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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
71

Der Einfluss des Kalziumkanalagonisten R-Roscovitine auf die zelluläre Differenzierung von Motoneuronen eines Mausmodells für Spinale Muskelatrophie Typ 1 (SMA) / The effect of the calcium channel agonist R-Roscovitine on cellular differentiation of motoneurons from a mouse model for spinal muscular atrophy type 1 (SMA)

Balk, Stefanie Margarete January 2020 (has links) (PDF)
Die spinale Muskelatrophie (SMA) ist eine monogenetische Erkrankung, bei der es durch den Verlust des SMN Proteins zur Degeneration der α-Motoneurone im Rückenmark kommt. Abhängig vom Schweregrad zeigen die Patienten bereits innerhalb der ersten Lebensmonate ausgeprägte Lähmungen der Skelettmuskulatur und eine Zwerchfellparese einhergehend mit einer reduzierten Lebenserwartung. Mithilfe von Mausmodellen für die SMA konnte gezeigt werden, dass der Motoneuronenverlust bei Smn-defizienten Mäusen mit Störungen der Neurotransmission an der motorischen Endplatte und mit Differenzierungsstörungen der Motoneurone einhergeht. Die Differenzierungs-störungen primärer Smn-defizienter Motoneurone sind eng gekoppelt mit einer verminderten Clusterbildung spannungsabhängiger Kalziumkanäle im distalen axonalen Bereich. Dies wiederum führt zu einer verminderten Frequenz spontaner Kalziumeinströme am Axonterminus und hat eine veränderte axonale Elongation zur Folge. Es wurden folgende Aspekte in Bezug auf die Verstärkung und die Induktion spontaner Kalziumeinströme in Mausmodellen für spinale Muskelatrophien in dieser Arbeit adressiert: 1) Lassen sich spontane Kalziumeinströme in Smn-defizienten Motoneuronen durch die externe Applikation von Kalziumkanalagonisten verstärken? 2) Sind spontane Kalziumeinströme in primären Motoneuronen durch den Brain-derived-neurotrophic-factor (BDNF) induzierbar? 3) Zeigen primäre Motoneurone eines Mausmodells für spinale Muskelatrophie mit Ateminsuffizienz Typ 1 (SMARD1) ebenfalls veränderte Kalziumtransienten? Die Ergebnisse meiner Arbeit zeigen, dass durch den Kalziumkanalagonisten R-Roscovitine die Frequenz der spontanen Kalziumeinströme im distalen Axon von Smn-defizienten Motoneuronen signifikant erhöht wird. Dies hat wiederum einen regulierenden Effekt auf die Differenzierung der SMA Motoneurone zur Folge. Smn-defiziente Motoneurone zeigen somit keine Unterschiede mehr in Bezug auf Axonlängen und Wachstumskegelflächen im Vergleich zu Kontrollzellen. Für R- 10 Roscovitine ist neben der agonistischen Wirkung am Kalziumkanal auch ein inhibitorischer Effekt auf die Cyclin-abhängige Kinase 5 beschrieben. Es konnte jedoch gezeigt werden, dass die erhöhten Kalziumtransienten unter der Behandlung mit R-Roscovitine durch eine direkte Bindung an die Cav2 Kalziumkanäle verursacht werden und nicht durch eine Cdk5 Blockade. Dafür spricht die schnelle und reversible Wirkung von R-Roscovitine, sowie die Aufhebung des R-Roscovitines Effekts bei gleichzeitiger Gabe des Cav2.2 Antagonisten ω-Conotoxin MVIIC. Der zweite Aspekt dieser Arbeit behandelt den Einfluss der neurotrophen Faktoren BDNF, CNTF und GDNF auf die Kalziumtransienten am Wachstumskegel wildtypischer Motoneurone. Der Vergleich der neurotrophen Faktoren zeigt, dass nur BDNF eine induzierende Wirkung auf spontane Kalziumtransienten am Wachstumskegel hat. Der letzte Abschnitt dieser Arbeit beschäftigt sich mit den Kalziumtransienten bei Motoneuronen aus dem Nmd2J (SMARD1) Mausmodell. Die SMARD1 gilt als eigenständige Form der spinalen Muskelatrophien mit unterschiedlicher Genetik und unterschiedlichen klinischen Merkmalen. Die Motoneurone weisen in Bezug auf die Kalziumtransienten keine Unterschiede zwischen Wildtyp und Nmd2J Mutante auf. Es ergibt sich somit kein Hinweis darauf, dass die Degeneration der Motoneurone bei der SMARD1 von einer Störung der Kalziumhomöostase im distalen axonalen Bereich ausgeht. / Spinal muscular atrophy (SMA) is a monogenetic disorder which is caused by the loss of the SMN Protein and leads to the degeneration of α-motoneurons. Within the first few months of life most patients are clinically affected with severe motor deficits of skeletal muscles and a diaphragm paralysis, going along with a reduced life expectancy depening on the degree of severity. With the aid of SMA mouse models it was shown that the loss of motoneurons with Smn deficiancy lies in an impaired neurotransmission of the motoneuron endplat leading to a differentiation disorder of the motoneurons. This differentiation disorder is strongly connected to a reduced cluster formation of voltage-dependent calcium channels in the distal axonal area. The impaired cluster formation in turn leads to a reduced frequency of spontanous calcium transients at the axon terminus, followed by an altered axonal elongation. In this work the following aspects concerning the enhancement and induction of spontanous calcium transients in mouse models of spinal muscular atrophy were adressed: 1) Does the external application of calcium channel agonists increase spontanous calcium transients in Smn-deficient motoneurons? 2) Is the neurotrophic factor Brain-derived neurotrophic factor (BDNF) able to induce spontanous calcium transients in primary motoneurons? 3) Do primary motoneurons of a mouse model for spinal muscular atrophy with respiratory distress (SMARD1) show altered calcium transients as well? The results of my work show that the calcium channel agonist R-Roscovitine significantly increases the frequency of spontanous calcium transients in growth cones of Smn-deficient motoneurons which in turn has a regulatory effect on the differentiation of SMA motoneurons. Smn-deficient motoneurons treated with R-Roscovitine do not show any differences concerning axon length and growth cone size compared to control cells. Apart from the agonist effect on the calcium channels, R-Roscovitine also has an inhibitory impact on the cyclin-dependant kinase 5. The results of this work show that the positive effect on the calcium 12 transients under R-Roscovitine treatment is because R-Roscovitine binds directly to the calcium channel rather than due to an inhibition of cdk5. Arguments supporting this idea are the rapid and reversible channel kinetics of R-Roscovitine. Plus, the effect of R-Roscovitine can be repealed when the Cav2 channal antagonist ω-conotoxin is given simultaneously. In the second part of this work the influence of the neurotrophic factors BDNF, CNTF and GDNF on the calcium transients of wildtype motoneurons is investigated. Comparing these neurotrophic factors show that only BDNF has an impact on local calcium channel kinetics in growth cones of motoneurons. The last part of this work deals with the investigation of calcium transients in motoneurons from the Nmd2J (SMARD1) mouse model. SMARD1 is an independent form of spinal muscular atrophies with different genetical and clinical aspects compared to proximal SMA. The results of this work show that Nmd2J motoneurons do not show any difference in growth cone calcium influx between wildtype and mutant. Thus, there is no indication that the degeneration of SMARD1 motoneurons has any pathophysiological similarities with motoneurons from the proximal SMA mouse model. Hence, there are also no indications that the reason for motoneuron degeneration in SMARD1 lies in an impaired calcium homeostasis in the distal axonal area.
72

Identification of Modifiers of Spinal Muscular Atrophy

Ruhno, Corey 20 June 2019 (has links)
No description available.
73

Cytochrome c oxidase subunit Vb interacts with human androgen receptor : a potential mechanism for neuronotoxicity in spinobulbar muscular atrophy

Beauchemin, Annie January 2000 (has links)
No description available.
74

Development and Extrapolation of an Undergraduate Laboratory Experiment to an Elastomeric Spinal Muscular Atrophy Brace

Brose, Richard Sterling 01 June 2011 (has links) (PDF)
Ever since the advent of polymer science, polyurethanes have played a huge role in the industrial world. They have been used in endless applications from furniture padding to aircraft coatings, to binders for insensitive munitions. It is therefore important that the chemistry of polyurethanes is well understood as well as the ability to draw relationships between the raw materials selected and the end-use properties of the polymer. Because of the multitude of practical applications, the development of an undergraduate polymer chemistry laboratory focused on polyurethane elastomers is developed and described herein. Polymer chemistry students are exposed to hydroxyterminated polybutadiene (HTPB) polyols as well as di- and multifunctional isocyanates for use in a tin-catalyzed reaction. The effect of catalyst concentration and crosslinking agent on cure time, prepolymer structure on end-use properties, and the effect of crosslink density on physical properties are explored. Students also receive a very important introduction to statistical experimental design. They learn when using statistical experimental design is necessary, and they learn how to manipulate, analyze, and interpret data using two-way ANOVA in Minitab. The development of the lab experiment also led to extrapolating the use of polyurethane elastomers into a new application, the development of a polyurethane spinal muscular atrophy (SMA) brace. SMA is a neurodegenerative disorder that results in the mutation or deletion of the spinal motor neuron gene, resulting in the atrophy of a subject’s spine muscles throughout the continuation of their life. These patients are therefore forced to wear a brace for the entirety of their lives. The current brace technology in use by SMA patients is limited by the fact that SMA affects a very small amount of the population and therefore it is not cost-effective for industry to develop a brace technology designed for these patients. Scoliosis braces such as thoracolumbrosacral orthoses (TLSOs) are too hard and too uncomfortable for patients with SMA; therefore, the polyurethane elastomer was extrapolated to develop a brace with more flexibility and more durability. Two generations of polyurethane elastomeric brace were developed and evaluated by a subject and family with an SMA background. The brace is a much improved technology to the TLSO braces and provides more flexibility, more mobility, greater comfort, and superior modularity to the old technology. An instruction manual is also included with a step-by-step process of how to reproduce the brace.
75

DISSECTING THE NUCLEAR IMPORT OF SnRNPs VIA THE Sm CORE PATHWAY

Narayanan, Usha January 2005 (has links)
No description available.
76

Gemin function in small nuclear RNP biogenesis and Spinal Muscular Atrophy

Shpargel, Karl Bryan 14 July 2006 (has links)
No description available.
77

Molecular analysis of human androgen receptor mutations causing motor neuronopathy or infertility.

Abdullah, Abdullah A. Rasool January 1997 (has links)
No description available.
78

Correlates of frailty in old age: falls, underweight and sarcopenia / CUHK electronic theses & dissertations collection

January 2015 (has links)
This thesis is focused on frailty in old age. The frailty syndrome is the newest geriatric syndrome and can be aptly called the ultimate geriatric syndrome due to the complexity of its causes and the wide range of adverse outcomes it may lead to in older persons. Several of the important correlates of frailty, namely falls, underweight and sarcopenia, are discussed in the context of their relationship with frailty. These entities are geriatric syndromes in their own rights, sharing many common risk factors and arriving at adverse health outcomes either directly or via the pathway of frailty. In the publications that arose from this work, the risk factors of falls, in particular the relationship between medications and chronic diseases in causing falls; risk factors and outcomes of sarcopenia, in particular its relation to diabetes mellitus and other chronic diseases; and how underweight poses survival risks in both community-living and institutionalized older people, are discussed. The final publication of this series of studies demonstrated the reversibility of the frailty syndrome, showing that not all who were in the pre-frailty stage will decline. Risk factors associated with improvement or decline in the pre-frail stage were identified in the local population, and a period of relative stability opened for possible interventions was observed. This thesis thus examines the complex interplay of these syndromes in old age. It is hoped that these publications will enable further research into the underlying mechanisms of frailty and to elucidate modifiable risk factors, hence enabling older people, in particular those in the pre-frail stage, to live healthier and longer lives. / Lee Shun Wah Jenny. / Thesis (M.D.)--Chinese University of Hong Kong, 2015. / Includes bibliographical references. / Title from PDF title page (viewed on 15, September, 2016).
79

The molecular genetic analysis of three human neurological disorders

Ichikawa, Shoji, January 2002 (has links)
Thesis (Ph. D.)--University of Missouri--Columbia, 2002. / Typescript. Vita. Includes bibliographical references (leaves 143-155). Also available on the Internet.
80

Effects of low-magnitude high-frequency vibration on disuse-induced atrophied skeletal muscles: correlating structural changes with functional performance. / CUHK electronic theses & dissertations collection

January 2012 (has links)
隨著全球人口老化、普遍的久坐生活方式及外太空技術的迅速發展,肌肉廢用已成為日益嚴峻及影響廣泛的公共健康問題。 肌肉廢用可引起肌肉萎縮及肌肉收縮功能衰退,最終影響患者的日常活動能力及生活的獨立性。 此外,重新使用廢用肌肉可引起肌纖維破壞及肌肉功能進一步損失,使得肌肉萎縮問題更加惡化。 低幅高頻振動治療屬於非入侵性的生物物理治療方法,通過給予溫和的全身性機械刺激達到治療目的,被証實可有效強化肌肉功能及刺激肌纖維肥大,為進行有關低幅高頻振動應用於廢用性肌肉萎縮治療的復康研究提供了充足證據。 本研究科研假說為低幅高頻振動治療能通過調節肌纖維形態及激活具生肌能力的肌衛星細胞,以改善廢用性萎縮肌肉收縮功能及促進其康復。 本研究共分為三個部分第1部分是對大鼠懸尾模型引發後肢廢用性肌肉萎縮進行驗證(TS模型)第2部分是研究低幅高頻振動治療對肌肉收縮功能的作用第3部分是振動治療對肌纖維型態及肌肉衛星細胞的影響。 / 第1部分的研究中,十二隻6月齡雄性SD大鼠被隨機分成懸尾組 (TS, n=6)及對照組 (Nor, n=6)。 在懸尾二十八天後,大鼠的比目魚肌被收取並進行體外肌肉功能檢測。 結果顯示懸尾組的肌肉質量及肌纖維橫切面積均顯著下降 (p<0.001),證明懸尾模型能導致廢用性肌肉萎縮。 功能檢測顯示肌肉收縮功能下降,包括抽搐峰力及最大強直力下降(p=0.011及 p<0.001)。 因此,大鼠懸尾模型可用於研究低幅高頻振動治療對肌肉重用康復過程的作用,即本研究的第2及第3部分。 / 為了驗證本研究的科研假說,七十二隻雄性SD大鼠懸尾28天誘導比目魚肌萎縮後被隨機分為振動治療組 (Vib, n=36) 及重用對照組 (Ctrl, n=36),並於懸尾後的第7、14 及21天取比目魚肌作進一步實驗 (n=6/組/時間點)。 治療組的大鼠於懸尾後接受每星期5天、每天20分鐘的低幅高頻振動治療 (振幅: 0.6g、頻率: 35Hz)直至對應的實驗時間點,而對照組大鼠則如常在籠中活動,其餘條件均相同。 / 第2部分實驗是通過體外肌肉功能檢測系統,分析低幅高頻振動治療對廢用萎縮後重用肌肉收縮功能的作用。 實驗結果顯示,相對於在第7天時的最大強直力,對照組重用肌肉在21天的康復期間肌力增長32% 。 振動治療組中,相對於振動治療7天時的最大強直力,振動治療14天已能夠使重用肌肉得到相近 (34.6%) 力量增長(p=0.033)。 由於兩組在第七天時的最大強直力量並沒有明顯差別,故結果可證明振動治療能提高肌強直力的恢復速度。具體肌肉強直力量(以肌纖維橫切面積常化的肌肉強直力量) 亦能夠證明有關發現。 振動治療組比目魚肌的具體強直力在振動治療14天後大於同期對照組力量 (p=0.001)。 振動治療組的具體強直力在14天時已達到最高並相近於21天時的水平,但對照組於14天至21天時仍有著明顯的上升趨勢,顯示振動治療組的肌肉完全康復速度比對照組的快。 / 第3部分實驗是探討低幅高頻振動治療,對廢用性萎縮肌肉重用過程中的肌纖維肥大及肌衛星細胞激活的作用。 為標記重用過程中激活的肌衛星細胞,本部分的每一隻大鼠處死前14天在皮下植入一顆5-溴氧尿嘧啶核苷 (BrdU) 的緩釋顆粒 (0.22亳克BrdU/ 千克/ 天)。 大鼠比目魚肌在相應實驗時間點離體迅速冷凍後進行低溫橫截切片(厚度: 7微米)。 以肌球蛋白三磷酸腺苷酶染色方法把肌肉切片染色後,即可進行肌纖維的種類及形態學分析。 第21天時,振動治療組的快肌IIB 型纖維橫切面積大於對照組,表明振動治療能刺激快肌IIB 型纖維肥大 (p=0.031)。 此外,快肌IIB 型肌纖維橫切面積與肌強直力是呈正相關的,說明低幅高頻振動治療所加快的肌強直力量康復可能是通過刺激快肌IIB 型肌纖維肥大所致。 振動治療引發的慢肌纖維轉型至快肌纖維的潛能可能被重用所致的快至慢轉型所掩蓋。 從另一角度說明,肌肉重用所導致的快肌纖維轉型至慢肌纖維過程,不受振動治療的影響。 激活的肌衛星細胞則通過5-溴氧尿嘧啶核苷標記方法,以免疫熒光技術進行顯微檢測及分析。 振動治療組肌衛星細胞普遍多於對照組,刺激效果在快肌IIA 型肌纖維中表現更為明顯。 對照組廢用肌肉重用過程中,快肌IIA 型肌纖維中激活的肌衛星細胞數量呈下降趨勢,治療組的卻比對照組高並呈持續上升趨勢。 肌衛星細胞的數量亦發現與肌纖維橫切面積呈正相關。 肌衛星細胞的其中一項主要功能為肌肉修補及康復,有關實驗結果表明,振動治療可能通過激活更多衛星細胞以提高肌肉功能及刺激肌纖維肥大。 / 綜上所述,本研究探討了低震高頻振動治療對廢用性萎縮肌肉的收縮功能、康復過程及其機理的影響。 較佳的肌肉力量產生能力及較大面積的快肌IIB 型纖維,表明了振動治療可促進廢用性萎縮肌肉康復。根據快肌IIA型纖維衛星細胞數量以及活化的衛星細胞同肌纖維橫切面積之間的相關性研究結果,可以推測震動治療促進肌肉修復的可能機理是促進肌衛星細胞的活化。 本研究為低幅高頻振動治療的進一步臨床實驗及未來在快肌纖維相關的肌肉老化問題研究,提供了可靠及充分的依據。 / Muscle disuse becomes a public health issue due to increasing aged population, prevalent sedentary lifestyles and rapidly growing outer space development. It results in muscle atrophy, contractile function loss and ultimately affects the daily life activities. The pathological conditions are even worse off during reloading because of the resulting muscle fiber damages and further functional deterioration. Low-magnitude high-frequency vibration (LMHFV), a biophysical modality providing a mild, non-invasive and systemic mechanical stimulation, has been reported to improve muscle functions and stimulate muscle hypertrophy. In this study, we hypothesized that LMHFV improved the functional outcomes and recovery of disuse-induced atrophied muscle through modulating muscle fiber morphology and activating myogenic satellite cells. The study was divided into three parts: Part 1 for validation of the tail suspension hindlimbs unloading animal model (TS model); Part 2 for testifying the LMHFV effect on functional outcomes; Part 3 for the effects on fiber morphology and satellite cells. / In Part 1 study, twelve 6-month-old male Sprague Dawley (SD) rats were randomly assigned to tail suspension control group (TS, n=6) and normal control group (Nor, n=6). Rats in TS group were tail-suspended for 28 days and of the harvested soleus muscle (Sol) was subjected to the in vitro muscle functional assessment. Muscle atrophy in TS group was confirmed by the significant decrease of Sol muscle mass (Mm) and fiber cross-sectional area (FCSA) (both p<0.001). Functionally, weakening of contractile forces including peak of twitch force (Pt) and maximum tetanic force (Po) were observed in TS (p=0.011 and p<0.001 respectively). The established animal model was used to study the effects of LMHFV on muscle reloading recovery in Part 2 and 3. / To testify the hypothesis, a total of 72 male SD rats with Sol atrophy induced by 28-day TS were used for Part two (n=36) and Part three studies (n=36). In each part of the studies, the rats were randomized into LMHFV treatment group (Vib) and reloading control group (Ctrl), from which Sol were harvested at Day 7, 14 and 21 post-TS (n=6/group/timepoint). The LMHFV treatment (0.6g, 35Hz) was applied to Vib group 20min per day and 5 days per week until the endpoint while Ctrl rats were allowed free-cage movement. / In Part 2 study, the effects of LMHFV on contractile functional outcomes of reloading muscle following TS were evaluated by in vitro muscle functional test. In Ctrl group, 32% increase of Po was found at day 21 when compared with that at day 7. A similar recovery level was already achieved in Vib group by 14 days of treatment; when compared with Vib-Day7, a 34.6% increase of Po was found at day 14 (p=0.033). Specific Po (Po normalized by FCSA) in Vib was significantly larger than Ctrl at day 14 (p=0.001). Plateau of specific Po was observed at day 14 in Vib group while significant increase was observed in Ctrl group from day 14 to day 21. These findings suggested the facilitated recovery of force generating capacity in Sol by LMHFV treatment. / In Part 3 study, the effects of LMHFV on muscle fiber hypertrophy and fiber type transition during reloading as well as on muscle satellite cells (SC) activation were assessed. In order to label activated SC, a bromodeoxyuridine (BrdU) time release pellet (0.22mg BrdU/ kg body mass/ day) was subcutaneously implanted to every rat 14 days before execution. In order to evaluate the fiber morphology and fiber type transition, Sol were harvested at corresponding endpoints and cryosectioned (cross-sections at 7μm) for ATPase staining. The bromodeoxyuridine (BrdU)-labeled activated SCs were revealed on the cryosections by immunofluorescence method. Results showed that fast-twitch type IIB muscle fiber hypertrophy was stimulated by LMHFV with type IIB fiber cross-sectional area (FCSA) in Vib group significantly larger than Ctrl at day 21 (p= 0.031). Interestingly, the type IIB FCSA was positively correlated with the Po measured, which suggested the possible contribution of stimulated type IIB muscle fiber hypertrophy for improving contractile force in Vib. The potential slow-to-fast fiber type transition induced by LMHFV might be masked by reloading-induced fast-to-slow transition in Sol. In other words, the normal fiber type transition in Sol during reloading was not affected by LMHFV. In SC activation assessment, more BrdU-labeled SCs were observed in Vib group. Particularly in fast twitch type IIA muscle fibers, the SC counts were increasing throughout the treatment period. It suggested the specific stimulatory effect of LMHFV on activation of fast twitch fiber SCs. Since SC activation is important for muscle recovery, the current finding suggested the possible contribution of increased SC activation to muscle fiber hypertrophy in response to LMHFV treatment. It was in fact evident from the positive association between SC counts and muscle FCSA found in this study. / In conclusion, LMHFV was beneficial to muscle disuse recovery, as indicated from higher force generating capacity and larger fast twitch type IIB fiber FCSA. The possible mechanism was to stimulate myogenic SC activation for muscle repair, as evident from the elevated fast twitch type IIA fiber SC counts and the association of activated SC counts to fiber FCSA. This study suggests the beneficial effects of LMHFV on muscle disuse rehabilitation and also justifies the future clinical trials on rehabilitation of bed-rest patients. The profound effects of LMHFV specifically on fast-twitch fibers provided solid basis for further study on treating the loss of fast-twitch type II fibers in muscle aging (i.e. sarcopenia). / Detailed summary in vernacular field only. / Detailed summary in vernacular field only. / Detailed summary in vernacular field only. / Detailed summary in vernacular field only. / Detailed summary in vernacular field only. / Detailed summary in vernacular field only. / Sun, Keng Ting. / Thesis (M.Phil.)--Chinese University of Hong Kong, 2012. / Includes bibliographical references (leaves 113-130). / Electronic reproduction. Hong Kong : Chinese University of Hong Kong, [2012] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Abstracts also in Chinese. / Thesis/Assessment Committee --- p.ii / Abstract --- p.iii / 論文摘要 --- p.vii / Publications --- p.x / Acknowledgement --- p.xi / List of Abbreviations --- p.xiii / Figure Index --- p.xvi / Table Index --- p.xvii / Chapter Chapter 1 --- Introduction and Literature Review --- p.1 / Chapter 1.1 --- Skeletal Muscle --- p.1 / Chapter 1.1.1 --- Muscle Structure and Organization --- p.1 / Chapter 1.1.2 --- Muscle Diversity --- p.5 / Chapter 1.1.3 --- Muscle Contraction and Relaxation --- p.7 / Chapter 1.1.4 --- Muscle Plasticity --- p.10 / Chapter 1.1.5 --- Muscle Mechanosensitivity and Mechanotransduction --- p.13 / Chapter 1.1.6 --- Muscle Satellite Cells --- p.16 / Chapter 1.2 --- Muscle Disuse and Rehabilitation --- p.17 / Chapter 1.2.1 --- Epidemiology and Impact of Muscle Disuse --- p.17 / Chapter 1.2.2 --- Effects of Disuse on Muscle Structure and Contractile Function --- p.18 / Chapter 1.2.3 --- Rehabilitation of Disused Muscle --- p.21 / Chapter 1.2.4 --- Countermeasures for Muscle Disuse --- p.22 / Chapter 1.2.5 --- Muscle Disuse Animal Models - Tail Suspension Hindlimbs Unloading Model --- p.23 / Chapter 1.3 --- Low-Magnitude High-Frequency Vibration Intervention --- p.24 / Chapter 1.3.1 --- Stimulatory Effects of Vibration on Muscle --- p.25 / Chapter 1.4 --- Hypothesis and Objectives --- p.27 / Chapter Chapter 2 --- Materials and Methods --- p.30 / Chapter 2.1 --- Study Design --- p.30 / Chapter 2.1.1 --- Part 1: Validation of Tail-Suspension Model --- p.32 / Chapter 2.1.2 --- Part 2: Effect of LMHFV on Functional Recovery after Tail Suspension --- p.32 / Chapter 2.1.3 --- Part 3: Effect of LMHFV on Muscle Recovery in Cellular and Histological Aspects --- p.33 / Chapter 2.2 --- Tail Suspension- Hind Limbs Unloading Model and Reloading --- p.33 / Chapter 2.3 --- Low-Magnitude High-Frequency Vibration (LMHFV) Treatment --- p.36 / Chapter 2.4 --- Part 1 and Part 2 Studies --- p.39 / Chapter 2.4.1 --- Isolation of Soleus Muscle for Functional Assessment --- p.39 / Chapter 2.4.2 --- In vitro Muscle Functional Test --- p.42 / Chapter 2.5 --- Part 3 Study --- p.50 / Chapter 2.5.1 --- Implantation of Bromodeoxyuridine (BrdU) Pellet for Satellite Cell Labeling --- p.50 / Chapter 2.5.2 --- Preparation of Soleus Muscle (Sol) for Histological and Cellular Studies --- p.51 / Chapter 2.5.3 --- Preparation of Muscle Cryosections --- p.51 / Chapter 2.5.4 --- Muscle Fiber Typing - ATPase Staining Assay --- p.54 / Chapter 2.5.5 --- Activated Satellite Cell Profiling - Immunofluorescence Imaging --- p.55 / Chapter 2.6 --- Statistical Analysis --- p.57 / Chapter Chapter 3 --- Results --- p.58 / Chapter 3.1 --- Part 1: Validation of Tail Suspension Model --- p.58 / Chapter 3.1.1 --- Morphological Assessment --- p.58 / Chapter 3.1.2 --- Functional Assessment --- p.58 / Chapter 3.2 --- Part 2: Effects of LMHFV on Functional Recovery from Tail Suspension --- p.61 / Chapter 3.2.1 --- Morphological Assessment --- p.61 / Chapter 3.2.2 --- Functional Assessment --- p.63 / Chapter 3.3 --- Part 3: Effects of LMHFV on Muscle Recovery in Cellular and Histological Aspects --- p.72 / Chapter 3.3.1 --- Muscle Fiber Typing - ATPase Staining --- p.72 / Chapter 3.3.2 --- Satellite Cells Proliferation --- p.78 / Chapter 3.4 --- Correlation of outcomes from part II and part III studies --- p.83 / Chapter Chapter 4 --- Discussion --- p.90 / Chapter 4.1 --- Beneficial Effects of LMHFV in Disuse-induced Atrophied Soleus Muscle Recovery --- p.92 / Chapter 4.2 --- Facilitated Recovery of Force Generating Capacity by LMHFV Treatment --- p.93 / Chapter 4.3 --- Biphasic Effects of LMHFV in Muscle Contraction and Relaxation Time --- p.95 / Chapter 4.4 --- Specific Hypertrophy on Type IIB Muscle Fiber Stimulated by LMHFV --- p.96 / Chapter 4.5 --- Physiological Fiber Type Adaptation Maintained in LMHFV Treatment --- p.98 / Chapter 4.6 --- Promoted SC Activation by LMHFV and its Possible Roles in Histological Improvement --- p.99 / Chapter 4.6.1 --- Possible Regulatory Mechanisms of LMHFV in Promoting SC Activation --- p.100 / Chapter 4.7 --- Disuse-induced Muscle Atrophy Successfully Developed by Tail Suspension Model --- p.102 / Chapter 4.8 --- Limitations --- p.103 / Chapter 4.8.1 --- In vitro measurement of isolated muscle contractile functions --- p.103 / Chapter 4.8.2 --- Overestimation of satellite cell (SC) counts --- p.104 / Chapter 4.9 --- Future studies --- p.105 / Chapter 4.9.1 --- Effects of LMHFV on Fast muscle --- p.106 / Chapter 4.9.2 --- Parameters of LMHFV treatment --- p.107 / Chapter 4.9.3 --- Clinical Trials --- p.107 / Chapter Chapter 5 --- Conclusions --- p.110 / Bibliography --- p.113

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