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41	THROMBOPROPHYLAXIS IN PATIENTS WITH ACUTE SPINAL CORD INJURY Piran, Siavash January 2018 (has links) Patients with acute spinal cord injury (SCI) have a high risk of venous thromboembolism (VTE) despite receiving thromboprophylaxis. The current standard of care recommended by guidelines is to use low-molecular-weight heparin (LMWH) for thromboprophylaxis for 90 days. This entails once- or twice-daily subcutaneous injections of LMWH for this duration, which is inconvenient for the patients and only partially effective. There are uncertainties about risk factors and the true incidence of SCI-associated VTE, the optimal time to commence thromboprophylaxis, and the optimal duration of thromboprophylaxis. Furthermore, there are currently no studies on the use of direct oral anticoagulants (DOACs) for thromboprophylaxis in patients with SCI. The use of DOACs for prophylaxis in this group can eliminate the inconvenience associated with daily subcutaneous injections for 3 months. To examine the incidence and risk factors of SCI-associated VTE, we performed a retrospective chart review of consecutive adult patients with acute SCI admitted to Hamilton General hospital from 2009 to 2015. The incidence of symptomatic VTE despite the use of thromboprophylaxis was 11% within 90 days of acute SCI; age and presence of other sites of injuries (such as lower limb fractures or pelvic fractures) along with SCI were independent risk factors for symptomatic VTE. To determine the opinion of Canadian spine surgeons about the optimal timing of starting LMWH after acute SCI, a short 5-question electronic survey was sent to the Canadian Spine Society. Data from our survey showed that the understanding about thromboprophylaxis after acute SCI was variable and that most spine surgeons were comfortable with starting LMWH after consultation with the surgeon. Future studies should focus on educational strategies to improve the knowledge base in this area. We will perform a pilot study at the Hamilton General Hospital comparing apixaban versus LMWH for thromboprophylaxis in patients with acute SCI. The use of apixaban for this indication can contribute to cost savings for the healthcare system and increased convenience for the patient. The protocol for the pilot study as well as steps towards a multi-center randomized controlled trial will be detailed in this thesis. / Thesis / Master of Science (MSc)
42	Understanding autonomic alterations after spinal cord injury Burns, Kathryn Renee 31 October 2024 (has links) Purpose To characterize differences in autonomic cardiovascular regulation after spinal cord injury compared to people without spinal cord injury through objective laboratory and subjective survey data, and to determine the component contribution of group III and group IV muscle afferents to overall autonomic integrity after spinal cord injury. Methods Individuals with spinal cord injury (n = 36), aged 18 years or older, and similarly age and gender matched individuals without spinal cord injury (n = 44) completed the Autonomic Dysfunction After Spinal Cord Injury (ADFSCI) survey. To test physiologic responses to a well-characterized, autonomic test as well as pilot another objective test, seven individuals with spinal cord injury and 10 individuals from the uninjured control group then completed further laboratory testing, including Valsalva maneuvers and ischemic hand grip. Results Individuals with spinal cord injury had neurological levels of injury C3-T12 and injuries graded A-D on the American Spinal Injury Association Impairment Scale (AIS). Individuals with spinal cord injury scored significantly higher by endorsing more daily symptoms of autonomic dysfunction on the ADFSCI survey compared to their uninjured peers (W = 272, p < 0.0001). However, in the group with spinal cord injury, higher ADFSCI scores were only weakly positively correlated with higher neurological level injury (R = 0.37, n = 36, p = 0.03) and more complete (AIS A or B) injury (R = 0.46, p = 0.01). Furthermore, the subgroup with spinal cord injury (n = 7) who completed laboratory testing displayed significantly altered blood pressure response during late phase II of the Valsalva maneuver compared to controls (p = 0.02). The same group of individuals with spinal cord injury also demonstrated a significantly lower maximal diastolic blood pressure in response to ischemic hand grip when compared to the control group (p = 0.04). Conclusion Self-reported daily symptoms of autonomic dysfunction are markedly higher after spinal cord injury. However, the relationship between these symptoms and neurological level of injury and AIS are only weakly correlated. This nonlinear relationship between ADFSCI scores and clinical injury characteristics emphasizes the need for further characterization of autonomic integrity. Physiologic laboratory tests more completely capture these alterations after spinal cord injury and point to developing bedside exams. / 2026-10-30T00:00:00Z Physiology Autonomic nervous system Spinal cord injury
43	The Impact of Manual-assisted Locomotor Training on Walking Ability and Sensory and Motor Scores in Chronic Motor Incomplete Spinal Cord Injury Buehner, Jeffrey J. 16 December 2010 (has links) No description available. Rehabilitation incomplete spinal cord injury SCI iSCI locomotor training chronic spinal cord injury walking capacity
44	A nurse-coached exercise intervention to increase muscle strength, improve quality of life, and increase self-efficacy in people with tetraplegic spinal cord injuries: A single subject design study Sheehy, Susan Budassi January 2010 (has links) Thesis advisor: Mary E. Duffy / Ten people with tetraplegic spinal cord injuries participated in a nurse-coached exercise intervention/single subject design study over a period of six months. Four pieces of exercise equipment were used: the RT300S Functional Electrical Stimulation Bike, the VIta Glide, the NuStep TRS 4000, and the Easy Stand Evolv Glider. Measurement of variables of the Manual Muscle Test (MMT), Catz-Itzkovich Spinal Cord Independence Measures (CI-SCIM), and Moorong Self-Efficacy Scale (MSES) were collected at baseline, at three months into the exercise intervention, and at six months (at the conclusion of the intervention). Results were determined by visual analysis of graphs, in keeping with single subject design methods, and statistical analysis of combined data. Of those muscles that demonstrated some strength at baseline, 75% experienced increased strength at three and/or six months into the intervention. Of those muscles that demonstrated no strength at baseline and that were adjacent to muscles that demonstrated some strength at baseline, 66% were found to have increased strength at three and/or six months. Nine of ten participants experienced upward trends in CI-SCIM scores overall (p<.0001). The results of the subscales of Self-Care (p<.0001) and Mobility (p<.0001) indicated statistically significant changes over time. The subscale Respiratory and Sphincter Management was not statistically significant (p>.05). Visual analysis of graphs demonstrated that each of ten participants experienced strong improvements in self-efficacy scores from baseline to three months and from three months to six months into the intervention. R-ANOVA (p<.0001) confirmed statistical significance across ten participants. The Sheehy Spinal Cord Injury Functional Improvement Via Exercise (SCI-FIVE) Model was constructed prior to the study and validated throughout the course of the study. The results of the study validated all components of the Model and demonstrated increased muscle strength, increased self-efficacy, and improved quality of life for the ten study participants who participated in a nurse-coached exercise intervention for people with tetraplegic spinal cord injuries. / Thesis (PhD) — Boston College, 2010. / Submitted to: Boston College. Connell School of Nursing. / Discipline: Nursing. Muscle Strength Nurse-Coached Exercise Intervention Sheehy SCI-FIVE Model Spinal Cord Injury & Exercise Spinal Cord Injury & Quality of Life Spinal Cord Injury & Self-Efficacy
45	The Relationships of Locus of Control, Service Connection, and Time Since Injury with Depression and Quality of Life for Veterans with Spinal Cord Injury Bermudez, Silvia Patricia 01 January 2008 (has links) Within recent literature, internal locus of control (LOC) has been correlated with self-efficacy and improved coping after injury. Service connection (SC) has been linked to well-being after trauma. Level of injury has been associated with physical ability and limitations. This study examines how depression and QOL are associated with LOC and SC for veterans diagnosed with spinal cord injury (SCI). It was hypothesized that internal LOC and SC would correlate with higher QOL and decreased depression. Participants included 58 veterans, 30 diagnosed with paraplegia and 28 with quadriplegia. Measures included a demographics questionnaire, the Rotter's Internal-External Scale of LOC, the Diener's Satisfaction with Life Scale, and the Center for Epidemiological Studies - Depression Scale. Medical records were reviewed for SC. Generalized linear model regressions were run using LOC, SC and level of injury to estimate QOL and depression. Locus of control was a significant predictor of QOL, F=2.961, p=.045, while SC approached significance at F=2.082, p=.077. Locus of control approached significance as a predictor for depression, F=1.977, p=.083 level. Level of injury was not a significant factor for either outcome variable. Follow-up analyses including time since injury (TSI) indicated that the interaction of LOC and TSI was a significant predictor for QOL, F=5.320, p=0.013, and the interaction of SC and TSI was a significant predictor for depression, F=9.800, p=0.002. A significant correlation was found between depression and QOL, r=-.472, p=.000. A significant correlation was found between LOC and TSI, r=-.277, p=.018. Results indicate that internal LOC, SC, and increased TSI are positively associated with improved QOL and lower depression. The negative correlation between LOC and TSI indicates that LOC may be a mutable personality factor that adjusts from being external to internal to improve coping after disability, or those with an internal LOC are more consistent with treatment over time. The negative correlation between depression and QOL indicates that participants endorsing depression perceive having a lower QOL. These findings have important implications for health psychology, as they indicate that increasing internal LOC and access to health care over time can promote lower depression and higher QOL for SCI patients. depression locus of control quality of life Spinal cord injury Psychology
46	The Role of Fas-mMediated Apoptosis in the Pathophysiology of Acute Traumatic Spinal Cord Injury Steele, Sherri Lynne 23 February 2010 (has links) Spinal cord injury (SCI) is a debilitating condition accompanied by motor and sensory deficits and a reduced quality of life. Current treatment options are limited and are associated with variable efficacy and a risk of adverse effects. The pathophysiology of SCI is initiated by a primary mechanical insult to the spinal cord, followed by a complex series of deleterious events known as secondary injury. Secondary injury processes include free radical formation, glutamate excitotoxicity, inflammation and cell death. Apoptotic cell death in particular plays a key role in the secondary injury processes and exacerbates tissue degradation and loss of function. The role of Fas-mediated apoptosis in SCI pathophysiology is poorly defined in the literature to date. Correlative evidence suggests that this form of cell death is delayed and occurs in white matter adjacent to sites of primary damage. The cellular and temporal mechanisms of Fas-mediated apoptosis following experimental SCI were evaluated using a clinically relevant clip compression SCI model in the rat. Furthermore, therapeutic manipulation of Fas activation using a soluble form of the Fas receptor (sFasR) was carried out to establish the efficacy and clinical relevance of targeting this aspect of secondary injury. This work shows that Fas-mediated apoptosis is an important contributor to secondary SCI pathology. Oligodendrocytes are targeted by this form of cell death in a delayed fashion post-injury, providing an opportunity for therapeutic intervention. Intrathecal administration of sFasR following SCI reduced post-traumatic apoptosis, improved cell survival, enhanced tissue preservation and resulted in an improved motor recovery. Administration of sFasR was effectively delayed by up to 24 hours post-injury, however a shorter delay of 8 hours post-injury was most efficacious. A surprising result emerged from this work. Delayed intrathecal administration of IgG following SCI showed significant efficacy in both cellular and tissue level outcomes, as well as at the functional level. Fas-mediated apoptosis is an important aspect of secondary SCI pathophysiology and is an attractive therapeutic target. The beneficial outcomes of manipulating Fas activation using sFasR provide further evidence for this. Future work will refine this treatment strategy, bringing it into the SCI patient population. spinal cord injury apoptosis Fas receptor neuroprotection 0317 0564
47	Assessing the Role of Polyethylene Glycol (PEG) in Improving Functional Recovery Following Spinal Cord Injury Dalton, Dustin 13 July 2011 (has links) Injury to the spinal cord results in the disruption of signal transmission between the brain and distal targets. It often presents with the loss of motor function and sensory perception below the level of injury. There are many obstacles following injury that must be overcome in order to encourage axon regeneration and improve functional recovery. A combinatorial approach is necessary to combat physical and chemical barriers to recovery. The fluid filled cyst that forms in the majority of spinal cord injuries presents a physical barrier that we treat with our electrospun bridges. We implanted our bridges into female Long Evans Hooded rats following a complete transection. Using a molecular fusogen, polyethylene glycol, known to seal damaged membranes in conjunction with our bridges, we were able to increase functional recovery compared to animals treated with a bridge and saline. In Chapter 1, we introduce spinal cord anatomy, the pathological classifications, axon pathology, and our therapeutic strategy. Chapter 2 details the materials and methods. Chapter 3 examines previous uses of polyethylene glycol as a molecular fusogen, previous studies utilizing it in spinal cord injury, and our strategy of fusing damaged axons to improve functional recovery. Finally in Chapter 4, I discuss our behavioral results, compare histology, and detail the future of our research including protocol improvements and future combination therapies that include PEG to improve outcome. Spinal Cord Injury Anatomy Medicine and Health Sciences Nervous System
48	Angiogenesis in Response to Varying Fiber Size in an Electrospun Scaffold In Vivo. Brown, Damien 09 July 2012 (has links) Injury to the spinal cord results in partial or complete loss of sensory perception and motor function. After spinal cord injury (SCI), damaged tissue dies and a cavity will form. This cavity prevents the regeneration of tissue and any functional recovery. One way to address the cavity is the insertion of an electrospun scaffold that our lab has created. This provides a substrate for regenerating tissue to grow on, and it is thought that reestablishing the blood supply within the scaffold will allow cells necessary for regeneration to thrive. This could ultimately lead to meaningful recovery for patients who have suffered SCI. Full spinal cord transections were performed on rats, and the scaffolds were inserted into the lesion site. Two different types of scaffold were tested to see if altering the fiber size in the scaffolds produced more blood vessels, and ultimately better regeneration of tissue. Angiogenesis Spinal cord injury Anatomy Medicine and Health Sciences Nervous System
49	Epidemiology of and challenges experienced by individuals surviving a traumatic spinal cord injury with community reintegration in Tanzania Swai, Joseph January 2018 (has links) Magister Scientiae (Physiotherapy) - MSc(Physio) / A traumatic spinal cord injury (TSCI) often occurs unexpectedly and causes considerable disability. This condition requires specialized care that is delivered in a time sensitive manner. Data on the incidence, causes, mortality and injury characteristics of TSCI are important for gauging demand for health care and social support services. Unfortunately data on the incidence and causes, as well as functioning such as participation and integration into society, of TSCI are sparse in developing countries such as Tanzania. The overall aim of this study is to determine the incidence, causes, mortality and injury characteristics of TSCI, and to explore the challenges experienced with community reintegration after injury in Tanzania. Both quantitative and qualitative research paradigms were used. The quantitative phase of the study was conducted at Kilimanjaro Christian Medical Centre (KCMC), a referral and teaching hospital in northern Tanzania. The study population was all patients admitted to KCMC with a TSCI from 1 January 2011 to 31 December 2015 (five year period). Quantitative data were collected retrospectively using a data extraction sheet designed by the International Spinal Cord Society which consisted of the following sections: participants’ characteristics (for example age, gender, duration of hospital stay, causes of injury and vertebral injuries) and injury characteristics (location of injury and completeness of injury). Differences between groups (stratified by year) was analysed using both descriptive and inferential statistics. The population for the qualitative phase was based on those included in the quantitative phase. Purposive sampling was used to select adults (over the age of 18 years) with TSCI who were managed at KCMC. Qualitative data were collected by means of individual, semi-structured interviews, and lasted until theoretical saturation was achieved. Thematic analysis was used to derive themes (categories) explaining the latent perceptions of community reintegration and its influences. Spinal cord injury Period prevalence Community reintegration Tanzania Rehabilitation
50	Designing a community reintegration programme for individuals with a traumatic spinal cord injury in the Cape Metropolitan area Nizeyimana, Eugene January 2018 (has links) Philosophiae Doctor - PhD / Spinal cord injury (SCI) is a devastating condition often affecting young and healthy individuals around the world. This debilitating condition not only creates enormous physical and emotional suffering to individuals but also is a significant financial burden to families and society at large and it affects quality of life. Successful community reintegration following spinal cord injury is considered an important goal of rehabilitation as this has been positively associated with self-esteem, life satisfaction and quality of life. The overall aim of the study was to design a community reintegration programme for individuals who sustained a traumatic spinal cord injury (TSCI) in the Cape Metropolitan Area. The design of this study was a mixed method design including four phases. The first phase of the study was to determine the base line information regarding reintegration into communities after sustaining a TSCI and included 108 participants. Data was collected by use of self-administered/interview administered questionnaire. The results of this phase demonstrated that community reintegration of individuals who sustained a traumatic spinal cord injury was relatively low and employment was found to be a statistically significant variable influencing community reintegration following the injury. The second phase of the study aimed to gain a deeper understanding of how employment and other factors influence reintegration into communities after the injury. Spinal cord injury (SCI) Reintegration Cape Metropolitan Community reintegration Rehabilitation

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