Application of a biomechanical finite element spine model to the vicious cycle scoliosis growth theory evaluation of improved FEA geometry and materials assignment /

Fok, Jonathan Winfield.

January 2009

Thesis (M.Sc.)--University of Alberta, 2009. / Title from pdf file main screen (viewed on August 13, 2009). "A thesis submitted to the Faculty of Graduate Studies and Research in partial fulfillment of the requirements for the degree of Master of Science, Department of Mechanical Engineering , University of Alberta." Includes bibliographical references.

A Proposal for a Best-Practice Protocol for the Management of Patients with Suspected Cervical Spine Injury

Cross, Kasey, Cross, Kasey

January 2017

Background: Research suggests that cervical spine CT examination is over used for potential injury due to blunt trauma. Education of emergency providers regarding evidence-based guidelines can help reduce the over-use of CT examination, and the development of an evidence-based protocol for the management of patients with suspected cervical spine trauma may help promote more appropriate clinical use of radiologic imaging for cervical spine clearance. Purpose: The ultimate goal of this project is to develop a best-practice, evidence-based protocol for the management of patients with suspected cervical spine injury, in order to promote safe and efficient clinical clearance, as well as promote judicious and appropriate use of diagnostic imaging for suspected cervical spine injury. Methods: A retrospective chart review of emergency radiographic imaging studies obtained over a three-month timeframe for suspected cervical spine injury at a 300-bed hospital in Tucson, Arizona was performed to compare ordering practices with the ACR-AC. Descriptive statistics were used for data analysis. A web-based survey was conducted of facility stakeholders including emergency physicians, nurse practitioners and physician assistants regarding their views about clinical guidelines and protocols for radiographic and clinical clearance of cervical spine injury. Descriptive statistics and thematic analysis was used for survey responses. Results: Analysis of 263 imaging studies over a three-month timeframe demonstrated that 24.3% of cervical spine imaging studies obtained in three-month timeframe would be considered not appropriate based on the ACR-AC. The survey of emergency clinicians revealed that none of those who responded have a preference for referring to the ACR appropriateness criteria, and the majority of respondents did not support the implementation of a hospital protocol for the management of patients with suspected cervical spine trauma. Recommendations: An institutional protocol for suspected cervical spine injury developed from the ACR-AC with incorporation of clinical clearance criteria is recommended. To promote clinician acceptance, overcome resistance to implementation, and promote individualized patient care, the protocol should also include provider education and should allow for variance based on individual patient circumstances.

ACR

Cervical spine injury

cervical spine trauma

emergency medicine

hospital protocols

Fyziologické pohyby páteře při lokomoci / Physiological movements of the spine during locomotion

Dvořák, Jan

January 2021

Bibliographical record DVOŘÁK, J. Physiological movements of the spine during locomotion. Prague: Charles University, 2nd Faculty of Medicine, Department of Rehabilitation and Sports Medicine 2021. 75 p. Thesis supervisor PhDr. Marcela Šafářová, Ph.D. Abstract The diploma thesis Physiological movements of the spine during locomotion deals with the relationship between locomotion, spatiotemporal properties of gait and spinal movements. The theoretical part of the work summarizes the knowledge about the phylogenetic and ontogenetic development of the spine. The paper discusses the influences that affect the motility of the spine from intrauterine development to old age. The main part of the theoretical part is devoted to an overview of studies examining the movements of the spine during human locomotion. The experimental part was performed by testing a group of younger (24.6 ± 3.6 years) and older adults (43.5 ± 4.6 years). Both groups consisted of 8 women and 8 men. A total of 32 volunteers were tested. Otto's spine distance, thoracic spine rotation, 95% COP standing, and spatiotemporal gait data were measured using a Zebris Rehawalk FDM-T. Thereafter, therapy was applied to the chest to affect the dynamics of movement. Finally, control measurements of all olunteers were performed. Statistical data...

Carrying and Loading of the Spine

Rose, Joseph D.

January 2012

No description available.

Industrial Engineering

carrying

spine loading

spine injury

biomechanics

manual materals handling

backpack

luggage

In-vitro Biomechanical Evaluation of Multiple Freeze-Thaw Cycles on 3D Kinematics of Human Cadaveric Lumbar Spine

Uppuganti, Sasidhar

26 August 2010

No description available.

Biomedical Research

Design

Engineering

Experiments

Mechanics

Statistics

Lumbar Spine

In-Vitro Testing

Biomechanics

Orthopaedic Biomechanics

Spine Kinematics

Stability imparted by a posterior lumbar interbody fusion cage following surgery – A biomechanical evaluation

Sasidhar, Vadapalli

31 August 2004

No description available.

Engineering, Biomedical

Spine

Lumbar Spine

Fusion

Cage

Spacer

Interbody fusion

Disc degeneration

Vertebrae

Risk factors for spinal surgical site infection.

Boston, Kelley M. Roberts, Robert E. Murray, Kristy O. Boerwinkle, Eric,

January 2007

Source: Masters Abstracts International, Volume: 46-03, page: 1492. Adviser: Robert E. Roberts. Includes bibliographical references.

The period prevalence of congenital cervical spine anomalies and the association between the congenital anomalies with the subject's presenting clinical features

Ganasram, Anesha

January 2006

Thesis (M.Tech.: - Chiropractic)-Dept. of Chiropractic, Durban Institute of Technology, 2006 xiii, 75 leaves, Annexures 1-2 / This research study was designed in the form of a quantitative, non-experimental, empirical clinical survey. Objectives: 1) To determine the period prevalence (1 January 1997 – 31 December 2004) of congenital cervical spine anomalies. 2) To determine if there is any association between the presenting clinical features and the congenital cervical spine anomalies in general. 3) To determine if there is any association between the presenting clinical features and individual congenital cervical spine anomalies. 4) To compare subjects presenting clinical features with reported clinical features from literature.

Chiropratic

Spine--Chiropractic treatment

Abnormalities, Human

Chiropractic--Dissertations, Academic

The effect of various pillow types on cervico-thoracic and forward head posture in young adults

Karim, Yumna

13 June 2014

Submitted in partial compliance with the requirements for the Master’s Degree in Technology: Chiropractic, Durban University of Technology, 2014. / Correct neck support is required during sleep to align the spine and maintain neutral posture, and to immobilise the joints in the neck which would allow the cervical paraspinal muscles to relax (De Laittre, 1974; Ambrogio et al., 1998; Erfanian et al., 1998). Poor spinal posture during sleep however, has been hypothesized to result in lateral bending and uneven loading on the intervertebral discs and cervical facet joints, and compression of pain-sensitive structures in the neck (Leilnahari et al., 2011). The pillow is a significant contributing factor to sleep quality and the development of symptoms on waking (Gordon et al., 2011). This should theoretically reduce pressure on the pain-sensitive structures and allow the intervertebral discs to be unloaded and rehydrated (Leilnahari et al., 2011). Aim: To determine and compare the effect of the Simmons’ Beautyrest pillow, a polyester foam pillow, a latex pillow, and no pillow, on cervico-thoracic and forward head posture in the supine and recumbent supine positions in asymptomatic individuals. Methods: Forty asymptomatic subjects between the ages of 20 and 30 years were recruited using convenience sampling. The study was a double-blinded comparative investigation where all participants underwent a case history, physical examination and an orthopaedic examination of the cervical spine. Thereafter, digital photographic images of the participants lying without a pillow and on three different pillows (Simmons Beautyrest® pillow, a polyester foam pillow and a latex pillow) in the supine and recumbent positions were captured. These images were then uploaded onto a computer, and using the linear co-ordinates of each anatomical landmark (which was determined by the researcher using CorelDraw Graphics Suite 12), the cervico-thoracic and craniocervical postures were determined. The cervico-thoracic posture was determined by calculating the gradients of the intersegmental slopes, relative to the horizontal plane, using the formula (y2 − y1)/(x2 − x1). The craniocervical posture was determined by calculating the craniocervical angle. This angle was determined by constructing lines between the anatomical landmarks and measuring the angle produced at C7. At the end of the objective data collection, participants were asked verbally which pillow they found most comfortable. All data was collected by the researcher. Statistical analysis was done using IBM SPSS version 21.0. Repeated measures ANOVA test was used to compare the mean slope measurements in the four conditions. Inferential techniques included Wilcoxon Signed-Rank test and t-tests. A p-value of < 0.05 indicated statistical significance. iv Results: The mean (± SD) age of the participants was 24.3 (± 2.57) years. In terms of pillow preference, 15 participants preferred the latex pillow, 8 preferred the polyester pillow and 17 preferred the Simmons Beautyrest® pillow. In the recumbent position for the C2-EOP slope the latex and Simmons Beautyrest® pillows supported the neck in a similar manner (p= 0.480) and closer to neutral than no pillow and the latex pillow. For the C4-C2 and the C7-C4 slopes, the latex pillow produced the least extreme slope. For the T3-C7 slope, the polyester pillow produced the slope closest to neutral. Overall, for the entire cervical spine, the latex pillow produced the least extreme slopes, but at the cervico-thoracic junction, the polyester pillow produced the most neutral slope. In all segments, the condition without a pillow produced the most extreme slopes. When comparing the slopes themselves, it can be seen that the most extreme deviations from neutral occurred at the C2-EOP segment. The midcervical spine deviated least from neutral. In the supine position, there were no significant differences (p> 0.05) in the sagittal angular displacement between the pillows. Conclusion: The results of this study support the view that there is no one particular pillow that is better than the others for providing optimal support to the head and neck. Furthermore, practitioners should be aware that it is the craniocervical and cervico-thoracic slopes, which are determined with the patient in the recumbent position, that provide significant information regarding support provided by the pillow rather than the sagittal angular displacement assessed in the supine position. / Durban University of Technology

Chiropractic

Pillows--Evaluation

Spine--Abnormalities

Sleep positions

Young adults

Progressive Disc Herniation: An investigation of the mechanism using histochemical and microscopic techniques

Tampier, Claudio

January 2006

Abstract Background: The process that involves the migration of the nucleus pulposus from the innermost annular layers and culminates with the final extrusion of the nucleus has been limited to a few studies. This investigation was directed towards a better understanding of the herniation process. The architecture of the annulus fibrosus and the mechanism of progressive disc herniation were analyzed, using a controlled porcine model. Microscopic and histochemical techniques were employed. <br /><br /> Methodology: Two studies were performed. In the first stage, the macroscopic and microscopic structures of twelve cervical intervertebral discs were compared with young human disc data from studies reported in the literature. Important structural features were studied such as annulus fibrosus thickness, number of lamellae, lamellae thickness, orientation of the lamellae fibers and blood supply. In the second study, sixteen fresh-frozen functional spine units were submitted to repetitive flexion?extension motions combined with a low compressive load in a servo-hydraulic dynamic testing system. Discograms, dissections and histochemical techniques were applied to characterize the cumulative damage. The experiment produced eight complete herniations, four partial herniations and four specimens without any microscopic detectable annular damage. <br /><br /> Results and Discussion: The structure of the cervical porcine disc resembles the lumbar human disc. Some differences are evident. The size of the annulus is smaller, the thickness of the lamellae is narrower and the number of layers is fewer in the pig. It is hypothesized that the flexion-extension motion combined with a low-level load produced an increased hydraulic pressure in the inner wall of the posterior annulus. This pressure and repetitive motion first produced a small cleft, spreading the collagen bundles inside the first layer. The nuclear material was "pumped" through the small cleft to the first layer filling the layer creating a fluid-filled pocket between the collagen fibers. Once the "pocket" acquired enough pressure a new cleft was produced in the weakest part of the layer allowing the nuclear material to create a new "pocket" in the second layer. This was the first stage of damage and disc herniation production. This mechanism was repeated until the nucleus traveled along the annulus reaching the posterior longitudinal ligament. At this point a complete extrusion herniation was produced. <br /><br /> Conclusion: The porcine model appears to be suitable as a model to understand the mechanism of disc herniation when the spine is subjected to flexion-extension motions combined with a low-level load. The first cumulative injury appears to be a cleft between the lamellae bundles produced by the nuclear hydraulic pressure. A cumulative load/cumulative injury model approach was used to create the damage that was quantified in the study.

Kinesiology and Sport

Intervertebral Disc

Disc herniation

Spine

Disc structure