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31	Avaliação ultrassonográfica da reparação do tendão calcâneo após secção percutânea para a correção do equino residual do pé torto congênito idiopático / Ultrasonographic evaluation of Achilles tendon repair after percutaneous sectioning for the correction of congenital clubfoot residual equinus Maranho, Daniel Augusto Carvalho 14 August 2009 (has links) A maioria dos casos de pé torto congênito tratados pelo método de Ponseti requer a secção do tendão calcâneo para correção do equino residual. Evidências clínicas sugerem que há completa cicatrização entre os cotos tendíneos, mas este processo reparativo ainda não foi suficientemente estudado. Esta investigação teve como objetivo avaliar o processo de reparação que ocorre após a secção percutânea do tendão calcâneo para a correção do equino residual no pé torto congênito idiopático tratado pelo método de Ponseti. Por meio de estudo prospectivo, foram analisadas 37 tenotomias em 26 pacientes com pé torto congênito idiopático tratados pelo método de Ponseti, com seguimento mínimo de um ano após a secção. A tenotomia foi realizada percutaneamente com agulha biselada de grosso calibre, sob sedação e anestesia local. O exame ultrassonográfico foi feito logo após a secção tendínea para assegurar que ela tenha sido completa e mensurar o afastamento entre os cotos. A reparação foi estudada por meio da ultrassonografia realizada três semanas, seis meses e um ano após a tenotomia. A ultrassonografia, realizada imediatamente após o procedimento, mostrou que, em alguns casos, feixes tendíneos residuais persistiam entre os cotos, mas foram completamente seccionados, em seguida, sob controle ultrassonográfico. Houve afastamento médio de 5,65 mm ± 2,26 (2,3 a 11,0 mm) entre os cotos tendíneos logo após a secção. Em um caso ocorreu sangramento maior que o habitual, que foi controlado com pressão local e não provocou interferência no tratamento. Após três semanas, a ultrassonografia mostrou regeneração tendínea com preenchimento do espaçamento entre os cotos por tecido hipoecoico com ecotextura irregular e com restituição da continuidade entre os cotos demonstrada dinamicamente pela transmissão de movimentos do músculo tríceps sural para o calcanhar. Seis meses após a tenotomia, o exame ultrassonográfico evidenciou que o tecido de reparação apresentava ecotextura de aspecto fibrilar e, quando comparado ao tendão normal, havia leve ou moderada hipoecogenicidade e espessamento cicatricial. Um ano após a tenotomia, o exame ultrassonográfico mostrou estrutura fibrilar na região de reparação, com ecogenicidade semelhante ao tendão normal, mas ainda apresentando espessamento tendíneo cicatricial. Em termos gerais, ocorreu rápida cicatrização após a secção percutânea do tendão calcâneo, que restabeleceu a continuidade entre os cotos. Ao final do período de observação, o tecido de reparação tendínea apresentou aspecto ultrassonográfico semelhante ao lado normal, exceto por leve espessamento, o que sugere um mecanismo de reparação predominantemente intrínseco. / Most cases of congenital clubfoot treated by the Ponseti technique require percutaneous Achilles tenotomy in order to correct the residual equinus. Clinical evidences suggest that complete healing occurs between the cut tendon stumps, but there have not yet been any detailed studies investigating this reparative process. This study was performed to assess the Achilles tendon repair after percutaneous sectioning to correct the residual equinus of clubfoot treated by the Ponseti method. A prospective study analyzed 37 tenotomies in 26 patients with clubfoot treated by the Ponseti technique, with a minimum follow-up of one year after the section. The tenotomy was performed percutaneously with a large-bore needle bevel with patient sedation and local anesthesia. Ultrasonographic scanning was performed after section to ascertain that the tenotomy had been completed and to measure the stump separation. In the follow-up period, the reparative process was followed ultrasonographically at three weeks, six months and one year post-tenotomy. The ultrasonography performed immediately after the procedure showed that in some cases, residual strands between the tendon ends persisted, and these were completely sectioned under ultrasound control. A mean retraction of 5.65 mm ± 2.26 (range, 2.3 to 11.0 mm) between tendon stumps after section was observed. Unusual bleeding occurred in one case and was controlled by digital pressure, with no interference with the final treatment. After three weeks, ultrasonography showed tendon repair with the tendon gap filled with irregular hypoechoic tissue, and also with transmission of muscle motion to the heel. Six months after tenotomy, there was structural filling with a fibrillar aspect, mild or moderate hypoechogenicity, and tendon scar thickening when compared to a normal tendon. One year after tenotomy, ultrasound showed a fibrillar structure and the echogenicity at the repair site that was similar to a normal tendon, but with persistent mild tendon scarring thickness. It was observed that there was a fast reparative process after Achilles tendon percutaneous sectioning that reestablished continuity between stumps. The reparative tissue evolved to tendon tissue with a normal ultrasonographic appearance except for mild thickening, suggesting a predominantly intrinsic repair mechanism Achilles tendon Clubfoot Deformidades do Pé. Foot deformities Pé Torto Tendão do Calcâneo (Tendão Calcâneo) Ultrasonography Ultrassonografia
32	Estimativa das forças musculares em seres humanos durante o andar / Muscle force estimation during human walking Orselli, Maria Isabel Veras 26 September 2014 (has links) A estimativa das forças musculares durante o movimento humano tem inúmeras aplicações na área da Biomecânica. Nesse trabalho descrevo a aplicação de métodos de estimativa das forças musculares a dois diferentes problemas. O primeiro consiste em se quantificar as cargas a que os músculos e as articulações do membro inferior de adultos jovens estão sujeitos durante o andar em ambiente aquático e terrestre. Já o segundo consiste na investigação do efeito do aumento da complacência do tendão de Aquiles (TAq; tendão do triceps sural) na dinâmica de produção de força dos músculos gastrocnêmio e sóleo (G e S respectivamente; ambos músculos do triceps sural), visando compreender se o aumento da complacência, observado com o envelhecimento, poderia contribuir para as alterações na biomecânica da marcha de idosos. A hipótese no primeiro estudo era de que as forças desenvolvidas pelos músculos do membro inferior durante o andar em ambiente aquático não seriam menores em relação ao ambiente terrestre. Especificamente, esperávamos observar um aumento nas forças geradas nos flexores e extensores de quadril e joelho. No segundo estudo, nossas hipóteses eram de que o aumento na complacência do TAq faria com que as fibras musculares operassem mais distantes do seu comprimento ótimo, aumentando os níveis de ativação e o consumo metabólico dos músculos G e S. Com o objetivo de verificar as hipóteses levantadas nos dois estudos propostos utilizamos o software OpenSim 3.1 e dados experimentais dos movimentos estudados, para realizar simulações do andar humano e estimar as forças nos músculos do membro inferior durante essa tarefa. Em ambos os estudos os dados experimentais foram adquiridos através de sistemas de análise do movimento humano compostos por câmeras, para filmar os movimentos corporais dos voluntários, e plataformas de força, para medir as forças de reação do solo. Os resultados obtidos no primeiro estudo confirmaram nossas hipóteses, uma vez que indicam que durante determinadas fases do ciclo da marcha as forças geradas pelos músculos flexores e extensores de joelho e quadril, tais como os músculos isquiotibiais e o gluteo máximo, podem exceder as forças geradas em ambiente terrestre. Esses resultados corroboram a idéia de que o andar em ambiente aquático pode ser efetivo no ganho de força muscular. As hipóteses para o segundo estudo também foram confirmadas. Adicionalmente, nossos resultados previram que, para o triceps sural gerar a potência necessária para manter o indivíduo andando com velocidade confortável, os tendões dos músculos G e S devem se movimentar de maneira independente. A diferença no movimento dos feixes do TAq é tanto maior quanto maior a sua complacência. Além disso, verificamos que há um mínimo no consumo metabólico do gastrocnêmio em um nível específico de complacência do TAq, enquanto para o sóleo o consumo aumenta sistematicamente com o aumento da complacência. Esses resultados indicam que um aumento na complacência do TAq pode comprometer o desempenho dos músculos do triceps sural e aumentar o seu consumo energético, contribuindo para as alterações na biomecânica da marcha de idosos. As informações fornecidas nos dois estudos aqui apresentados podem auxiliar profissionais de área da saúde no planejamento de programas de treinamento e reabilitação para adultos e idosos, tanto no ambiente terrestre quanto no ambiente aquático. / Muscle force estimation during human motion has numerous applications in Biomechanics. In this work, we describe the application of methods of muscle force estimation to solve for two different problems. The first problem is to quantify lower limb muscle and joint loads that young adults are subjected to when walking in the aquatic and terrestrial environment. The second problem is to understand the effect of increased Achilles tendon compliance (AT; the triceps surae tendon) in the gastrocnemius and soleus contractile dynamics (G and S respectively; both triceps surae muscles), aiming at understanding if increased AT compliance, that occurs with aging, could play a role in the elderly gait alterations. Our hypothesis for this first study was that the forces developed by the lower limb muscles in water are not always lower than on land. Specifically, we hypothesized that the forces developed by the hip and knee flexors and extensors would be grater in water than on land. For the second study our hypothesis was that the compliant AT would cause the fibers to operate far from its optimal length resulting in higher levels of activation in both G and S, as well as higher specific metabolic consumption. In order to verify our hypotheses for both studies we used the software OpenSim 3.1 together with experimental data of volunteers walking in aquatic and terrestrial environments to simulate human walking and to estimate the forces developed by the lower limb muscles during this task. In both studies, experimental data were acquired through human movement analysis systems composed of cameras, to record the movements of the volunteers\' body, and force plates, to measure ground contact forces. We confirmed our hypotheses to the first study since our results showed that in certain periods of the gait cycle the forces developed in the knee and hip flexors and extensors, such as the hamstrings and the gluteus maximus, inside water exceeded the forces in corresponding periods of land walking. Those results corroborate the idea that walking inside water may be effective in muscle strengthening. We also confirmed our hypotheses to the second study. Additionally, we predicted that to generate the necessary power to walk with comfortable speed the triceps surae G and S tendon must move independently. This differential behavior becomes larger the greater the AT compliance. In addition, we also observed that G metabolic energy consumption was minimized for a specific level of AT compliance while S systematically increased. Those results suggest that increased AT compliance can compromise the triceps surae performance and increase metabolic consumption, contributing to the alterations on the elderly gait biomechanics. The results of our two studies may assist health professionals to better plan training and rehabilitation programs for adults and elderly in both, terrestrial and aquatic environment. Achilles tendon Biomecânica Biomechanics Elderly Hidroterapia Hydrotherapy Idosos Simulação Simulation Tendão de Aquiles
33	Stimulation of tendon repair by platelet concentrate, CDMP-2 and mechanical loading in animal models Virchenko, Olena January 2007 (has links) Growth factor delivery may be useful to accelerate the rate of tendon healing. We studied Platelet Concentrate, which in effect can be regarded as a cocktail of growth factors relevant for tendon healing. In a rat Achilles tendon transection model, one postoperative injection of Platelet Concentrate resulted in increased strength even 3 weeks later. Mechanical stimulation improves the repair of ruptured tendons. We studied the effects of platelets upon Achilles tendon regenerates in rats 3, 5 and 14 days after transection, either unloaded or mechanically stimulated. At 14 days, physical activity and platelets increased repair independently. Unloading decreased the mechanical properties of the repair tissue to less than half of normal. Moreover, the platelets had no effect without loading. Thrombin, which we used for platelet activation, improved healing of the rat Achilles tendon by itself. Conversely, continuous inhibition of thrombin by low molecular weight heparin (LMWH) inhibited tendon repair. However, intermittent inhibition, similar to clinical thromboprophylaxis, had no effect on tendon healing. Cartilage Derived Morphogenetic Protein-2 (CDMP-2) can improve tendon healing in loaded defect models. We now studied unloaded repair in a rabbit patellar tendon model. Two hours postoperative, the rabbits received CDMP-2 injected into the haematoma. The healing tendon became 65 % stronger than controls. We then studied Achilles tendon healing with CDMP-2 injections in sheep, to get a bigger animal model. There was an unexpectedly high variation of repair in these animals, and the study turned out to be underpowered. Spontaneous ruptures in humans have a more variable geometry than in our sheep model, so humans can also be expected to vary a lot in mechanical characteristics of Achilles tendon repair. This accentuates the importance of individualized rehabilitation programs. In conclusion, both platelet concentrate and CDMP-2 injections might be of interest for clinical use as a complement to surgical or conservative treatment of tendon ruptures. Platelet treatment for tendon ruptures should probably be combined with early physiotherapy. Achilles tendon injuries physiology Blood platelets tendon injuries physiopathology therapy wound healing Orthopaedics Ortopedi
34	The human Achilles tendon : innervation and intratendinous production of nerve signal substances - of importance in understanding the processes of Achilles tendinosis Bjur, Dennis January 2010 (has links) Tendinopathies are painful tendon conditions of presumably multifactorial genesis. In tendinosis, as in Achilles tendinosis, there is apart from pain also morphological changes which are described as degenerative with no signs of inflammation. The exact mechanisms behind these conditions are still, to a large extent, unknown. Pain, being the foremost impairing symptom, leads us to the hypothesis that nerves are deeply involved in the symptoms and processes of Achilles tendinosis. Locally produced nerve signal substances may also be involved in the processes. Knowledge of the innervation patterns within the tendon and knowledge on a possible local nerve signal substance production are therefore of utmost importance. There is a lack of information on these aspects. The specific aims of this thesis were 1) to investigate the innervation patterns regarding general, sensory, cholinergic and sympathetic innervations, and 2) to examine for the possible occurrence of a production of nerve signal substances and a presence of receptors related to these in the tendon cells, the tenocytes. Painfree normal and tendinosis Achilles tendons were examined. Immunohistochemistry, using antibodies against the general nerve marker PGP9.5, the synthesizing enzymes for acetylcholine (choline acetyltransferase; ChAT), and catecholamines (tyrosine hydroxylase; TH), the vesicular acetylcholine transporter (VAChT), neuropeptide Y (NPY), substance P and calcitonin gene-related peptide, was applied. Immunohistochemistry was also used for the delineation of muscarinic (M2R), adrenergic (α1-AR) and NPY-ergic (Y1 and Y2) receptors. To detect mRNA for TH and ChAT, in situ hybridization was used. In normal Achilles tendons, as well as in the tendinosis tendons, there was a very scanty innervation within the tendon tissue proper, the main general, sensory and sympathetic innervations being found in the paratendinous loose connective tissue. Interestingly, the tenocytes showed immunoreactions for ChAT, VAChT, TH, M2R, α1-AR and Y1R. The reactions were clearly more observable in tendons of tendinosis patients than in those of controls. The tenocytes of tendinosis patients also displayed mRNA reactions for ChAT and TH. Nevertheless, all tenocytes in the tendinosis specimens did not show these reactions. Immunoreactions for α1-AR, M2R and Y1R were also seen for blood vessel walls. The present thesis shows that there is a very limited innervation within tendon tissue proper, whilst there is a substantial innervation in the paratendinous loose connective tissue. It also gives evidence for an occurrence of production of catecholamines and acetylcholine in tenocytes, especially for tendinosis tendons. Furthermore, that ACh, catecholamines and NPY can have effects on these, as well as on blood vessels, via the receptors observed. The observations suggest that Achilles tendon tissue, whilst containing a very scarce innervation, exhibits autocrine/paracrine cholinergic/catecholaminergic/NPY-ergic effects that are upregulated in tendinosis. These findings are of great importance as the results of such effects may mimic processes that are known to occur in tendinosis. That includes effects related to proliferation and angiogenesis, and blood vessel and collagen regulating effects. In conclusion, within the Achilles tendon there is a very scarce innervation, whilst there appears to be a marked local production of nerve signal substances in Achilles tendinosis, namely in the tenocytes, the cells also harbouring receptors for these substances. The observations give a new insight into how the tendon tissue of the Achilles tendon is influenced by signal substances and may give options for new treatments of Achilles tendinosis. Achilles tendon tendinosis tendinopathy nerve signal substances hälsena Achillessena tendinos tendinopati Orthopaedics Ortopedi
35	Eccentric training in the treatment of tendinopathy Jonsson, Per January 2009 (has links) Chronic painful tendinopathies are common, not only in sports and recreationally active people, but also among people with a sedentary lifestyle. Both the lower and upper limbs are affected. There is lack of knowledge about the etiology and pathogenesis to tendinopathy, and many different treatments options have been presented. Unfortunately, most treatments have not been tested in scientific studies. Conservative (non-surgical) treatment has since long shown unsatisfactory results and surgical treatment is known to give unpredictable results. The aim of this thesis was to evaluate new models of painful eccentric training for the conservative treatment of different chronic tendinopathies. After promising results in a pilot study, using painful eccentric calf muscle training in patients with chronic mid-portion Achilles tendinopathy, we investigated if these results could be reproduced in a larger group of patients with both mid-portion and insertional Achilles tendinopathy (study I). After 12 weeks, 89% of the patients with pain from the mid-portion were satisfied and back in previous activities. In the group with insertional Achilles tendinopathy the results were poor. A new model for eccentric training was designed for patients with insertional Achilles tendinopathy. The eccentric calf muscle training was done from tip-toe to floor level (study II). With this new regimen 67% of the patients were satisfied and back in previous activities. The next step was to investigate the effects of painful eccentric quadriceps training on patients with jumper´s knee/patellar tendinopathy (study III). Two different training protocols were used. Eccentric training performed on a 250 decline board showed promising results with reduced pain and a return to previous activities, while eccentric training without the decline board had poor results. In a following prospective study, patients with jumper´s knee/patellar tendinopathy were randomised to either concentric or eccentric painful quadriceps training on a 250 decline board (study IV). After 12 weeks of training, there were significantly better results in the group that did eccentric training. In a pilot study (study V), we investigated painful eccentric deltoideus and supraspinatus muscle training on a small group of patients on the waiting list for surgical treatment of subacromial impingement syndrome. After 12 weeks of training, 5 out of 9 patients were satisfied with the results of treatment and withdrew from the waiting list for surgery. In conclusion, the present studies showed good clinical results with low risks of side effects and low costs. Thus, we suggest that painful eccentric training should be tried in patients with Achilles and patellar tendinopathy before intratendinous injections and surgery are considered. For patients with chronic painful impingement syndrome, the results of our small pilot study are interesting, and stimulates to randomised studies on larger materials. Eccentric training Achilles tendon patellar tendon supraspinatus tendon impingement tendinopathy tendinosis
36	Influences of paratendinous innervation and non-neuronal substance P in tendinopathy : studies on human tendon tissue and an experimental model of Achilles tendinopathy Andersson, Gustav January 2010 (has links) Pain of the musculoskeletal system is one of the most common reasons for people seeking medical attention, and is also one of the major factors that prevent patients from working. Chronic tendon pain, tendinopathy, affects millions of workers world-wide, and the Achilles tendon is an important structure often afflicted by this condition. The pathogenesis of tendinopathy is poorly understood, but it is thought to be of multifactoral aetiology. It is known that tendon pain is often accompanied not only by impaired function but also by structural tissue changes, like vascular proliferation, irregular collagen organisation, and hypercellularity, whereby the condition is called tendinosis. In light of the poor knowledge of tendinosis pathophysiology and recent findings of a non-neuronal signalling system in tendon tissue, the contributory role of neuropeptides such as substance P (SP) has gained increased interest. SP, known for afferent pain signalling in the nervous system, also has multiple efferent functions and has been described to be expressed by non-neuronal cells. As pain is the most prominent symptom of tendinopathy, the focus of the studies in this thesis was the innervation patterns of the tissue ventral to the Achilles tendon (i.e. the tissue targeted in many contemporary treatment methods) as well as the distribution of SP and its preferred receptor, the neurokinin-1 receptor (NK-1R), in the tendon tissue itself. It was hereby hypothesised that the source of SP affecting the Achilles tendon might be the main cells of the tendon tissue (the tenocytes) as well as paratendinous nerves, and that SP might be involved in tendinosis- development. The studies were conducted, via morphological staining methods including immunohistochemistry and in situ hybridisation, on tendon biopsies from patients suffering from Achilles tendinosis and on those from healthy volunteers. The hypothesis of the thesis was furthermore tested using an experimental animal model (rabbit) of Achilles tendinopathy, which was first validated. The model was based on a previously established overuse protocol of repetitive exercise. In the human biopsies of the tissue ventral to the Achilles tendon, there was a marked occurrence of sympathetic innervation, but also sensory, SP-containing, nerve fibres. NK-1R was expressed on blood vessels and nerve fascicles of the paratendinous tissue, but also on the tenocytes of the tendon tissue proper itself, and notably more so in patients suffering from tendinosis. Furthermore, the human tenocytes displayed not only NK-1R mRNA but also mRNA for SP. The animal model was shown to produce objectively verified tendinosis-like changes, such as hypercellularity and increased vascularity, in the rabbit Achilles tendons, after a minimum of three weeks of the exercise protocol. The contralateral leg of the animals in the model was found to be an unreliable control, as bilateral changes occured. The model furthermore demonstrated that exogenously administered SP triggers an inflammatory response in the paratendinous tissue and accelerates the intratendinous tendinosis-like changes such that they now occur after only one week of the protocol. Injections of saline as a control showed similar results as SP concerning hypercellularity, but did not lead to vascular changes or pronounced paratendinous inflammation. In summary, this thesis concludes that interactions between the peripheral sympathetic and sensory nervous systems may occur in Achilles tendinosis at the level of the ventral paratendinous tissue, a region thought to be of great importance in chronic tendon pain since many successful treatments are directed toward it. Furthermore, the distribution of NK-1R:s in the Achilles tendon described in these studies gives a basis for SP, whether produced by nerves mainly outside the tendon or by tenocytes within the tendon, to affect blood vessels, nerve structures, and/or tendon cells, especially in tendinosis patients. In light of this and of previously known SP-effects, such as stimulation of angiogenesis, pain signalling, and cell proliferation, the proposed involvement of SP in tendinosis development seems likely. Indeed, the animal model of Achilles tendon overuse confirms that SP does induce vascular proliferation and hypercellularity in tendon tissue, thus strengthening theories of SP playing a role in tendinosis pathology. Achilles tendon tendinopathy tendinosis paratenon innervation substance P neuropeptides neurokinin-1 receptor Anatomy Anatomi
37	Neuropeptide and catecholamine effects on tenocytes in tendinosis development : studies on two model systems with focus on proliferation and apoptosis Backman, Ludvig January 2013 (has links) Background: Achilles tendinopathy is a common clinical syndrome of chronic Achilles tendon pain combined with thickening of the tendon and impaired tendon function. Tendinopathy is often, but not always, induced by mechanical overload, and is frequently accompanied by abnormalities at the tissue level, such as hypercellularity and angiogenesis, in which case the condition is called tendinosis. In tendinosis, there are no signs of intratendinous inflammation, but occasionally increased apoptosis is observed. Tendinosis is often hard to treat and its pathogenesis is still not clear. Recently, a new hypothesis has gained support, suggesting a biochemical model based on the presence of a non-neuronal production of classically neuronal signal substances by the primary tendon cells (tenocytes) in tendinosis. The possible functional importance of these signal substances in tendons is unknown and needs to be studied. In particular, the neuropeptide substance P (SP) and catecholamines are of interest in this regard, since these substances have been found to be up-regulated in tendinosis. As both SP and catecholamines are known to exert effects in other tissues resulting in changes similar to those characteristic of tendinosis, it is possible that they have a role in tendinosis development. It is furthermore unknown what elicits the increased intratendinous neuropeptide production in tendinosis, but given that tendon overload is a prominent riskfactor, it is possible that mechanical stimuli are involved. The hypothesis of this thesis work was that intratendinous production of SP is up-regulated in response to load of Achilles tendons/tenocytes, and thatstimulation of the preferred SP receptor, the neurokinin-1 receptor (NK-1 R), aswell as stimulation of the catecholamine α2 adrenoreceptors, contribute to the hypercellularity seen in tendinosis, via increased proliferation and/or decreased apoptosis, and that SP stimulates tendon angiogenesis. The purpose of the studies was to test this hypothesis. To achieve this, two model systems were used: One in vivo (rabbit Achilles tendon overload model of tendinosis) and one in vitro (human primary Achilles tendon cell culture model). Results: In the rabbit Achilles tendon tissue, SP and NK-1 R expression was extensive in the blood vessel walls, but also to some extent seen in the tenocytes. Quantification of endogenously produced SP in vivo confirmed intratendinous production of the peptide. The production of SP by human tendon cells in vitro was furthermore demonstrated. The catecholamine synthesizing enzyme tyrosine hydroxylase (TH), as well as the α2A adrenoreceptor (α2A AR), were detected in the tenocytes, both in vivo in the rabbit tissue and in vitro in the human tendon cells. As a response to mechanical loading in the in vivo model, the intratendinous levels of SP increased, and this elevation was found to precede distinct tendinosis changes. The in vitro model demonstrated the same response to load, i.e. an increased SP expression, but in this case also a decrease in the NK-1 R expression. In the in vivo model, exogenously administered SP, as well as clonidine (an α2 AR agonist), accelerated tenocyte hypercellularity, an effect that was not seen when administrating a specific α2A AR antagonist. Exogenous administration of SP also resulted in intratendinous angiogenesis and paratendinous inflammation. In the in vitro model, both SP and clonidine had proliferative effects on the human tenocytes, specifically mediated via NK-1R and α2A AR, respectively; both of which in turn involved activation/phosphorylation of the extracellular signal-regulated kinases 1 and 2 (ERK1/2). Exogenously administered SP, in Anti-Fas induced apoptosis of the tenocytes in vitro, confirmed SP to have an anti-apoptotic effect on these cells. This effect was specifically mediated via NK-1 R and the known anti-apoptotic Akt pathway. Conclusions: In summary, this thesis concludes that stimulation of NK-1 R and α2A AR on tenocytes, both in vitro and in vivo, mediates significant cell signalling effects leading to processes known to occur in tendinosis, including hypercellularity. The pathological role of the hypercellularity in tendinosis is still unclear, but it is likely to affect collagen metabolism/turnover and arrangement, and thereby indirectly tendon biomechanical function. Additional evidence is here provided showing that SP not only causes tenocyte proliferation, but also contributes to anti-apoptotic events. Furthermore, it was concluded that SP may be involved in the development of tendinosis, since its production is increased in response to load, preceding tendinosis, and since SP accelerates tendinosis changes, through some mechanistic pathways here delineated. These findings suggest that inhibition of SP, and possibly also catecholamines, could be beneficial in the reconstitution/normalization of tendon structure in tendinosis. substance P neurotransmitter tendinopathy overuse injury rabbit tendon cell Achilles tendon
38	Morphological changes of native rat achilles tendons following augmented soft tissue mobilization Leaman, Jason 03 June 2011 (has links) Augmented Soft Tissue Mobilization, a massage therapy which uses a solid instrument rather than human fingers to treat musculoskeletal injuries, has been successful in treating tendinitis. Davidson et al. studied the functional and morphological affects of ASTM on collagenase induced Achilles tendinitis in Sprague-Dawley rats. Morphological observations showed a significant increase in the number and activation of fibroblasts in the ASTM treated Groups. The authors suggested that the physical force of ASTM may promote tendon healing via increased fibroblast recruitment. An important, but unexplained, question is how ASTM would affect the fibroblasts of native, noncollagenase injured, tendons. Studies have shown that mechanical forces can alter cellular functions. The purpose of this study was to examine the morphological changes in native Sprague-Dawley rat Achilles tendons after ASTM therapy using different application pressures.Three animal Groups were randomly established: A) control Group with no ASTM; B) light ASTM with 1 Newton of pressure; and C) heavy ASTM with 3 Newtons of pressure. Upon completion of the therapy, the Achilles tendons of each Group were examined with light and electron microscopy techniques to assess fibroblast number, tendon morphology, and the presence of type I and type III collagen. Fibroblast counts from each Group were compared using a two-way ANOVA, multiple regression, and curvilinear regression analysis. Morphological differences were shown between the three Groups, especially between the non force Group and the two force Groups. The ASTM Group treated with one Newton demonstrated the greatest mean fibroblast count (165.1+/-55.8&160.7+/-49.8). Electron microscopy revealed the presence of activated fibroblasts in the tendons of the two force Groups, ASTM Groups. Polarizing microscopy showed a dramatic increase in the amount of Type III collagen in the two force Groups compared to the non force Group.Ball State UniversityMuncie, IN 47306 Rats -- Morphology. Fibroblast growth factors.
39	Traction-induced injury of rat Achilles' tendon a new in vivo biomechanical model for the assessment of tendon disease and injury / Silverman, Edward Brown, January 2007 (has links) Thesis (M.S.)--Mississippi State University. College of Veterinary Medicine. / Title from title screen. Includes bibliographical references.
40	The effects of a short-term plyometrics program on the running economy and Achilles tendon properties of female distance runners de la Cruz, Lemmuel Domingo Unknown Date No description available. plyometrics distance running running economy Achilles tendon tendon stiffness ultrasound female runners training study

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