to assess patients' clinical characteristics, outcomes and complications. Methods: A retrospective 1-year follow-up study of 366 patients with cervical spondylosis from 2017 to 2021. The CCCFLS scores (cervical curvature and balance (CC), spinal cord curvature (SC), spinal cord compression ratio (CR), cerebrospinal fluid space (CFS). Spinal cord and lesion location (SL). Increased Signal Intensity (ISI) were divided into Mild group (0-6), Moderate group (6-12), and Severe group (12-18) for comparison, and the Japanese Orthopaedic Association (JOA) scores, visual analog scale (VAS), numerical rating scale (NRS), Neck Disability Index (NDI) and Nurick scores were evaluated. Correlation and regression analyses were performed between each variable and the total model in relation to clinical symptoms and C5 palsy. Results: The CCCFLS scoring system was linearly correlated with JOA, NRS, Nurick and NDI scores, with significant differences in JOA scores among patients with different CC, CR, CFS, ISI scores, with a predictive model (R2 = 69.3%), and significant differences in preoperative and final follow-up clinical scores among the 3 groups, with a higher rate of improvement in JOA in the severe group (P <.05), while patients with and without C5 paralysis had significant differences in preoperative SC and SL (P <.05). Conclusion: CCCFLS scoring system can be divided into mild (0-6). moderate (6-12), severe (12-18) groups. It can effectively reflect the severity of clinical symptoms, and the improvement rate of JOA is better in the severe group, while the preoperative SC and SL scores are closely related to C5 palsy. Level of Evidence: III [ABSTRACT FROM AUTHOR]

Published

2024

12. Preliminary Investigation into the Association between Scoliosis and Hypoxia: A Retrospective Cohort Study on the Impact of Eliminating Hypoxic Factors on Scoliosis Outcomes.

Author

Ugur, Fatih, Topal, Kubra, Albayrak, Mehmet, Taskin, Recep, and Topal, Murat

Subjects

SPINE physiology, SURGERY, PATIENTS, DATA analysis, SCOLIOSIS, SPINAL curvatures, FISHER exact test, RESPIRATORY obstructions, TREATMENT effectiveness, RETROSPECTIVE studies, CHEST X rays, MANN Whitney U Test, DESCRIPTIVE statistics, TRANSCRIPTION factors, ADENOIDECTOMY, SLEEP apnea syndromes, MEDICAL records, ACQUISITION of data, STATISTICS, INTRACLASS correlation, POSTOPERATIVE period, COMPARATIVE studies, DATA analysis software, CONFIDENCE intervals, HYPOXEMIA, INTER-observer reliability, CHILDREN

Abstract

Objective: This study delves into the implications of adenoidectomy for scoliosis progression, investigating the intricate nexus of hypoxia, spinal curvature, and surgical intervention. With adenoidectomy being a common procedure for addressing pediatric sleep-disordered breathing, this research study explores its potential impact on spinal health. Patients and Methods: Employing a retrospective cohort design, this study gathered data from patients who underwent adenoidectomy, including those with scoliosis, between January 2017 and March 2023. Initial and follow-up evaluations involved clinical and radiological assessments, notably measuring the Cobb angle to quantify spinal curvature. Results: This study enrolled 218 patients under 10 years old. Among them, 18 exhibited Cobb angles of 10° or more, with a mean Cobb angle of 12.8°. In the follow-up evaluation, 83% of patients with initial Cobb angles of 10° or more were reached out to, along with 84.6% of those with Cobb angles below 10°. The postoperative follow-up revealed a notable decrease in Cobb angles for most patients, particularly those with an initial Cobb angle exceeding 10°. Conclusions: This study underscores the potential connection between adenoidectomy, hypoxia, and scoliosis regression, highlighting the importance of early intervention for scoliosis management. Despite certain limitations, this investigation lays the foundation for future research involving larger patient cohorts and multifaceted analyses. The observed interactions between airway function, hypoxia, and spinal health open avenues for refining clinical strategies in scoliosis treatment. [ABSTRACT FROM AUTHOR]

Published

2024

13. Dose Responsiveness as a Measure of Clinical Effectiveness During Neuromonitored Spine Surgery (IONM)

Published

2024

14. Impact of Idiopathic Scoliosis on the Cardiopulmonary Capacity of Adolescents.

Author

Siwiec, Andrzej, Domagalska-Szopa, Małgorzata, Kwiecień-Czerwieniec, Ilona, Dobrowolska, Agata, and Szopa, Andrzej

Subjects

*SPINAL curvatures, *SCOLIOSIS in children, *SPINE abnormalities, *EXERCISE tests, *CARDIOPULMONARY fitness

Abstract

Chest deformities in children with scoliosis may result in cardiopulmonary disorders, lowering cardiopulmonary capacity levels. However, results regarding the dependence of cardiopulmonary capacity on the severity level of scoliosis remain controversial. We aimed to use dynamic cardiopulmonary exercise testing (CPET) to investigate exercise capacity in reference to spinal deformity in patients with mild or moderate idiopathic scoliosis by means of multivariate analyses. Methods: We included 92 children and adolescents aged 10–17 years with mild and moderate idiopathic scoliosis and 94 healthy peers. The study consisted of three parts: (1) medical record analyses; (2) anthropometric measurements; and (3) CPET. Results: Our results revealed that the mean VO2peak and VO2peak/kg values of the participants with scoliosis were 0.27 L/min and 0.37 mL/min/kg lower than their healthy peers, respectively, regardless of age and gender. Furthermore, the occurrence of scoliosis correlates with a mean decrease in minute ventilation volume by 10.10 L/min, tidal volume by 0.11 L, breathing frequency by 3.78 bpm, and breathing reserve by 14.34%, regardless of the age and gender of the participants. Children and adolescents with mild-to-moderate scoliosis during CPET exhibit a lower ventilation capacity and lower VO2 max than healthy adolescents matched in age but their cardiorespiratory fitness parameters do not depend on the Cobb angle value and the angle rotation of the primary spinal curvature. Conclusions: Physical therapy and activity should be recommended to prevent cardiorespiratory failure in later life in patients with scoliosis. This study may also provide CPET reference values for healthy children and adolescents with scoliosis. [ABSTRACT FROM AUTHOR]

Published

2024

15. Is there a connection between spine alignment, chest mobility, shoulder joint and respiratory parameters of patients with ankylosing spondylitis?

Author

Szewczyk, Daniel, Sadura-Sieklucka, Teresa, Tarnacka, Beata, and Sokołowska, Beata

Subjects

*ANKYLOSING spondylitis, *SHOULDER joint, *SPINAL curvatures, *SPINE, *MUSCULOSKELETAL system

Abstract

Introduction: Ankylosing spondylitis is chronic progressive disease, which decrease functions of musculoskeletal system including chest area. Those changes influences respiratory mechanics, worsen conditions of proper ventilation of lungs. Objectives: Rating of functional and respiratory parameters and dependence between them at patients with ankylosing spondylitis. Materials & methods: The study included 45 patients with diagnosed ankylosing spondylitis. Chest and upper limbs mobility, resting spinal curvature alignment were assessed, and respiratory parameters were measured in a plethysmographic chamber JAGGER MasterScreen Body. Results: Ankylosing spondylitis patients had lower respiratory parameters especially sReff, and FRC. Restriction of chest and upper limbs mobility was also demonstrated. Forward head extension was observed based on the occipital wall test. Correlations between functional parameters and correlations between functional and respiratory parameters were shown, in particular MIP, MEP, sReff, Rtot, TLC, ERV. Conclusions: The study confirmed a decrease in functional and respiratory parameters in the examined patients with ankylosing spondylitis compared to the applicable standards. A significant relationship was found between functional parameters in the upper body and respiratory parameters, which worsen with increasing thoracic dysfunction. The obtained results indicate the directions of therapy that should be taken into account to improve respiratory parameters and reduce respiratory dysfunction in these patients. Chest-focused physiotherapy appears to be an important element in improving function in patients with ankylosing spondylitis. [ABSTRACT FROM AUTHOR]

Published

2024

16. The Effectiveness of Exercise Programs in Adolescents with Thoracic Kyphosis: A Narrative Review.

Author

Yang, Seoyon, Yi, You Gyoung, and Chang, Min Cheol

Subjects

MEDICAL information storage & retrieval systems, RESEARCH funding, HUMAN services programs, KYPHOSIS, EXERCISE therapy, SPINAL curvatures, TREATMENT effectiveness, TREATMENT duration, SYSTEMATIC reviews, MEDLINE, MEDICAL databases, QUALITY of life, ONLINE information services, POSTURE, THORACIC vertebrae, PHYSICAL activity

Abstract

Thoracic kyphosis is a common postural problem affecting over 20% of adolescents. This condition can contribute to various spinal problems, leading to a decreased ability to perform daily activities, reduced quality of life, and impaired pulmonary function. This review aimed to investigate the effectiveness of exercise programs in adolescents with thoracic kyphosis. We systematically searched the PubMed, Embase, Cochrane Library, and Scopus databases for articles relevant to adolescents with thoracic kyphosis that had been published up to 14 May 2024. Our inclusion criteria focused on studies investigating the effects of exercise on improving thoracic kyphosis. A total of 1883 articles was identified using the search terms. After the titles and abstracts had been screened, 1868 articles were found not to meet our inclusion criteria and were excluded. The remaining 15 articles were then assessed for eligibility. Finally, only seven studies were included in this systematic review. Exercises targeting the entire spinal curvature demonstrated efficacy in enhancing the strength and function of the cervical, thoracic, lumbar, and pelvic muscles, resulting in a corrective effect on thoracic kyphosis in adolescents. Consequently, exercise programs have emerged as potentially beneficial treatment approaches to improve poor posture and reduce adolescent thoracic kyphosis. [ABSTRACT FROM AUTHOR]

Published

2024

17. Relationship of total sagittal spinal alignment index of thoracic kyphosis and lumbar lordosis with physical function in community-dwelling older adults.

Author

Taniguchi, Masashi, Niiya, Nanami, Ikezoe, Tome, Tsuboyama, Tadao, Matsuda, Fumihiko, and Ichihashi, Noriaki

Subjects

*PHYSICAL mobility, *OLDER people, *KYPHOSIS, *SPINAL curvatures, *LORDOSIS

Abstract

BackgroundObjectiveMethodsResultsConclusionsOverall spinal curvature is evaluated by calculating the difference between the angles of lumbar lordosis (LL) and thoracic kyphosis (TK) and is expressed as LL minus TK (LL-TK). It is unclear whether LL-TK is associated with physical function in community-dwelling older adults and whether it is more relevant than TK or LL alone.This study aimed to identify whether LL-TK is associated with physical function in community-dwelling older adults, and whether it is strongly associated than TK or LL alone.The participants comprised 1,674 community-dwelling older adults who underwent physical assessments (women, n = 1,099; mean age, 67.4 ± 5.3 years). As spinal alignment indices, TK and LL were measured using skin surface methods, and LL-TK was calculated as the difference between them. Decreased LL-TK indicated increased overall spinal curvature. Physical function was determined by measuring single-leg standing, five-times chair-stand, and usual gait speed. Stepwise multiple regression analyses were performed with each physical function as the dependent variable and spinal alignment indices as the independent variables, with adjustments.Multiple regression analyses showed that single-leg standing (β = 0.092, 95% confidence interval [CI] = 0.071 to 0.214, p < .001) and five-times chair-stand (β=-0.142, 95% CI = −0.037 to −0.019, p < .001) were significantly associated with LL-TK, but not LL. Both LL-TK (β = 0.121, 95% CI = 0.001 to 0.004, p < .001) and LL (β = 0.087, 95% CI = 0.001 to 0.003, p = .003) were significant determinants of usual gait speed.This study showed that decreased LL-TK may be associated with poor physical function. This association may be stronger than that observed for TK or LL alone. [ABSTRACT FROM AUTHOR]

Published

2024

18. Modern Concepts in Sagittal Curve Measurement.

Author

Pesenti, Sébastien, Prost, Solene, Solla, Federico, Ilharreborde, Brice, Ferrero, Emmanuelle, Obeid, Ibrahim, Riouallon, Guillaume, Laouissat, Fethi, Charles, Yann Philippe, and Blondel, Benjamin

Subjects

*SAGITTAL curve, *SPINAL curvatures, *AGE groups, *LORDOSIS, *AGE distribution, *KYPHOSIS

Abstract

Study Design. Retrospective multicenter study. Objective. Our objective was to compare the spline-based measurement of sagittal spinal curvatures to fixed landmarks in a normative population. Summary of Background Data. Recent research has stressed the importance of considering sagittal curvature in its entirety using a spline reconstruction. To date, no data supports the superiority of this method in comparison to classic measurement methods. Patients and Methods. Full-spine biplanar radiographs of subjects over 20 years old who had normal radiographs were analyzed. Thoracic kyphosis (TK) and lumbar lordosis (LL) were measured following two modalities: either using predefined landmarks (TKT1T12, TKT5T12, and LLL1S1) or spline-based measurement (TKSpline and LLspline). Results. A total of 1520 subjects were included (mean 54yo). The mean difference between TKspline and TKT1T12 was 1.4° and between TKspline and TKT5T12 was 11.7° (P<0.001). LLspline was significantly larger than LLL1S1 (55° vs. 54°, P <0.001). LLspline and LLL1S1 were correlated (R=0.950, P<0.001). Pelvic incidence had no influence on the difference between LLspline and LLL1S1 (R= -0.034, P= 0.184). Using LLL1S1 measurements, LL was underestimated in 17% of the cases. The comparison of outlier distributions according to age groups (P=0.175), sex (P= 0.937), or pelvic incidence groups (P= 0.662) found no difference. There were significantly more outliers in Roussouly type 1 compared with other types (56%, P<0.001). Conclusion. Our results suggest that the use of TKT1T12 and LLL1S1 is acceptable to assess spinal sagittal curvatures. However, TKT5T12 is not accurate for the thoracic curve and should be used with caution. LLL1S1 can be used to accurately assess the lumbar curve, except in Roussouly type 1. [ABSTRACT FROM AUTHOR]

Published

2024

19. Automatic 3D reconstruction of vertebrae from orthogonal bi-planar radiographs.

Author

Chen, Yuepeng, Gao, Yue, Fu, Xiangling, Chen, Yingyin, Wu, Ji, Guo, Chenyi, and Li, Xiaodong

Subjects

*RADIOGRAPHS, *THREE-dimensional imaging, *COMPUTER-assisted image analysis (Medicine), *DIAGNOSTIC imaging, *SPINAL curvatures, *VERTEBRAE, *INTERVERTEBRAL disk prostheses

Abstract

When conducting spine-related diagnosis and surgery, the three-dimensional (3D) upright posture of the spine under natural weight bearing is of significant clinical value for physicians to analyze the force on the spine. However, existing medical imaging technologies cannot meet current requirements of medical service. On the one hand, the mainstream 3D volumetric imaging modalities (e.g. CT and MRI) require patients to lie down during the imaging process. On the other hand, the imaging modalities conducted in an upright posture (e.g. radiograph) can only realize 2D projections, which lose the valid information of spinal anatomy and curvature. Developments of deep learning-based 3D reconstruction methods bring potential to overcome the limitations of the existing medical imaging technologies. To deal with the limitations of current medical imaging technologies as is described above, in this paper, we propose a novel deep learning framework, ReVerteR, which can realize automatic 3D Reconstruction of Vertebrae from orthogonal bi-planar Radiographs. With the utilization of self-attention mechanism and specially designed loss function combining Dice, Hausdorff, Focal, and MSE, ReVerteR can alleviate the sample-imbalance problem during the reconstruction process and realize the fusion of the centroid annotation and the focused vertebra. Furthermore, aiming at automatic and customized 3D spinal reconstruction in real-world scenarios, we extend ReVerteR to a clinical deployment-oriented framework, and develop an interactive interface with all functions in the framework integrated so as to enhance human–computer interaction during clinical decision-making. Extensive experiments and visualization conducted on our constructed datasets based on two benchmark datasets of spinal CT, VerSe 2019 and VerSe 2020, demonstrate the effectiveness of our proposed ReVerteR. In this paper, we propose an automatic 3D reconstruction method of vertebrae based on orthogonal bi-planar radiographs. With the 3D upright posture of the spine under natural weight bearing effectively constructed, our proposed method is expected to better support doctors make clinical decision during spine-related diagnosis and surgery. [ABSTRACT FROM AUTHOR]

Published

2024

20. Association of scoliosis with lower extremity alignments, muscle strengths, and foot characteristics and their alterations in adolescent idiopathic scoliosis.

Author

Hengsomboon, Ninwisan, Vongsirinavarat, Mantana, Bovonsunthonchai, Sunee, Thawalyawichachit, Laddawan, and Hengsomboon, Pichaya

Subjects

*FOOT physiology, *ANKLE, *LEG, *RESEARCH funding, *SPINAL curvatures, *FLATFOOT, *MUSCLE strength, *HIP joint, *ANALYSIS of variance, *ADOLESCENT idiopathic scoliosis, *COMPARATIVE studies, *KNEE, *ADOLESCENCE

Abstract

BACKGROUND: The association between changes occurring in the spine and lower body parts is not well understood in adolescent idiopathic scoliosis (AIS). OBJECTIVES: The first aim of the study was to investigate the association of scoliosis with lower extremity (LE) alignments, foot characteristics, and muscle strengths in adolescents. Secondly, comparisons of the data among AIS with single and double curves and control groups were determined. METHODS: Thirty-one participants were recruited and classified into 3 groups; AIS with a single curve (n = 7), AIS with double curves (n = 14), and controls (n = 10). Association of the presence of scoliosis with LE alignments (Q and TC angles), LE muscle strengths (hip, knee, and ankle), and foot characteristics (arch indexes) were examined using the point biserial correlation, and the data among three groups were compared using the ANOVA. RESULTS: Scoliosis was associated with Q angle, arch indexes, and all LE muscle strengths except for hip extensors and ankle plantar flexors strengths. Comparisons among the three groups showed significant increases in LE alignments and foot characteristics in AIS. Almost all LE muscle strengths decreased in AIS, especially for the single curve group. CONCLUSIONS: Apart from spinal deformity, the AIS has changed in LE alignments, muscle strengths, and foot characteristics. Therapists should consider these associations and alterations for designing proper management. [ABSTRACT FROM AUTHOR]

Published

2024

21. From 2D to 3D: automatic measurement of the Cobb angle in adolescent idiopathic scoliosis with the weight-bearing 3D imaging.

Author

Liang, Zejun, Wang, Qian, Xia, Chunchao, Chen, Zengtong, Xu, Miao, Liang, Guilun, Yu Zhang, Ye, Chao, Zhang, Yiteng, Yu, Xiaocheng, Wang, Hairong, Zheng, Han, Du, Jing, Li, Zhenlin, and Tang, Jing

Subjects

*ADOLESCENT idiopathic scoliosis, *THREE-dimensional imaging, *SPINAL curvatures, *FEMUR head, *DEEP learning, *ANGLES

Abstract

Adolescent idiopathic scoliosis (AIS) necessitates accurate spinal curvature assessment for effective clinical management. Traditional two-dimensional (2D) Cobb angle measurements have been the standard, but the emergence of three-dimensional (3D) automatic measurement techniques, such as those using weight-bearing 3D imaging (WR3D), presents an opportunity to enhance the accuracy and comprehensiveness of AIS evaluation. This study aimed to compare traditional 2D Cobb angle measurements with 3D automatic measurements utilizing the WR3D imaging technique in patients with AIS. A cohort of 53 AIS patients was recruited, encompassing 88 spinal curves, for comparative analysis. The patient sample consisted of 53 individuals diagnosed with AIS. Cobb angles were calculated using the conventional 2D method and three different 3D methods: the Analytical Method (AM), the Plane Intersecting Method (PIM), and the Plane Projection Method (PPM). The 2D cobb angle was manually measured by 3 experienced clinicians with 2D frontal whole-spine radiographs. For 3D cobb angle measurements, the spine and femoral heads were segmented from the WR3D images using a 3D-UNet deep-learning model, and the automatic calculations of the angles were performed with the 3D slicer software. AM and PIM estimates were found to be significantly larger than 2D measurements. Conversely, PPM results showed no statistical difference compared to the 2D method. These findings were consistent in a subgroup analysis based on 2D Cobb angles. Each 3D measurement method provides a unique assessment of spinal curvature, with PPM offering values closely resembling 2D measurements, while AM and PIM yield larger estimations. The utilization of WR3D technology alongside deep learning segmentation ensures accuracy and efficiency in comparative analyses. However, additional studies, particularly involving patients with severe curves, are required to validate and expand on these results. This study emphasizes the importance of selecting an appropriate measurement method considering the imaging modality and clinical context when assessing AIS, and it also underlines the need for continuous refinement of these techniques for optimal use in clinical decision-making and patient management. [ABSTRACT FROM AUTHOR]

Published

2024

22. Implementing a Halo Gravity Traction Program: A Multidisciplinary Endeavor.

Author

Stuedemann, Anne, Huston, Michon, Saddler, Nicolette, Schwend, Richard M., Anderson, John, Pierce, Elizabeth, Koivuniemi-Berg, Tiffany, Fryatt, Jamie, and Herman, Katrina

Subjects

PREVENTION of surgical complications, NERVOUS system injuries, HEMORRHAGE risk factors, MEDICAL protocols, PHYSICAL therapy, RISK assessment, CHILDREN'S health, TEAMS in the workplace, HUMAN services programs, PATIENT safety, HEALTH facility administration, INTERPROFESSIONAL relations, SCOLIOSIS, SPINAL curvatures, HOSPITAL care, MEDICAL case management, PREOPERATIVE care, NURSING, OCCUPATIONAL therapy, PSYCHOLOGY, SURGICAL complications, ORTHOPEDIC traction, ADVANCED practice registered nurses, PAIN management, QUALITY assurance, NEEDS assessment, HEALTH care teams, POSTURAL balance, PULMONOLOGY, NUTRITION, ACTIVITIES of daily living, EQUIPMENT & supplies, ALGORITHMS, CHILDREN

Abstract

Halo gravity traction (HGT) is a preoperative modality for children with severe spinal deformity used to optimize spine flexibility and balance while decreasing the likelihood of neurologic injury. HGT is a dependable solution for these challenging spinal deformities. Aligning treatment guidelines and providing resources, education, and training for staff are key components for a successful HGT program. The HGT program at Children's Mercy Hospital was then developed with a systems approach with the holistic goal of multidisciplinary collaboration with physical/occupational therapy, hospital medicine, pulmonology, psychology, nutrition, child life, and complex care management. Education, research, and national collaboration to standardize this therapy should improve patient safety and support quality improvement. [ABSTRACT FROM AUTHOR]

Published

2024

23. Effect of Pilates exercise on balance and spinal curvature in subjects with upper cross syndrome: a randomized controlled clinical trial.

Author

Karkousha, Rania N., Yousef, Jermeen E., Abdel Raoof, Neveen A., and Grase, Mariam Omran

Subjects

PILATES method, EXERCISE physiology, SPINAL curvatures, CLINICAL trials, VISUAL analog scale

Abstract

Introduction. To investigate the outcomes of Pilates exercise compared to traditional treatment for the management of upper cross syndrome (UCS). Methods. Forty female participants with UCS were randomly divided into two equal groups: group A (control group) and group B (experimental group). Both groups received two sessions per week for four consecutive weeks. Group A received a traditional physical therapy program consisting of stretching, strengthening, and postural correction exercises, while group B received a Pilates exercise program. Primary outcome measures were balance, spinal curvature, craniovertebral (CV) angle, and rounded shoulders, while the Neck Disability Index and Visual Analogue Scale served as secondary outcome measures. Measurements were recorded before and after treatment. Results. A comparison of pre- and post-treatment test results showed that all dependent variables significantly improved for both groups (p > 0.001). However, Pilates exercise resulted in greater improvement in terms of balance, spinal curvature, CV angle, and pain (p > 0.001). Conclusions. The Pilates exercise program proved more effective than the traditional physical therapy program in improving spinal curvature, balance, and function, and in reducing pain in UCS. [ABSTRACT FROM AUTHOR]

Published

2024

24. Correlation between Cranial Base, Mandible, and Hyoid Bone Position in Different Anteroposterior Skeletal Malocclusions: A Cephalometric Study.

Author

Sadik, Jaffer and Shetty, Akhil

Subjects

MALOCCLUSION, FACIAL bones, DATA analysis, SPINAL curvatures, RETROSPECTIVE studies, CEPHALOMETRY, DESCRIPTIVE statistics, NASAL bone, HYOID bone, STATISTICS, ANALYSIS of variance, SKULL, MANDIBLE, DATA analysis software

Abstract

Background Development of malocclusion can be promptly recognized through an understanding of the optimal position of the bone structures in the orofacial system and their relationship to the cranial base and jaw base. The aim of this study was to assess the relationship between the cranial base, mandible, and hyoid bone in different anteroposterior skeletal malocclusions. Materials and Methods This retrospective study evaluated 120 lateral cephalometric radiographs of individuals aged between 15 and 30 years. The subjects were classified using Burstone's analysis into three groups based on the N perpendicular to point A and N perpendicular to point B. The collected lateral cephalograms of the selected individuals were analyzed using Nemoceph v.12 software (Nemotec, Spain). The nasion-sella-articulare (NSAr), hyoidale angle (C3HyD), sella-articulare-hyoid angle (SArHy), and nasion-sella-hyoid (NSHy) angles were measured and compared among all the three groups. Results In the present study, considering the various angles among the three study groups, a statistically significant difference was observed for the SArHy angle (p < 0.05). However, the saddle angle (NSAr) and hyoidale angle (C3HyD) showed no statistically significant difference between the three study groups. Post hoc Bonferroni test was applied to compare the differences between two groups. A statistically significant difference (p < 0.05) was observed between class I and class II and between class II and class III groups. Conclusion Though the findings of the present study concluded that there is no variation in saddle angle among the three groups, the significant association of SArHy angle among class I, class II, and class III skeletal relationships, suggests an adaptation of the hyoid bone position in various skeletal patterns. We also suggest that the posterior positioning of the hyoid bone is related to skeletal class II malocclusion, whereas a forward positioning of the hyoid bone is related to skeletal class III malocclusion. [ABSTRACT FROM AUTHOR]

Published

2024

25. Occurrence of Body Posture Abnormalities in Overweight and Obese Children Aged 5–6 Years—Pilot Study.

Author

Bober, Alicja, Kopaczyńska, Aleksandra, Puk, Agnieszka, and Chwałczyńska, Agnieszka

Subjects

RISK assessment, REFERENCE values, HUMAN services programs, BODY mass index, ADIPOSE tissues, OCCUPATIONAL roles, DATA analysis, EVALUATION of human services programs, SPINAL curvatures, PILOT projects, BODY weight, BODY composition, CLINICAL trials, TREATMENT effectiveness, BIOELECTRIC impedance, DESCRIPTIVE statistics, MANN Whitney U Test, CHI-squared test, QUANTITATIVE research, PHYSICAL therapy for children, PHYSICAL fitness, STATISTICS, CHILDHOOD obesity, POSTURE, DATA analysis software, COMPARATIVE studies, PREVENTIVE health services, PHYSICAL activity, NONPARAMETRIC statistics, DISEASE risk factors, DISEASE complications

Abstract

Objectives: The study aimed to assess the occurrence of body posture disorders and their changes under the influence of a physioprophylactic program in children depending on body weight. Methods: In the examined children, the general and segmental body composition and body posture were determined using a physiotherapeutic assessment based on the Kasperczyk method. Mass, overall, and segmental body composition were determined using the bioelectrical impedance method using a TANITA body composition analyzer. The study group of 76 children was divided due to body weight disorders into Group I (n = 51), in which BMI and fat mass values were within the normative limits for age and gender, and Group II (n = 19), comprising children whose body weight exceeded the norm and/or fat mass exceeded normative values. The examined children underwent a physioprophylactic. The program was conducted by qualified physiotherapists for 12 weeks, once a week for 30 min. The therapeutic program was focused on physioprevention of being overweight and the correction of body posture. Results: A distal distribution of fat mass was observed in the examined group. Asymmetry in the sagittal plane was found in 35% of children. No statistically significant differences were found in the presence of asymmetry in the sagittal plane between the groups. No statistically significant differences were found in the occurrence of posture irregularities between the groups. Conclusions: There were no changes in the weight and body posture of the examined children under the influence of the physiotherapy program. The lack of correlation in the examined group between body weight and posture irregularities in 5–6-year-olds may suggest the acquisition of posture defects as a consequence of the persistence of overweight or obesity. [ABSTRACT FROM AUTHOR]

Published

2024

26. Effect of Cervical Index Changes on Cervical Pain.

Author

Babadi, Armin Jahangiri, Kouti, Ramin Nejadie, Zeinali, Masoud, Lordejani, Mohammad Ardeshiri, Marandi, Hossein Jafari, and Farhadi, Elham

Subjects

CERVICAL vertebrae radiography, CHRONIC pain, T-test (Statistics), SPINAL curvatures, NECK pain, DESCRIPTIVE statistics, CASE-control method, LORDOSIS, CERVICAL vertebrae, DATA analysis software

Abstract

Background: The study of the angles between the vertebrae and the curvatures of the spine plays an important role in the pathogenesis of spinal disorders. The nature of the cervical region makes it susceptible to various cervical disorders, many of which can be caused by imbalanced alignment. Methods: In the present study, patients with chronic neck pain were compared with the normal population for cervical indexes. Results: One hundred subjects were selected, including 57 males (57%) and 43 females (43%). Neck tilting was significantly lower in the case group than control (41.5 vs. 45.8) (p=0.01). The mean of C0-C2 angle did not differ between groups (p=0.503), however, a significant increase was found for C2-C7 and C0-C7 angles (p=0.012) and (p=0.05), respectively. Further analysis revealed that cranial offset (21.9 vs. 8.6) and cranial tilting (21.3 vs. 10.1) significantly increased in patients with chronic neck pain (p<0.001) and (p=0.004), respectively. Also, cervical Sagittal Vertical Axis (SVA) has shown a significant increase in patients than control (24.8 vs. 9.7) (p<0.001). Conclusion: The data have indicated that cervical indexes. Thus, spine surgeons should obtain standing cervical radiographs and evaluate the relationship between T1 slope, Spino Cranial Angle (SCA), and cSVA in all cases affected by cervical pathogenesis, even without obvious deformity. [ABSTRACT FROM AUTHOR]

Published

2024

27. Characterization of Adverse Outcomes from Legacy-Contaminated Groundwater Exposure to Early Life Stages of Fathead Minnow.

Author

Gasque-Belz, Laura, Park, Bradley, Siciliano, Steven, Hogan, Natacha, Weber, Lynn, Campbell, Patrick, Peters, Rachel, Hanson, Mark, and Hecker, Markus

Subjects

FATHEAD minnow, GROUNDWATER, SPINAL curvatures, HAZARDOUS waste sites, HEPATOTOXICOLOGY

Abstract

Complex mixtures of chemicals present in groundwater at legacy-contaminated industrial sites can pose significant risks to adjacent surface waters. The combination of short-term molecular and chronic apical effect assessments is a promising approach to characterize the potential hazard of such complex mixtures. The objectives of this study were to: (1) assess the apical effects (survival, growth, development, and liver histopathology) after chronic exposure of early life stages (ELSs) of fathead minnows (FHM; Pimephales promelas) to contaminated groundwater from a legacy-contaminated pesticide manufacturing and packaging plant, and (2) identify possible molecular mechanisms responsible for these effects by comparing results to mechanistic outcomes previously determined by a short-term reduced transcriptome assay (EcoToxChips). This study revealed a significant increase in mortality and prevalence of spinal curvatures, as well as a significant reduction in the length of FHMs exposed to the groundwater mixtures in a concentration-dependent manner. There was an increasing trend in the prevalence of edema in FHMs, though not significantly different from controls. Additionally, no histopathological effects were observed in the liver of FHMs exposed to the groundwater mixtures. Short-term molecular outcomes determined in a parallel study were found to be informative of chronic apical outcomes, including cardiotoxicity, spinal deformities, and liver toxicity. Overall, the results observed in this study demonstrated that short-term transcriptomics analyses could support the hazard assessment of complex contaminated sites. Molecular outcomes were reflective of mortality and deformities, but uncertainties remained in the prediction of hepatotoxic effects at apical level. [ABSTRACT FROM AUTHOR]

Published

2024

28. The Impact of Fine Particulate Matter on Embryonic Development.

Author

Wu, Chia-Ta, Wu, Ting-Shuan, and Ku, Min-Sho

Subjects

*LUNGS, *PARTICULATE matter, *EMBRYOLOGY, *CHEMOKINES, *AIR pollution, *SPINAL curvatures

Abstract

Airborne fine particulate matter (PM2.5) in air pollution has become a significant global public health concern related to allergic diseases. Previous research indicates that PM2.5 not only affects the respiratory system but may also induce systemic inflammation in various tissues. Moreover, its impact may vary among different populations, with potential consequences during pregnancy and in newborns. However, the precise mechanisms through which PM2.5 induces inflammatory reactions remain unclear. This study aims to explore potential pathways of inflammatory responses induced by PM2.5 through animal models and zebrafish embryo experiments. In this study, zebrafish embryo experiments were conducted to analyze the effects of PM2.5 on embryo development and survival, and mouse experimental models were employed to assess the impact of PM2.5 stimulation on various aspects of mice. Wild-type zebrafish embryos were exposed to a PM2.5 environment of 25–400 μg/mL starting at 6 h after fertilization (6 hpf). At 6 days post-fertilization, the survival rates of the 25, 50, 100, and 200 µg/mL groups were 100%, 80, 40%, and 40%, respectively. Zebrafish embryos stimulated with 25 μg/mL of PM2.5 still exhibited successful development and hatching. Additionally, zebrafish subjected to doses of 25–200 μg/mL displayed abnormalities such as spinal curvature and internal swelling after hatching, indicating a significant impact of PM2.5 stimulation on embryo development. In the mouse model, mice exposed to PM2.5 exhibited apparent respiratory overreaction, infiltration of inflammatory cells into the lungs, elevated levels of inflammatory response-related cytokines, and inflammation in various organs, including the liver, lungs, and uterus. Blood tests on experimental mice revealed increased expression of inflammatory and chemotactic cytokines, and GSEA indicated the induction of various inflammatory responses and an upregulation of the TNF-α/NFκB pathway by PM2.5. Our results provide insights into the harmful effects of PM2.5 on embryos and organs. The induced inflammatory responses by PM2.5 may be mediated through the TNF-α/NFκB pathway, leading to systemic organ inflammation. However, whether PM2.5-induced inflammatory responses in various organs and abnormal embryo development are generated through different pathways requires further study to comprehensively clarify and identify potential treatment and prevention methods. [ABSTRACT FROM AUTHOR]

Published

2024

29. Effects of lower limb length discrepancy on spinopelvic compensation following total hip arthroplasty in patients with developmental dysplasia of the hip.

Author

Li, Tong, Li, Yifei, Gao, Jiaxiang, Ma, Ruichen, Zhang, Qidong, and Wang, Weiguo

Subjects

*HIP joint dislocation, *BIOMECHANICS, *PEARSON correlation (Statistics), *TOTAL hip replacement, *PHYSIOLOGICAL adaptation, *BODY mass index, *DISEASE duration, *T-test (Statistics), *RESEARCH funding, *SEX distribution, *SCOLIOSIS, *SPINAL curvatures, *LEG length inequality, *RETROSPECTIVE studies, *AGE distribution, *DESCRIPTIVE statistics, *DYSPLASIA, *SURGICAL complications, *LUMBAR vertebrae, *ANALYSIS of variance, *CERVICAL vertebrae, *DATA analysis software

Abstract

Background: Limited research has examined the impact of lower limb length discrepancy (LLLD) alteration on spinopelvic compensation in individuals with developmental dysplasia of the hip (DDH). This study aimed to investigate the effects of LLLD on spinopelvic compensation following total hip arthroplasty (THA) and elucidate the complex biomechanical adaptations in the spinopelvic structures. Methods: A retrospective review of DDH patients undergoing THA from January 2014 to December 2021 categorized individuals with Crowe type I and II into the low dislocation group (LDG, n = 94) and those with Crowe type III and IV into the high dislocation group (HDG, n = 43). Demographic data, as well as preoperative, postoperative, and last follow-up imaging data, including lower limb length (LLL), sacral obliquity (SO), iliac obliquity (IO), hip obliquity (HO), Cobb angle, apical vertebral translation (AVT), and coronal decompensation (CD), were collected for analysis. Results: Patients in the LDG had a significantly higher surgical age and shorter disease duration (P<0.05). In LDG, patients exhibited substantial postoperative reductions in LLLD, SO, IO, and HO (P<0.05), while Cobb Angle, AVT, and CD showed no statistically significant changes (P>0.05). The variation in LLLD correlated significantly with the variations in SO, IO, and HO (P<0.05). Postoperative outcomes in the HDG demonstrated marked decreases in LLLD, SO, IO, HO, and CD (P<0.05), with no significant change in Cobb angle and AVT (P>0.05). The variation in LLLD correlated significantly with the variations in SO, IO, HO, and CD (P<0.05). Conclusions: THA effectively reduces LLLD in patients with DDH, and the variation in LLLD correlates meaningfully with the recovery of spinopelvic compensatory mechanisms. [ABSTRACT FROM AUTHOR]

Published

2024

30. A Novel "De-tension"-guided Anterior Decompression Strategy—Thoracic Anterior Controllable Antedisplacement Fusion (TACAF) for Multilevel Ossification of Posterior Longitudinal Ligament in Thoracic Spine: A Retrospective Study with at Least 2-Year Follow-Up

Author

Wang, Shunmin, Sun, Kaiqiang, Xu, Ximing, Sun, Jingchuan, Wang, Yuan, and Shi, Jian-gang

Subjects

*LONGITUDINAL ligaments, *THORACIC vertebrae, *OSSIFICATION, *THORACIC surgery, *SPINAL curvatures, *LAMINECTOMY, *SPINAL cord, *VISUAL analog scale

Abstract

To propose a novel surgical strategy-thoracic anterior controllable antedisplacement fusion (TACAF) to treat multilevel thoracic ossification of the posterior longitudinal ligament (mT-OPLL), and investigate its safety and efficacy. Between January 2019 and December 2021, a total of 49 patients with thoracic myelopathy due to mT-OPLL surgically treated with TACAF were retrospectively reviewed. Patients' demographic data, radiologic parameters, and surgery-related complications, modified Japanese Orthopedic Association (mJOA) and visual analog scale (VAS) scores, thoracic kyphosis (TK), kyphosis angle in fusion area (FSK), thoracic curvature, spinal cord curvature, and curvature of curved rod in surgical region, diameter, and area of the spinal cord at the most compressed level were included. All patients acquired satisfactory recovery of neurologic function and overall complication rate was low at the final follow up. The mean mJOA of the laminectomy+TACAF and Full Lamina Preservation +TACAF groups, respectively, was 3.74 ± 2.05, 3.67 ± 1.95 before surgery, and 9.97 ± 0.83, 9.80 ± 0.68 at the final followed up, with the recovery rate of 84.26% ± 14.20%, 82.79% ± 10.35%, as to VAS Scores. The mean FSK was 34.50 ± 4.46,35.33 ± 3.44 before surgery, and was restored to 20.97 ± 5.70, 22.93 ± 6.34 at the final followed up respectively, as to mean TK (P < 0.05). Spinal cord curvature was improved from 34.12 ± 3.59, 33.93 ± 3.45 before surgery to 19.47 ± 3.53, 18.80 ± 3.17 at the final follow-up respectively, as to thoracic curvature (P < 0.05). In addition, the area and diameter of the spinal cord was also significantly improved at the final follow up (all P < 0.05). The curvature of the thoracic pulp and thoracic vertebra is closely related to the curvature of the rod. There was no statistically significant difference in the incidence of the pelvis and the slope value of the sacrum. This strategy provides a novel solution for the treatment of mT-OPLL with favorable recovery of neurological function, the tension of spinal cord, and fewer complications. [ABSTRACT FROM AUTHOR]

Published

2024

31. Spinopelvic Motion: A Simplified Approach to a Complex Subject.

Author

Pagan, Cale A., Karasavvidis, Theofilos, Vigdorchik, Jonathan M., and DeCook, Charles A.

Abstract

Knowledge of the relationship between the hip and spine is essential in the effort to minimize instability and improve outcomes following total hip arthroplasty (THA). A detailed yet straightforward preoperative imaging workup can provide valuable information on pelvic positioning, which may be helpful for optimum placement of the acetabular cup. For a streamlined preoperative assessment of THA candidates, classification systems with a capacity for providing a more personalized approach to performance of THA have been introduced. Familiarity with these systems and their clinical application is important in the effort to optimize component placement and reduce the risk of instability. Looking ahead, the principles of the hip-spine relationship are being integrated using emerging innovative technologies, promising further streamlining of the evaluation process. [ABSTRACT FROM AUTHOR]

Published

2024

32. Artificial Intelligence in Spinal Imaging and Patient Care: A Review of Recent Advances.

Author

Lee, Sungwon, Jung, Joon-Yong, Mahatthanatrakul, Akaworn, and Kim, Jin-Sung

Subjects

*ARTIFICIAL intelligence, *PATIENT care, *SPINAL curvatures, *COMPUTED tomography, *IMAGE analysis, *SPINAL surgery

Abstract

Artificial intelligence (AI) is transforming spinal imaging and patient care through automated analysis and enhanced decision-making. This review presents a clinical task-based evaluation, highlighting the specific impact of AI techniques on different aspects of spinal imaging and patient care. We first discuss how AI can potentially improve image quality through techniques like denoising or artifact reduction. We then explore how AI enables efficient quantification of anatomical measurements, spinal curvature parameters, vertebral segmentation, and disc grading. This facilitates objective, accurate interpretation and diagnosis. AI models now reliably detect key spinal pathologies, achieving expert-level performance in tasks like identifying fractures, stenosis, infections, and tumors. Beyond diagnosis, AI also assists surgical planning via synthetic computed tomography generation, augmented reality systems, and robotic guidance. Furthermore, AI image analysis combined with clinical data enables personalized predictions to guide treatment decisions, such as forecasting spine surgery outcomes. However, challenges still need to be addressed in implementing AI clinically, including model interpretability, generalizability, and data limitations. Multicenter collaboration using large, diverse datasets is critical to advance the field further. While adoption barriers persist, AI presents a transformative opportunity to revolutionize spinal imaging workflows, empowering clinicians to translate data into actionable insights for improved patient care. [ABSTRACT FROM AUTHOR]

Published

2024

33. Range of international surgical strategies for adolescent idiopathic scoliosis: Evaluation of a multi‐center survey.

Author

Wilke, Hans‐Joachim, Großkinsky, Maresa, Ruf, Michael, and Schlager, Benedikt

Subjects

ADOLESCENT idiopathic scoliosis, SPINAL curvatures, ANATOMICAL planes, RADIOGRAPHS, ORTHOPEDIC braces

Abstract

Background: Surgical treatment of adolescent idiopathic scoliosis (AIS) is very complex and modern instrumentation techniques offer multiple possibilities. Despite numerous publications, there is no clear consensus on the optimal strategy for the correction of scoliotic deformities. The goal of this study was to summarize the current surgical strategies for specific AIS cases within various countries. Method: Thirty‐two experienced scoliosis surgeons from 15 countries were asked to plan surgeries on 12 representative AIS cases. All AIS cases had an indication for surgery. A questionnaire was provided to document surgical planning. The surgeons were provided with the patients' age and sex, together with radiographs in the lateral and sagittal planes during upright standing and in lateral bending to the left and right, as well as with clinical images. The angles of the main spinal curvatures were specified in the questionnaire. The surgeons were asked to specify their preferred classification system, their surgical approach, the planned fusion length, the type of implants, the rod type, and the resection steps. The data were analyzed with respect to the inter‐rater variability, which was quantified using the Fleiss‐Kappa Method. Results: There was a good agreement (k = 0.61) between the surgeons in choosing the Lenke curve type, and a moderate agreement for the lumbar (0.41) and sagittal (0.56) modifiers. The most frequently planned resection procedure was complete facetectomy (67%). The posterior approach was the most commonly (91%) selected strategy to treat AIS. Anterior approaches were chosen most for Lenke 5 type with a rate of 20%. The upper instrumented vertebra (UIV) varied most for Lenke 1, 5, and 6 cases, with a vertebral level discrepancy of up to 10 levels at Lenke 6. The lowest instrumented vertebra varied most for Lenke 1 and 4 by up to five levels. Polyaxial screws were chosen most (56%), followed by monoaxial (20%) and uniplanar (19%) screws and hooks (5%). Conclusions: The results highlight the commonalities and discrepancy in the surgical treatment of AIS in between surgeons. The selected LIV and UIV can vary depending on the curve type and surgeon. Hook constructs appear to be generally replaced by transpedicular screws. The survey indicates open questions in the AIS treatment and in the understanding of scoliosis biomechanics. [ABSTRACT FROM AUTHOR]

Published

2024

34. Posterior-Only T11 Vertebral Column Resection for Pediatric Congenital Kyphosis Surgical Correction.

Author

Grabala, Pawel, Fani, Negin, Gregorczyk, Jerzy, and Grabala, Michal

Subjects

SPINE, KYPHOSIS, SPINAL curvatures, ANATOMICAL planes, SPINE abnormalities, SPINAL tuberculosis, RIB fractures, SURGICAL meshes

Abstract

Background: Congenital kyphosis is a spinal deformity that arises from the inadequate anterior development or segmentation of the vertebrae in the sagittal plane during the initial embryonic stage. Consequently, this condition triggers atypical spinal growth, leading to the manifestation of deformity. Concurrently, other congenital abnormalities like renal or cardiac defects within the gastrointestinal tract may co-occur with spinal deformities due to their shared formation timeline. In light of the specific characteristics of the deformity, the age range of the patient, deformity sizes, and neurological conditions, surgical intervention emerges as the optimal course of action for such cases. The selection of the appropriate surgical approach is contingent upon the specific characteristics of the anomaly. Case Presentation: This investigation illustrates the utilization of a surgical posterior-only strategy for correcting pediatric congenital kyphoscoliosis through the implementation of a vertebral column resection method along with spine reconstruction employing a mesh cage. The individual in question, a 16-year-old female, exhibited symptoms such as a progressive rib hump, shoulder asymmetry, and back discomfort. Non-invasive interventions like bracing proved ineffective, leading to the progression of the spinal curvature. After the surgical procedure, diagnostic imaging displayed a marked enhancement across all three spatial dimensions. After a postoperative physical assessment, it was noted that the patient experienced significant enhancements in shoulder alignment and rib hump prominence, with no discernible neurological or other adverse effects. Conclusions: Surgical intervention is considered the optimal approach for addressing such congenital anomalies. Typically, timely surgical intervention leads to favorable results and has the potential to halt the advancement of deformity and curvature enlargement. [ABSTRACT FROM AUTHOR]

Published

2024

35. Examining the Impact of Myofascial Release and Chest Mobility Exercises on Functional Scoliosis: A Case Report.

Author

RAHANE, ROHIT BALASAHEB, RANGANATHAN, ARUNMOZHI, and RAJ, PRIYA

Subjects

*CHEST exercises, *MYOFASCIAL release, *SPINAL curvatures, *LUMBAR pain, *BREATHING exercises

Abstract

Scoliosis is characterised by lateral spinal curvature, twisting of the spine and chest, and abnormalities in the sagittal profile. Physical therapy plays a crucial role in preventing the progression of scoliosis and its associated deformities, and in improving outcomes and quality of life. However, specific treatment methods for correcting the curvature and enhancing function are not extensively documented. Therefore, the present case report incorporated several techniques. A 17-year-old male visited the Physiotherapy Department with complaints of continuous pain in his lower back for the past 45 days. Due to the pain, the patient was not able to play football and sleep properly. Additionally, there was a notable postural deviation with a history of more than six years. His parents ignored his walking as stylish. Moreover, the patient stated that he had continuous pain, was not able to bend the spine backward, concentrate on studies and attend social gatherings. Upon spinal examination, scoliosis with a dropped right shoulder was observed. The patient was effectively treated using Myofascial Release (MFR) techniques combined with exercises to improve chest mobility. After management, the pain score showed a reduction, and there was improvement in the disability questionnaire. Significant changes were also noted in X-ray assessments and Range of Motion (ROM). [ABSTRACT FROM AUTHOR]

Published

2024

36. UNiD Rods Register

Published

2023

37. Thoracolumbar Junction

Author

Han Moon-Soo, Department of Neurosurgery

Published

2023

38. Investigating the long-term outcomes and efficacy of surgical intervention in patients with adolescent idiopathic scoliosis and Cobb angles ranging between 40 and 50 degrees

Author

Friedman, Adam S., Koneru, Manisha, Gentile, Pietro, and Clements, David

Published

2024

39. Deep Learning-Assisted Quantitative Measurement of Thoracolumbar Fracture Features on Lateral Radiographs

Author

Woon Tak Yuh, Eun Kyung Khil, Yu Sung Yoon, Burnyoung Kim, Hongjun Yoon, Jihe Lim, Kyoung Yeon Lee, Yeong Seo Yoo, and Kyeong Deuk An

Subjects

artificial intelligence, deep learning, spinal fractures, spinal injuries, spinal curvatures, radiography, Neurology. Diseases of the nervous system, RC346-429

Abstract

Objective This study aimed to develop and validate a deep learning (DL) algorithm for the quantitative measurement of thoracolumbar (TL) fracture features, and to evaluate its efficacy across varying levels of clinical expertise. Methods Using the pretrained Mask Region-Based Convolutional Neural Networks model, originally developed for vertebral body segmentation and fracture detection, we fine-tuned the model and added a new module for measuring fracture metrics—compression rate (CR), Cobb angle (CA), Gardner angle (GA), and sagittal index (SI)—from lumbar spine lateral radiographs. These metrics were derived from six-point labeling by 3 radiologists, forming the ground truth (GT). Training utilized 1,000 nonfractured and 318 fractured radiographs, while validations employed 213 internal and 200 external fractured radiographs. The accuracy of the DL algorithm in quantifying fracture features was evaluated against GT using the intraclass correlation coefficient. Additionally, 4 readers with varying expertise levels, including trainees and an attending spine surgeon, performed measurements with and without DL assistance, and their results were compared to GT and the DL model. Results The DL algorithm demonstrated good to excellent agreement with GT for CR, CA, GA, and SI in both internal (0.860, 0.944, 0.932, and 0.779, respectively) and external (0.836, 0.940, 0.916, and 0.815, respectively) validations. DL-assisted measurements significantly improved most measurement values, particularly for trainees. Conclusion The DL algorithm was validated as an accurate tool for quantifying TL fracture features using radiographs. DL-assisted measurement is expected to expedite the diagnostic process and enhance reliability, particularly benefiting less experienced clinicians.

Published

2024

40. Radiological and Pulmonary Results of Surgical Treatment of Severe Idiopathic Scoliosis Using Preoperative Halo Gravity Traction Compared with Less Invasive Temporary Internal Distraction in Staged Surgery in Adolescents.

Author

Grabala, Pawel, Galgano, Michael A., Grabala, Michal, and Buchowski, Jacob M.

Subjects

*ADOLESCENT idiopathic scoliosis, *IDIOPATHIC diseases, *SCOLIOSIS, *FORCED expiratory volume, *SPINAL curvatures, *SPINE abnormalities, *ORTHOPEDIC braces, *ORTHOPEDIC traction

Abstract

Background: Severe and rigid scoliosis represents a type of spinal deformity characterized by a Cobb angle exceeding 90° and a flexibility of less than 30%. Halo spinal traction remains the established standard for managing severe scoliosis, although alternative approaches such as temporary internal distraction rods and staged surgical correction exist. The primary objective of this investigation was to compare two cohorts of patients treated using these distinct methods to ascertain any divergences in terms of surgical and radiological outcomes, pulmonary function (PF), and quality of life (QoL). Methods: This study encompassed a total of 62 pediatric patients meeting the specified criteria, which included severe idiopathic scoliosis (major Cobb curve >90) and flexibility <30%. Group 1 (G1) underwent surgical intervention involving preoperative Halo gravity traction (HGT) succeeded by posterior spinal fusion (PSF). On the other hand, Group 2 (G2) underwent a two-stage procedure starting with a less invasive temporary internal distraction technique (LITID) prior to PSF. The radiological outcomes, PF, and QoL were documented and assessed over a monitoring period ranging from 2 to 5 years. Results: The average preoperative major curves (MCs) measured 124° and 122° in G1 and G2, respectively (p < 0.426). Initial flexibility, as observed in preoperative bending films, ranged from 18% in G1 to 21% in G2 (p < 0.001). Following the ultimate surgical intervention, the MCs were corrected to 45° and 37.4° in G1 and G2, respectively (p < 0.001). The percentage correction of the MCs was higher in G2 (63% vs. 70% in G1 and G2, respectively), with significant between-group disparities (p < 0.001). The mean preoperative thoracic kyphoses (TKs) were 96.5° in G1 and 92° in G2 (p = 0.782), which were rectified to 45.8° in G1 and 36.2° in G2 (p < 0.001), equating to correction rates of 55% and 60% in the respective groups. Initially, G2 exhibited lower values for the percentage of predicted lung volume (FVC) and predicted FEV1 compared with G1 (49% and 58% vs. 54.5% and 60.8%; N.S.). Nonetheless, both groups demonstrated enhancements in their FVC and FEV1 values over the follow-up period. Conclusions: The surgical management of severe and untreated spinal curvatures in the pediatric and adolescent population can be considered safe, with a tolerable incidence of minor complications. LITID emerges as a method offering improved QoL and pulmonary function, achieving notably substantial average corrections in deformity by 70% in the coronal plane and 60% in the sagittal plane, alongside a mean increase in trunk height of 10.8 cm. Furthermore, a typical reduction of 76% in rib humps and enhancements in respiratory function, as indicated by improvements in 1 s predicted forced expiratory volume (by 25–56%) and forced vital capacity (by 35–65%), were achieved, leading to a clinically and statistically significant enhancement in QoL when evaluated using SRS-22r, without resorting to more radical, high-risk procedures. [ABSTRACT FROM AUTHOR]

Published

2024

41. Precise execution of personalized surgical planning using three-dimensional printed guide template in severe and complex adult spinal deformity patients requiring three-column osteotomy: a retrospective, comparative matched-cohort study.

Author

Zhang, Yangpu, Yang, Honghao, Han, Chaofan, Zhang, Yiqi, Zhou, Lijin, and Hai, Yong

Subjects

*COMPUTER simulation, *PATIENT safety, *RESEARCH funding, *SPINAL curvatures, *KYPHOSIS, *SEVERITY of illness index, *RETROSPECTIVE studies, *DESCRIPTIVE statistics, *OSTEOTOMY, *LONGITUDINAL method, *NEUROLOGICAL disorders, *COMPUTER-assisted surgery, *SPINAL fusion, *ACCURACY, *HEALTH outcome assessment, *THREE-dimensional printing, *COMPARATIVE studies, *PATIENT aftercare, *TIME, *DISEASE risk factors

Abstract

Background: The surgical treatment of severe and complex adult spinal deformity (ASD) commonly required three-column osteotomy (3-CO), which was technically demanding with high risk of neurological deficit. Personalized three dimensional (3D)-printed guide template based on preoperative planning has been gradually applied in 3-CO procedure. The purpose of this study was to compare the efficacy, safety, and precision of 3D-printed osteotomy guide template and free-hand technique in the treatment of severe and complex ASD patients requiring 3-CO. Methods: This was a single-centre retrospective comparative cohort study of patients with severe and complex ASD (Cobb angle of scoliosis > 80° with flexibility < 25% or focal kyphosis > 90°) who underwent posterior spinal fusion and 3-CO between January 2020 to January 2023, with a minimum 12 months follow-up. Personalized computer-assisted three-dimensional osteotomy simulation was performed for all recruited patients, who were further divided into template and non-template groups based on the application of 3D-printed osteotomy guide template according to the surgical planning. Patients in the two groups were age- and gender- propensity-matched. The radiographic parameters, postoperative neurological deficit, and precision of osteotomy execution were compared between groups. Results: A total of 40 patients (age 36.53 ± 11.98 years) were retrospectively recruited, with 20 patients in each group. The preoperative focal kyphosis (FK) was 92.72° ± 36.77° in the template group and 93.47° ± 33.91° in the non-template group, with a main curve Cobb angle of 63.35° (15.00°, 92.25°) and 64.00° (20.25°, 99.20°), respectively. Following the correction surgery, there were no significant differences in postoperative FK, postoperative main curve Cobb angle, correction rate of FK (54.20% vs. 51.94%, P = 0.738), and correction rate of main curve Cobb angle (72.41% vs. 61.33%, P = 0.101) between the groups. However, the match ratio of execution to simulation osteotomy angle was significantly greater in the template group than the non-template group (coronal: 89.90% vs. 74.50%, P < 0.001; sagittal: 90.45% vs. 80.35%, P < 0.001). The operating time (ORT) was significantly shorter (359.25 ± 57.79 min vs. 398.90 ± 59.48 min, P = 0.039) and the incidence of postoperative neurological deficit (5.0% vs. 35.0%, P = 0.018) was significantly lower in the template group than the non-template group. Conclusion: Performing 3-CO with the assistance of personalized 3D-printed guide template could increase the precision of execution, decrease the risk of postoperative neurological deficit, and shorten the ORT in the correction surgery for severe and complex ASD. The personalized osteotomy guide had the advantages of 3D insight of the case-specific anatomy, identification of osteotomy location, and translation of the surgical planning or simulation to the real surgical site. [ABSTRACT FROM AUTHOR]

Published

2024

42. Clinical Efficacy of Unilateral Dual‐channel Endoscopic Lumbar Interbody Fusion for Lumbar Spondylolisthesis with Spinal Scoliosis.

Author

You, Xuanjun, Zhao, Bin, Zhang, Tao, Wang, Yongfeng, Xu, Chaojian, Yuan, Jie, and Liu, Ruxing

Subjects

*SPINAL fusion, *SPONDYLOLISTHESIS, *SCOLIOSIS, *SPINAL curvatures, *LUMBAR pain, *UNNECESSARY surgery

Abstract

Objectives: Scoliosis associated with spondylolisthesis is a common phenomenon. Recent research has reported that scoliosis can spontaneously disappear after lumbar spinal fusion surgery. Researchers have advocated that, for scoliosis associated with vertebral slippage, surgery for the latter may be the only necessary intervention, while unnecessary surgery for scoliosis should be avoided. So we propose that minimally invasive techniques can achieve treatment effects similar to those of open surgery. Therefore, in this study, we aimed to investigate the clinical efficacy of unilateral dual‐channel endoscopic lumbar interbody fusion (ULIF) for treating lumbar spondylolisthesis with spinal scoliosis. Methods: This study retrospectively analyzed patients with lumbar spondylolisthesis and spinal scoliosis who underwent ULIF between September 2021 and September 2023. Measurements of the Cobb angle, lumbar lordosis (LL) angle, sacral slope (SS), slip percentage (SP), slip angle (SA), L1 plumb line‐S1 distance (LASD), and average intervertebral height (AIH) were taken preoperatively, immediately following surgery, 3 months after surgery, and at the final follow‐up. The visual analogue scale (VAS), Oswestry disability index (ODI), and Japanese Orthopaedic Association (JOA) scoring systems were used to assess clinical results. The surgical efficacy was evaluated by comparing these parameters before and after surgery. Comparison of indicators within the same group was conducted using one‐way repeated‐measures analysis of variance or paired sample t‐tests, whereas between‐group differences were compared using an independent t‐test. Results: This study included 31 individuals who underwent surgery and completed follow‐up. The follow‐up period did not show a significant loss of corrective angles. Furthermore, the Cobb angle, SP, SA, and LASD significantly decreased after surgery, whereas the LL angle, SS, and AIH significantly increased (all p < 0.05). SP did not differ between the immediate postoperative period and the 3‐month and final follow‐up periods (p > 0.05). However, other parameters significantly improved during the follow‐up period at all time points, except from 3 months to the final follow‐up period (p > 0.05). Throughout the follow‐up period, the lower back and leg pain VAS, ODI, and JOA scores considerably improved compared with the preoperative levels (p < 0.05). Conclusion: ULIF effectively treated lumbar spondylolisthesis with scoliosis, thereby reducing the degree of slip and scoliosis. By performing surgical reduction, fusion, and fixation only on the slipped segment, ULIF also had a corrective effect on the spinal lateral curvature, thereby avoiding the need for unnecessary scoliosis surgery. Moreover, the short‐term efficacy was satisfactory, but the long‐term efficacy requires further study. [ABSTRACT FROM AUTHOR]

Published

2024

43. Femoral neck version in the spinopelvic and lower limb 3D alignment: a full-body EOS® study in 400 healthy subjects.

Author

Khalifé, Marc, Vergari, Claudio, Rebeyrat, Guillaume, Ferrero, Emmanuelle, Guigui, Pierre, Assi, Ayman, and Skalli, Wafa

Subjects

*FEMUR neck, *TOTAL hip replacement, *FEMUR head, *SPINAL curvatures, *DIHEDRAL angles

Abstract

Background: The goal of this study was to better understand the variation of femoral neck version according to spinopelvic and lower limb 3D alignment using biplanar X-rays in standing position. Methods: This multicentric study retrospectively included healthy subjects from previous studies who had free-standing position biplanar radiographs. Subjects were excluded if they presented spinal or any musculo-skeletal deformity, and reported pain in the spine, hip or knee. Age, sex, and the following 3D-reconstructed parameters were collected: spinal curvatures, pelvic parameters, sagittal vertical axis (SVA), T1 pelvic angle (TPA), spino-sacral angle (SSA), femoral torsion angle (FTA), sacro-femoral angle (SFA), knee flexion angle (KA), ankle angle (AA), pelvic shift (PS) and ankle distance. Femoral neck version angle (FVA) was calculated between horizontal plane projection of the bi-coxo-femoral axis and the line passing through the femoral neck barycenter and femoral head center. Analysis according to age subsets was performed. Results: A total of 400 subjects were included (219 females); mean age was 29 ± 18 years (range: 4–83). Subjects with high pelvic tilt values presented significantly higher FVA than average and low-PT individuals, respectively, 7.8 ± 7.1°, 2 ± 9° and 2.1 ± 9.5° (p < 0.001). These subjects also presented lower lumbar lordosis values and higher acetabulum anteversion in the horizontal plane than the two other groups. SVA correlation with FVA was weaker (r = 0.1, p = 0.03) than SSA and TPA (r = − 0.3 and r = 0.3, respectively, p < 0.001). A strong correlation was found with femoral torsion (r = 0.5, p < 0.001). SFA (r = − 0.3, p < 0.001), pelvic shift (r = 0.2, p < 0.001) and ankle distance (r = 0.3, p < 0.001) were also significantly correlated. Multivariate analysis confirmed significant association of age, pelvic tilt, lumbar lordosis, pelvic shift, ankle distance and femoral torsion with FVA. Conclusion: Patients with lower lumbar lordosis present pelvic retroversion which induces a higher femoral neck version. This finding may help positioning implants in total hip replacement procedures. Higher pelvic shift, age, male gender and increased femoral torsion were also correlated with higher FVA. Level of evidence: II (Diagnostic: individual cross-sectional studies with consistently applied reference standard and blinding). [ABSTRACT FROM AUTHOR]

Published

2024

44. Scoliosis and kyphosis in blue-spotted and marbled flathead fish associated with a Myxobolus acanthogobii –like parasite.

Author

Ngo, Angel L., Go, Jeffrey, Spiers, Zoe B., and Jenkins, Cheryl

Subjects

KYPHOSIS, SCOLIOSIS, SPINE abnormalities, INTERFERENCE microscopy, SPINAL curvatures

Abstract

Spinal deformities in finfish have the potential to impact aquaculture industries and wild populations by increasing morbidity, mortality, and reducing growth rates. Myxobolus acanthogobii has been implicated in causing scoliosis and lordosis in various aquatic species in Japan. We investigated 4 cases of spinal deformity in 2 flathead (Platycephalus) species that were submitted to the Elizabeth Macarthur Agricultural Institute (EMAI) in New South Wales (NSW), Australia, between 2015 and 2021. Flathead are commercially significant species that are popular among Australian consumers, and are also sought-after species targeted by recreational fishers. Gross deformities are concerning to the community and may impact the quality and quantity of specimens available for consumption. Three blue-spotted flathead (P. caeruleopunctatus) and one marbled flathead (P. marmoratus) were submitted, all with marked scoliosis and kyphosis; 1–2-mm cysts were present on the dorsum of the brain, most often over the optic lobe or cerebellum. Cytology and differential interference microscopy of cyst material revealed numerous oval spores, x̄ 14 ± SD 0.75 µm × x̄ 11.5 ± SD 0.70 µm, with 2 pyriform polar capsules, the morphology of which is consistent with a Myxobolus sp. PCR assay and 18S rDNA sequencing of the cyst material identified a Myxobolus sp. with 96% identity to M. acanthogobii. The identification of this Myxobolus sp. confirms the presence of parasites with the potential to cause spinal deformity in significant aquatic species in NSW waterways. [ABSTRACT FROM AUTHOR]

Published

2024

45. Pelvic Fixation Construct Trends in Spinal Deformity Surgery.

Author

Ormseth, Andrew F., Odland, Kari, Haselhuhn, Jason J., Holton, Kenneth J., and Polly Jr, David W.

Subjects

*SHEAR (Mechanics), *BIOMECHANICS, *PELVIC bones, *SPINAL curvatures, *ORTHOPEDIC implants, *BONE screws, *RETROSPECTIVE studies, *DESCRIPTIVE statistics, *SPINAL fusion, *MEDICAL records, *ACQUISITION of data, *MEDICAL equipment reliability, *SPINAL cord, *ADULTS

Abstract

Purpose: Although many techniques exist, spinopelvic fixation continues to present challenges in the management of adult spinal deformity. Shear forces, complex anatomy, and bone quality are common reasons why spine surgeons continue to explore options for fixation. Methods: A retrospective chart reviewed of patients receiving pelvic fixation for adult spinal deformity over a 12-year period was conducted. Patients were divided into 3 cohorts based on date of surgery: (1) 2010 to 2013, (2) 2014 to 2017, and (3) 2018 to 2021. Pelvic fixation constructs in the study included traditional iliac screws, stacked S2-alar-iliac (S2AI screws), and triangular titanium implants. Results: Of the 494 patients with multiple implant constructs who met the inclusion criteria for this study, patients undergoing pelvic fixation surgery who received at least 2 implants increased by approximately 5% every 4 years (90.2%, 94.6%, 99.1% respectively). Over the 12-year span, the implementation of the S2AI screw grew 120%. Conclusion: At our institution, there is a trend toward using multiple bilateral implant constructs for pelvic fixation, with nearly a tenfold percentage increase between the most recent cohorts. These include iliac screws with S2AI screws, multiple stacked S2AI screws, and S2AI screws used in conjunction with triangular titanium implants in hopes to decrease implant failure. [ABSTRACT FROM AUTHOR]

Published

2024

46. Automatic assessment of scoliosis surgery outcome on trunk shape using left–right trunk asymmetry.

Author

Khani, Maryam, Debanné, Philippe, Guibault, François, Labelle, Hubert, Parent, Stefan, and Cheriet, Farida

Subjects

*ADOLESCENT idiopathic scoliosis, *SPINAL curvatures, *SCOLIOSIS, *SCAPULA, *SURFACE topography

Abstract

Purpose: To present a novel set of Left–Right Trunk Asymmetry (LRTA) indices and use them to assess the postoperative appearance of the trunk in Adolescent Idiopathic Scoliosis (AIS) patients. Methods: We hypothesize that LRTA measurements provide complementary information to existing trunk asymmetry indices when documenting the outcome of scoliosis surgery. Forty-nine AIS patients with thoracic curves who underwent posterior spinal fusion were included. All had surface topography scans taken preoperatively and at least 6 months postoperatively. We documented spinal curvature using Radiographic Cobb angles, scoliometer readings and coronal balance. To evaluate Global Trunk Asymmetry (GTA), we used the standard measures of Back Surface Rotation (BSR) and Trunk Lateral Shift (TLS). To measure LRTA, we identified asymmetry areas as regions of significant deviation between the left and right sides of the 3D back surface. New parameters called Deformation Rate (DR) and Maximum Asymmetry (MA) were measured in different regions based on the asymmetry areas. We compared the GTA and LRTA changes with those in spinal curvature before and after surgery. Results: The GTA indices, mainly TLS, showed improvement for more than 75% of patients. There was significant improvement of LRTA in the shoulder blades and waist regions (95% and 80% of patients respectively). Conclusion: We report positive outcomes for LRTA in the majority of patients, specifically in the shoulder blades and waist, even when no reduction of BSR is observed. The proposed indices can evaluate local trunk asymmetries and the degree to which they are improved or worsened after scoliosis surgery. [ABSTRACT FROM AUTHOR]

Published

2024

47. Associations between paraspinal muscle characteristics and spinal curvature in conservatively treated adolescent idiopathic scoliosis: a systematic review.

Author

Chan, Winnie W.Y., Fu, Siu-Ngor, Chong, Tsz-Fung, Singh, Gurjiven, Tsai, Desmond S.J., Wong, Mathew C.Y., Zheng, Yong-Ping, Parent, Eric C., Cheung, Jason P.Y., and Wong, Arnold Y.L.

Subjects

*ADOLESCENT idiopathic scoliosis, *SPINAL curvatures, *MUSCULAR atrophy, *DATABASES, *CINAHL database, *CROSS-sectional method

Abstract

Children with adolescent idiopathic scoliosis (AIS) may show asymmetrical paraspinal muscle characteristics. To summarize the evidence regarding: (1) the associations between various paraspinal muscle characteristics and spinal curvature; (2) whether paraspinal muscle properties significantly differed between children with and without AIS; and (3) whether baseline paraspinal muscle characteristics predicted curve progression. Systematic literature review. Five databases (CINAHL, Academic Search Premier, MEDLINE, Scopus, and PubMed) were searched from inception to May 2022. This protocol was registered in the PROSPERO database of systematic reviews CRD 42020171263. The Critical appraisal skills program, the Appraisal Tool for Cross-Sectional Studies and Quality In Prognosis Studies tool were used to evaluate the risk of bias of the included studies. The strength of evidence of each identified association was determined by the Grading of Recommendations Assessment, Development, and Evaluation System (GRADE). Of 1,530 identified citations, four cohort, 17 cross-sectional, and 23 case-control studies including 31 with low, nine with moderate and four with high risk of bias were included. Low to very low-strength evidence supported that the convex side of the curve had more type I muscle fibers, higher muscle volume and paraspinal muscle activity, while the concavity had more intramuscular fatty infiltration. Very low-strength evidence substantiated greater side-to-side surface electromyography signals during left trunk bending in prone lying, standing, and standing with perturbation between people with and without AIS. Also, low to very low-strength evidence supported that a larger side-to-side surface electromyography ratio at the lower end vertebra predicted curve progression. Our review highlights that paraspinal muscles on the concavity of the curve demonstrate consistent changes (ie, altered muscle-related gene expression, muscle atrophy, increased fatty infiltration, reduced type I fibers, and reduced muscle activity), which may be the cause or consequence. [ABSTRACT FROM AUTHOR]

Published

2024

48. Polytomous Rasch Analyses of Surgeons' Decision-Making on Choice of Procedure in Endoscopic Lumbar Spinal Stenosis Decompression Surgeries.

Author

LEWANDROWSKI, KAI-UWE, ALVIM FIORELLI, ROSSANO KEPLER, PEREIRA, MAURICIO G., ABRAHAM, IVO, ALFARO PACHICANO, HEBER HUMBERTO, ELFAR, JOHN C., ALHAMMOUD, ABDULJABBAR, LANDGRAEBER, STEFAN, OERTEL, JOACHIM, HELLINGER, STEFAN, DOWLING, ÁLVARO, TEIXEIRA DE CARVALHO, PAULO SÉRGIO, RAMOS, MAX R. F., DEFINO, HELTON, PAULO BERGAMASCHI, JOÃO, MONTEMURRO, NICOLA, YEUNG, CHRISTOPHER, BRITO, MARCELO, BEALL, DOUGLAS P., and IVANIC, GERD

Subjects

SURGEONS, SPINAL stenosis, SPINE abnormalities, SPINAL curvatures, SPINAL canal diseases

Abstract

Background: With the growing prevalence of lumbar spinal stenosis, endoscopic surgery, which incorporates techniques such as transforaminal, interlaminar, and unilateral biportal (UBE) endoscopy, is increasingly considered. However, the patient selection criteria are debated among spine surgeons. Objective: This study used a polytomous Rasch analysis to evaluate the factors influencing surgeon decision-making in selecting patients for endoscopic surgical treatment of lumbar spinal stenosis. Methods: A comprehensive survey was distributed to a representative sample of 296 spine surgeons. Questions encompassed various patient-related and clinical factors, and responses were captured on a logit scale graphically displaying person-item maps and category probability curves for each test item. Using a Rasch analysis, the data were subsequently analyzed to determine the latent traits influencing decision-making. Results: The Rasch analysis revealed that surgeons' preferences for transforaminal, interlaminar, and UBE techniques were easily influenced by comfort level and experience with the endoscopic procedure and patient-related factors. Harder-to-agree items included technological aspects, favorable clinical outcomes, and postoperative functional recovery and rehabilitation. Descriptive statistics suggested interlaminar as the best endoscopic spinal stenosis decompression technique. However, logit person-item analysis integral to the Rasch methodology showed highest intensity for transforaminal followed by interlaminar endoscopic lumbar stenosis decompression. The UBE technique was the hardest to agree on with a disordered person-item analysis and thresholds in category probability curve plots. Conclusion: Surgeon decision-making in selecting patients for endoscopic surgery for lumbar spinal stenosis is multifaceted. While the framework of clinical guidelines remains paramount, on-the-ground experience-based factors significantly influence surgeons' selection of patients for endoscopic lumbar spinal stenosis surgeries. The Rasch methodology allows for a more granular psychometric evaluation of surgeon decision-making and accounts better for years-long experience that may be lost in standardized clinical guideline development. This new approach to assessing spine surgeons' thought processes may improve the implementation of evidence-based protocol change dictated by technological advances was endorsed by the Interamerican Society for Minimally Invasive Spine Surgery (SICCMI), the International Society for Minimal Intervention in Spinal Surgery (ISMISS), the Mexican Spine Society (AMCICO), the Brazilian Spine Society (SBC), the Society for Minimally Invasive Spine Surgery (SMISS), the Korean Minimally Invasive Spine Society (KOMISS), and the International Society for the Advancement of Spine Surgery (ISASS). [ABSTRACT FROM AUTHOR]

Published

2024

49. Can Dynamic Spinal Stabilization Be an Alternative to Fusion Surgery in Adult Spinal Deformity Cases?

Author

OZER, ALI FAHIR, AKGUN, MEHMET YIGIT, UCAR, EGE ANIL, HEKIMOGLU, MEHDI, BASAK, AHMET TULGAR, GUNERBUYUK, CANER, TOKLU, SUREYYA, OKTENOGLU, TUNC, SASANI, MEHDI, AKGUL, TURGUT, and ATES, OZKAN

Subjects

SPINE abnormalities, POSTURE disorders, KYPHOSIS, POTT'S disease, SPINAL curvatures

Abstract

Background: Rigid stabilization and fusion surgery are widely used for the correction of spinal sagittal and coronal imbalance (SCI). However, instrument failure, pseudoarthrosis, and adjacent segment disease are frequent complications of rigid stabilization and fusion surgery in elderly patients. In this study, we present the results of dynamic stabilization and 2-stage dynamic stabilization surgery for the treatment of spinal SCI. The advantages and disadvantages are discussed, especially as an alternative to fusion surgery. Methods: In our study, spinal, sagittal, and coronal deformities were corrected with dynamic stabilization performed in a single session in patients with good bone quality (without osteopenia and osteoporosis), while 2-stage surgery was performed in patients with poor bone quality (first stage: percutaneous placement of screws; second stage: placement of dynamic rods and correction of spinal SCI 4-6 months after the first stage). One-stage dynamic spinal instrumentation was applied to 20 of 25 patients with spinal SCI, and 2-stage dynamic spinal instrumentation was applied to the remaining 5 patients. Results: Spinal SCI was corrected with these stabilization systems. At 2-year follow-up, no significant loss was observed in the instrumentation system, while no significant loss of correction was observed in sagittal and coronal deformities. Conclusion: In adult patients with spinal SCI, single or 2-stage dynamic stabilization is a viable alternative to fusion surgery due to the very low rate of instrument failure. Clinical Relevance: This study questions the use of dynamic stabilization systems for the treatment of adult degenerative deformities. [ABSTRACT FROM AUTHOR]

Published

2024

50. Comparison of Neck Pain and Posture with Spine Angle Tracking System between Static and Dynamic Computer Monitor Use.

Author

Kim, Hayoung, Won, Young Il, Kang, Soohee, Choi, Yunhee, Park, Jin Ho, Lee, Jongshill, Kim, In Young, and Chung, Chun Kee

Subjects

NECK pain, SPINAL curvatures, SPINE, INTRACLASS correlation, POSTURE, COMPUTER monitors

Abstract

This study investigates the effect of dynamic changes in monitor height and tilt on neck pain and posture of computer users. Using a wearable device, we aim to compare neck pain and spine angle between static and dynamic monitors. A spine angle tracking system using the Inertial Measurement Unit (IMU) was proposed, and the accuracy was validated. Eight office workers participated for five hours over two days, and each day used either a static monitor or a dynamic monitor that changed height and tilt every 30 min. The angles of C0, C7, L1, and S1 endplates were estimated using the proposed system. Changes in neck pain and spine angle with time were compared in static and dynamic monitors. The intraclass correlation coefficient confirmed a high concordance between the estimated and actual angles (p < 0.001). Rehabilitation Bioengineering Group (RBG) score increased less in the dynamic monitor compared to the static monitor (p = 0.003). Spinal curvatures are bent in the static monitor compared to the dynamic monitor. The estimated angles aligned well with X-ray measurements. A dynamic monitor that changes height and tilt at regular intervals may reduce neck pain increase and reduce bend forward posture compared to a static monitor. [ABSTRACT FROM AUTHOR]

Published

2024