Дисертації з теми "Bones Pathophysiology"
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Anderson, Paul Hamill. "The regulation of Vitamin D metabolism in the kidney and bone." Title page, contents and abstract only, 2002. http://web4.library.adelaide.edu.au/theses/09PH/09pha5486.pdf.
Повний текст джерелаHuang, C. C. "Pathophysiology of post-transplantation bone disease : mechanisms of bone loss after orthotopic liver transplantation." Thesis, University of Cambridge, 1997. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.604707.
Повний текст джерелаChapurlat, Roland, Deborah Gensburger, Juan Jimenez-Andrade, Joseph Ghilardi, Marilyn Kelly, and Patrick Mantyh. "Pathophysiology and medical treatment of pain in fibrous dysplasia of bone." BioMed Central, 2012. http://hdl.handle.net/10150/610228.
Повний текст джерелаBorazjani, Ali. "Pathophysiology of Pelvic Organ Prolapse." Cleveland State University / OhioLINK, 2015. http://rave.ohiolink.edu/etdc/view?acc_num=csu1432745397.
Повний текст джерелаIsmail, Medhat Mohamed. "Pathophysiology and therapy of bone marrow failure : studies of apoptosis and stem cell transplantation." Thesis, St George's, University of London, 2002. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.269742.
Повний текст джерелаElkin, Sarah Louise. "The pathogenesis and pathophysiology of low bone mineral density in adults with cystic fibrosis." Thesis, Imperial College London, 2005. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.422707.
Повний текст джерелаEdwards, Sarah. "Investigating the role of a novel ER molecular chaperone : Creld2 in the physiology and pathophysiology of endochondral bone growth." Thesis, University of Manchester, 2015. https://www.research.manchester.ac.uk/portal/en/theses/investigating-the-role-of-a-novel-er-molecular-chaperone-creld2-in-the-physiology-and-pathophysiology-of-endochondral-bone-growth(6fd49909-beec-42d1-a546-8b2411616e59).html.
Повний текст джерелаDavies, Matthew Rhys. "The role of bone morphogenetic protein 7 in the pathophysiology and treatment of vascular calcification associated with chronic renal failure." Thesis, University College London (University of London), 2006. http://discovery.ucl.ac.uk/1444711/.
Повний текст джерелаHo, Ken Choong Khoon School of Medicine UNSW. "Characterization of critical size sheep cranial defect model for study of bone graft substitute." 2007. http://handle.unsw.edu.au/1959.4/40499.
Повний текст джерелаDodge, Todd Randall. "Experimental and Computational Analysis of Dynamic Loading for Bone Formation." Thesis, 2013. http://hdl.handle.net/1805/3670.
Повний текст джерелаBone is a dynamic tissue that is constantly remodeling to repair damage and strengthen regions exposed to loads during everyday activities. However, certain conditions, including long-term unloading of the skeleton, hormonal imbalances, and aging can disrupt the normal bone remodeling cycle and lead to low bone mass and osteoporosis, increasing risk of fracture. While numerous treatments for low bone mass have been devised, dynamic mechanical loading modalities, such as axial loading of long bones and lateral loading of joints, have recently been examined as potential methods of stimulating bone formation. The effectiveness of mechanical loading in strengthening bone is dependent both on the structural and geometric characteristics of the bone and the properties of the applied load. For instance, curvature in the structure of a bone causes bending and increased strain in response to an axial load, which may contribute to increased bone formation. In addition, frequency of the applied load has been determined to impact the degree of new bone formation; however, the mechanism behind this relationship remains unknown. In this thesis, the application of mechanical loading to treat osteoporotic conditions is examined and two questions are addressed: What role does the structural geometry of bone play in the mechanical damping of forces applied during loading? Does mechanical resonance enhance geometric effects, leading to localized areas of elevated bone formation dependent on loading frequency? Curvature in the structure of bone was hypothesized to enhance its damping ability and lead to increased bone formation through bending. In addition, loading at frequencies near the resonant frequencies of bone was predicted to cause increased bone formation, specifically in areas that experienced high principal strains due to localized displacements during resonant vibration. To test the hypothesis, mechanical loading experiments and simulations using finite element (FE) analysis were conducted to characterize the dynamic properties of bone. Results demonstrate that while surrounding joints contribute to the greatest portion of the damping capacity of the lower limb, bone absorbs a significant amount of energy through curvature-driven bending. In addition, results show that enhanced mechanical responses at loading frequencies near the resonant frequencies of bone may lead to increased bone formation in areas that experience the greatest principal strain during vibration. These findings demonstrate the potential therapeutic effects of mechanical loading in preventing costly osteoporotic fractures, and explore characteristics of bone that may lead to optimization of mechanical loading techniques. Further investigation of biomechanical properties of bone may lead to the prescribing of personalized mechanical loading treatments to treat osteoporotic diseases.
Weatherholt, Alyssa Marie. "Translational studies into the effects of exercise on estimated bone strength." 2015. http://hdl.handle.net/1805/8027.
Повний текст джерелаMechanical loading associated with exercise is known to benefit bone health; however, most studies explore exercise benefits on bone mass independent of bone structure and strength. The purpose of this dissertation is to explore the response of the skeleton to exercise across the translational divide between animal- and human-based studies, with a particular emphasis on exercise-induced changes in bone structure and estimated strength. To explore the skeletal benefits of exercise, models were used wherein loading is introduced unilaterally to one extremity. Unilateral exercise enables the contralateral, non-exercised extremity to be used as an internal control site for the influences of systemic factors, such as genetics and circulating hormones. In study 1, a dose response between load magnitude and tibial midshaft cortical bone adaptation was observed in mice that had their right tibia loaded in axial compression at one of three load magnitudes for 3 d/wk over 4 weeks. In study 2, the ability of peripheral quantitative computed tomography to provide very good prediction of midshaft humerus mechanical properties with good short-term precision in human subjects was demonstrated. In study 3, collegiate-level jumping (long and/or high jump) athletes were shown to have larger side-to-side differences in tibial midshaft structure and estimated strength between their jump and lead legs than observed in non-jumping athletes. In study 4, prepubertal baseball players followed for 12 months were shown to gain more bone mass, structure and estimated strength in their throwing arm relative to their nonthrowing arm over the course of 12 months. These cumulative data using a combination of experimental models ranging from animal to cross-sectional and longitudinal human models demonstrate the ability of the skeleton to adapt its structure and estimated strength to the mechanical loading associated with exercise. Study of these models in future work may aid in optimizing skeletal responses to exercise.
Rhodes, Steven David. "Dissecting the cellular and molecular mechanisms mediating neurofibromatosis type 1 related bone defects." Thesis, 2014. http://hdl.handle.net/1805/3793.
Повний текст джерелаSkeletal manifestations including short stature, osteoporosis, kyphoscoliosis, and tibial dysplasia cumulatively affect approximately 70% of patients with neurofibromatosis type 1 (NF1). Tibial pseudarthrosis, the chronic non-union of a spontaneous fracture, is a debilitating skeletal malady affecting young children with NF1. These non-healing fractures respond poorly to treatment and often require amputation of the affected limb due to limited understanding of the causative mechanisms. To better understand the cellular and molecular pathogenesis of these osseous defects, we have established a new mouse model which recapitulates a spectrum of skeletal pathologies frequently observed in patients with NF1. Nf1flox/-;Col2.3Cre mice, harboring Nf1 nullizygous osteoblasts on a Nf1+/- background, exhibit multiple osseous defects which are closely reminiscent of those found in NF1 patients, including runting (short stature), bone mass deficits, spinal deformities, and tibial fracture non-union. Through adoptive bone marrow transfer studies, we have demonstrated that the Nf1 haploinsufficient hematopoietic system pivotally mediates the pathogenesis of bone loss and fracture non-union in Nf1flox/-;Col2.3Cre mice. By genetic ablation of a single Nf1 allele in early myeloid development, under the control of LysMCre, we have further delineated that Nf1 haploinsufficient myeloid progenitors and osteoclasts are the culprit lineages mediating accelerated bone loss. Interestingly, conditional Nf1 haploinsufficiency in mature osteoclasts, induced by CtskCre, was insufficient to trigger enhanced lytic activity. These data provide direct genetic evidence for Nf1’s temporal significance as a gatekeeper of the osteoclast progenitor pool in primitive myelopoiesis. On the molecular level, we found that transforming growth factor-beta1 (TGF-β1), a primary mediator in the spatiotemporal coupling of bone remodeling, is pathologically overexpressed by five- to six- fold in both NF1 patients and in mice. Nf1 deficient osteoblasts, the principal source of TGF-β1 in the bone matrix, overexpress TGF-β1 in a gene dosage dependent fashion. Moreover, p21Ras dependent hyperactivation of the Smad pathway accentuates responses to pathological TGF-β1 signals in Nf1 deficient bone cells. As a proof of concept, we demonstrate that pharmacologic TβRI kinase inhibition can rescue bone mass defects and prevent tibial fracture non-union in Nf1flox/-;Col2.3Cre mice, suggesting that targeting TGF-β1 signaling in myeloid lineages may provide therapeutic benefit for treating NF1 skeletal defects.
Baldock, Paul Andrew Jason. "Regional variation in oophorectomy induced trabecular bone osteopenia in the distal femur of the rat / Paul Andrew Jason Baldock." 2001. http://hdl.handle.net/2440/19901.
Повний текст джерелаIncludes erratum on back leaf.
Includes bibliographical references (leaves 257-299).
xvii, 300 [27] leaves : ill. (some col.) ; 30 cm.
Title page, contents and abstract only. The complete thesis in print form is available from the University Library.
Examines regional variations in trabecular bone remodelling and bone loss following oophorectomy in the distal femur of the rat. The studies reveal a complex interaction between weight bearing and ovarian hormone deficiency, and show that physiological signals exist which can negate all adverse effects of postmenopausal osteoporosis
Thesis (Ph.D.)--Adelaide University, Dept. of Physiology, 2001
Martins, Ana Isabel Barros Ramos. "Aplastic anemia: from pathophysiology to diagnosis, management and treatment." Master's thesis, 2015. http://hdl.handle.net/10316/30585.
Повний текст джерелаAplastic anemia (AA) is a rare hematopoietic disease characterized by a pancytopenia and a hypoplastic bone marrow. AA can be congenital (CAA) or acquired (AAA). Acquired AA comprises those cases where a causative factor is identified (Secondary AA) and also idiopathic cases (Idiopathic AA). There was a marked improvement on treatment options in the last years that had resulted on increased overall survival rates. It is known that a correct management of this entity is directly related with an efficient diagnostic investigation, and for that, it is fundamental to be aware of the most effective strategies or techniques available nowadays. Therefore, the aim of this review is to make a state of art of the most recent available data concerning this disorder, particularly IAA, including all the sub-topics inherent: etiology, pathophysiology mechanisms, differential diagnosis, management and treatment options.
A Anemia Aplásica (AA) é uma doença hematopoiética rara caracterizada por pancitopenia e hipocelularidade da medula óssea. A AA pode ser congénita ou adquirida. A AA Adquirida inclui os casos em que é possível identificar um fator causal (AA Secundária) e também os casos idiopáticos (AA Idiopática). Nos últimos anos tem havido uma melhoria notável nas opções de tratamento o que tem conduzido a melhores taxas de sobrevivência. É também um facto estabelecido que uma orientação clínica correta está diretamente relacionada com uma investigação diagnóstica eficiente, o que por sua vez exige um conhecimento sobre as estratégias e técnicas mais eficazes disponíveis na atualidade. O objetivo desta revisão é fazer um estado da arte das publicações e dados mais recentes relacionados com esta doença, especificamente em relação à Anemia Aplásica Idiopática, incluindo assim todos os subtópicos inerentes: etiologia, mecanismos fisiopatológicos, diagnóstico diferencial, conduta e opções de tratamento.
Unthan, Mark. "Die Rolle des Bone morphogenetic protein 2 in der Pathophysiologie der Adipositas." 2017. https://ul.qucosa.de/id/qucosa%3A23456.
Повний текст джерелаSousa, Cristina Maria Peixoto de. "Contribution to the study of bone turnover markers for assessment of the pathophysiology of normal and disturbed fracture healing process." Doctoral thesis, 2016. http://hdl.handle.net/10348/5717.
Повний текст джерелаOs biomarcadores de remodelagem óssea (BTM) são produtos da actividade celular e são geralmente subdivididos em três categorias: biomarcadores de reabsorção óssea, formação óssea e proteínas reguladoras da actividade dos osteoclastos. Em vários estudos foi demonstrado que s BTM são capazes de reflectir o processo de cicatrização óssea, com os seus níveis dependentes da localização, tamanho e tipo da fractura. Além disso, a variação dos seus níveis tem, também, sido avaliada por alguns autores quanto à sua capacidade de prever precocemente o processo de cicatrização prejudicada. O principal objetivo deste trabalho consistiu em investigar a eficácia clínica de BTM para acompanhar a evolução do processo de cicatrização de fraturas ósseas após eventos traumáticos e identificar precocemente doentes em risco de processos de cicatrização prejudicado. Com isto em mente, o objectivo principal deste trabalho foi investigar a eficácia clínica dos BTM para monitorizar o processo de cicatrização das fracturas de etiologia traumática e identificar os doentes em risco de desenvolvimento de processos de cicatrização comprometida. Este trabalho teve, também, como objetivo adicional avaliar se um painel económico de marcadores bioquímicos de remodelação óssea se poderia apresentar como um método simples, acessível e preciso no seguimento do processo de consolidação das fracturas ósseas de etiologia traumática. A fim de alcançar o objectivo proposto, numa primeira fase, um modelo animal de nãounião foi criado através da realização de um de defeito crítico na diáfise da tíbia da ovelha e foi comparada a evolução serológica dos BTM neste grupo com outro grupo de animais com um processo de consolidação de fraturas em que se previa uma normal evolução no sentido de uma completa cicatrização ao longo de doze semanas. As ovelhas têm sido amplamente utilizadas em estudos científicos na Ciência Animal e Veterinária e também como um animal de grande porte para a investigação em Ortopedia, envolvendo a determinação de marcadores bioquímicos de remodelação óssea. Um dos marcadores de formação óssea mais amplamente utilizado e mais sensível é a isoforma óssea da fosfatase alcalina (BALP). Tendo isto em mente, este trabalho pretendeu, adicionalmente, avaliar se a actividade da BALP poderia reflectir o aumento da atividade osteoblástica de formação óssea durante o normal crescimento e durante os diferentes estádios fisiológicos da ovelha, a fim de melhorar o conhecimento sobre a variação deste marcador bioquímico ao longo da vida da ovelha como modelo animal. Em resumo, este trabalho demonstrou que a alta variabilidade subjacente aos marcadores bioquímicos de remodelação óssea limita a sua aplicação por rotina na prática clínica. No entanto, estes marcadores podem ser usados como ferramentas sensíveis em estudos experimentais, uma vez que proporcionam informação não invasiva sobre o processo de remodelação óssea, numa abordagem em tempo real. Adicionalmente, uma vez que a remodelação óssea é um processo dinâmico, as mudanças nos níveis séricos destes marcadores ocorrem mais cedo do que aquelas observadas pelas diferentes técnicas de imagem utilizadas para avaliar este processo, tais como os raios X simples ou as técnicas de densitometria óssea.
Bone turnover markers (BTM) are products of bone cells activity and are generally subdivided into three categories: bone resorption and bone formation markers and osteoclasts regulatory proteins. In several studies were demonstrated that serum or urinary BTM are capable to reflect the healing process with their levels being dependent on the localization, type and size of the fracture. Additionally, the variation in the levels of BTM has, also, been assessed by some authors for their ability to early predict impaired fracture healing processes, but the conclusions are not consensual. The main goal of this work was to investigate the clinical effectiveness of BTM to monitor the evolution of fracture healing process after traumatic events and to precociously identify patients at risk of development impaired healing processes. With this in mind, the present work aimed to achieve the value of BTM to assess the fracture healing process. In order to achieve the proposed objective, in a first stage, a non-union animal model was created through the realization of a critical size-defect in the diaphysis of sheep tibia and compared the serological evolution of BTM in this group with another group of animals with a normall fracture healing process during twelve week period. Sheep have been used in several animal science studies and also as a large animal for orthopedic research also involving measurements of BTM. One of the most widely used biomarker of bone formation is a membrane-bound enzyme - BALP. Additionally, BALP is, also, one of the most sensitive markers of bone formation. With this in mind, this work aimed to assess if BALP activity could mirror the increase in osteoblastic activity during normal growth and during different physiologic status over sheep lifespan, in order to improve the knowledge about the variation of these biomarkers. In summary, this work demonstrated that the high variability of BTM limits its routine application into the clinical practice. However, these bone markers can be used as valuable tools in experimental studies, since they provide non-invasive information about bone remodeling process in a real-time approach. Additionally, since bone turnover is a dynamic process, the changes in BTM levels occur earlier than those observed by the different techniques used to assess this process, namely plain X-rays and bone densitometry techniques.
The research described in this Thesis was financially supported by the Portuguese Foundation for Science and Technology (FCT)
"The role of mechanical loading, bone morphogenetic proteins and erroneous differentiation of tendon-derived stem cells in the pathogenesis of patellar tendinopathy: a potential mechanism for the chondron-ossification and failed healing in patellar tendinopathy." Thesis, 2011. http://library.cuhk.edu.hk/record=b6075353.
Повний текст джерелаHistopathologically, the predominant feature of patellar tendinopathy is tendinosis, which is characterized by progressive tissue degeneration with a failed healing response and the absence of inflammatory cells. Hypercellularity with non-tenocyte phenotype cells and tissue metaplasia, including hyaline metaplasia, fibrocartilaginous metaplasia and bony metaplasia were observed in clinical patellar tendinopathy samples. The degeneration of patellar tendon in patellar tendinopathy is an active cell-mediated process rather than a passive degenerative process. Using a patellar tendinopathy animal model, we observed the presence of chondrocytic and osteoblastic phenotype / markers in patellar tendinopathy samples with or without ossification, which was consistent with the findings in clinical samples. Interestingly, chondrocyte makers were expressed by healing tendon cells at week 2 which became round prior to their expression in the chondrocyte-like cells at week 4. This leads us to speculate that erroneous differentiation of tendon-derived stem cells (TDSCs) identified recently in tendon tissues by our group, to chondrocyte / osteoblasts, due to alteration of mechanical and biological microenvironment during overuse, may lead to the ectopic chondro-ossification and failed healing in patellar tendinopathy. Osteo-chondrogenic BMPs, such as BMP-2, BMP-4 and BMP-7 might be possible factors regulating the osteo-chondrogenic differentiation of TDSCs in the pathogenesis of patellar tendinopathy.
In conclusion, our results have provided new insights about the pathological mechanisms of patellar tendinopathy involving the resident stem cells, osteo-chondrogenic BMPs and mechanical overloading. Erroneous differentiation of TDSCs to chondrocytes / osteoblasts due to ectopic osteo-chondrogenic BMP-2 expression, which were induced by repetitive tensile loading stimulation, might account for the chondro-ossification and failed healing in patellar tendinopathy. Re-directing of stem cells for tenogenic differentiation by blocking the ectopic expression of osteo-chondrogenic BMPs may help to promote tendon healing in patellar tendinoapthy.
In this study, we hypothesized that (1) TDSCs isolated from pathological patellar tendon of the CI model will exhibit higher osteogenic and chondrogenic differentiation potential but lower proliferative capacity compared to TDSCs isolated from healthy patellar tendon. Rat pathological tendon in our collagenase-induced failed healing animal model will harbor more TDSCs compared to healthy patellar tendon. (2) Osteo-chondrogenic BMPs, such as BMP-2, BMP-4, and BMP-7, will be expressed ectopically in both preclinical and clinical samples of patellar tendinopathy. (3) BMP-2 will promote osteo-chondrogenic differentiation and inhibit tenogenic differentiation of TDSCs in vitro. (4) Repetitive tensile loading will increase the expression of BMP-2 in TDSCs in vitro.
Our results showed that TDSCs isolated from the collagenase-induced tendinopathic patellar tendon of the animal model exhibited higher osteogenic/chondrogenic differentiation potential as well as lower proliferative capacity, supporting that there might be some defects in the TDSCs from the animal model, which might undergo osteo-chondrogenic differentiation and hence reduced the pool of TDSCs for tendon repair in the development of patellar tendinopathy. The higher clonogenicity and increased yield of TDSCs in tendinopathic patellar tendon might be caused by a compensation for the impaired differentiation potential and proliferative capacity of TDSCs. The histopathological features of our clinical patellar tendinopathy were characterized by tissue degeneration. Non-tenocyte phenotype cells and tissue metaplasia, such as chondrocyte-like cells and endochondral ossification were also observed. We observed the ectopic expression of osteo-chondrogenic BMP-2, BMP-4 and BMP-7 in both our animal model and clinical samples of patellar tendinopathy, which might trigger the erroneous differentiation of TDSCs to non-tenocytes. Indeed, we further showed that BMP-2 could promote the osteo-chondrogenic and inhibit tenogenic differentiation of TDSCs in vitro, which might provide a possible explanation for ectopic chondro-ossification and failed healing in patellar tendinopathy. In addition, our results also showed that in vitro repetitive cyclic tensile loading could increase the expression of BMP-2 in TDSCs, which might provide a possible explanation for the ectopic expression of BMP-2 in patellar tendinopathy.
This study aimed to compare the osteogenic / chondrogenic differentiation potential, proliferative capacity and yield of TDSCs isolated from rat healthy patellar tendon and pathological tendon in our collagenase-induced failed tendon healing animal model of patellar tendinopathy in vitro. The histopathological characteristics of our clinical patellar tendinopathy with or without ossification were examined. The ectopic expression of BMP-2, BMP-4, and BMP-7 in both human and rat samples of patellar tendinopathy was also examined. The effects of BMP-2 on the osteogenic, chondrogenic and tenogenic differentiation of TDSCs was further investigated in vitro. The effect of repetitive tensile loading on the expression of BMP-2 in TDSCs was studied in vitro.
Rui, Yunfeng.
Advisers: Kai Ming Chan; Po Yee Lui.
Source: Dissertation Abstracts International, Volume: 73-06, Section: B, page: .
Thesis (Ph.D.)--Chinese University of Hong Kong, 2011.
Includes bibliographical references (leaves 172-193).
Electronic reproduction. Hong Kong : Chinese University of Hong Kong, [2012] System requirements: Adobe Acrobat Reader. Available via World Wide Web.
Electronic reproduction. [Ann Arbor, MI] : ProQuest Information and Learning, [201-] System requirements: Adobe Acrobat Reader. Available via World Wide Web.
Abstract also in Chinese.
Dharmarajan, Subramanian. "BMP Pathway and Reactive Retinal Gliosis." 2013. http://hdl.handle.net/1805/3247.
Повний текст джерелаReactive gliosis is known to have a beneficial and a degenerative effect following injury to neurons. Although many factors have been implicated in reactive gliosis, their role in regulating this change is still unclear. We investigated the role of bone morphogenetic proteins in reactive gliosis in vivo and in vitro. In vivo, IHC analysis indicated reactive gliosis in the 6 week Ins2Akita mouse and WPK rat retinas. Expression of BMP7 was upregulated in these models, leading to an increase in the phosphorylation of downstream SMAD1. In vitro, treatment of murine retinal astrocyte cells with a strong oxidizing agent such as sodium peroxynitrite regulated RNA levels of various markers, including GFAP, CSPGs, MMPs and TIMPs. BMP7 treatment also regulated RNA levels to a similar extent, suggesting reactive gliosis. Treatment with high glucose DMEM and BMP4, however, did not elicit increase in levels to a similar degree. Increase in SMAD levels and downstream targets of SMAD signaling such as ID1, ID3 and MSX2 was also observed following treatment with sodium peroxynitrite in vitro and in the 6 week Ins2Akita mouse retinas in vivo. These data concur with previously established data which show an increase in BMP7 levels following injury. It also demonstrates a role for BMP7 in gliosis following disease. Further, it suggests SMAD signaling to play a role in initiating reactivity in astrocytes as well as in remodeling the extracellular matrix following injury and in a disease condition.