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An investigation of tendon pain and failed tendon healing in a calcific tendinopathy rat model.January 2009 (has links)
Chan, Lai Shan. / Thesis submitted in: Dec. 2008. / Thesis (M.Phil.)--Chinese University of Hong Kong, 2009. / Includes bibliographical references (leaves 148-152). / Abstracts in English and Chinese. / ACKNOWLEDGEMENT --- p.I / PUBLICATIONS --- p.II / ABBREVIATION --- p.III-IV / INDEX OF FIGURES --- p.V-IX / INDEX OF TABLES --- p.X / ABSTRACT (English) --- p.XI-XIII / ABSTRACT (Chinese) --- p.XIV / Chapter CHAPTER 1 --- INTRODUCTION --- p.1-22 / Chapter CHAPTER 2 --- METHODOLOGY --- p.23-49 / Chapter CHAPTER 3 --- RESULTS --- p.50-97 / Chapter CHAPTER 4 --- DISCUSSION --- p.98-117 / BIBLIOGRAPHY / APPENDIX
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Low intensity pulsed ultrasound accelerates bone-tendon junction healing. / CUHK electronic theses & dissertations collectionJanuary 2006 (has links)
Establishment of animal model for studying treatment efficacy of low-intensity pulsed ultrasound stimulations for accelerating bone-tendon repair. Standard partial patellectomy was conducted in the 18-week old rabbits that were then divided into the LIPUS treatment and control groups. The animals were followed for 2, 4, 8, and 16 weeks for various tissue analyses. LIPUS was applied to the experimental animals from postoperative day 3 to 16 weeks. We demonstrated that the healing process of PPT junction was initiated through endochondral ossification. The results showed that the size and length of newly formed bone, and its bone mineral content (BMC), but not its bone mineral density (BMD) were correlated with the failure load, ultimate strength and energy at failure. Using radiographic, biomechanical, histomorphologic and biomechanical methods, it was found that LIPUS had significant accelerating effect on PPT junction repair. We validated our study hypothesis in that LIPUS enhances bone-tendon junction healing by stimulating angiogenesis, chondrogenesis and osteogenesis. / Establishment of in vitro model for mechanism study on effects of low-intensity pulsed ultrasound stimulations. An in vitro model of osteoblast-like cell line (SaOS-2 cells) was studied using cDNA microarray to explore the molecular mechanism mediated by LIPUS. This microarray analysis revealed a total of 165 genes that were regulated at 4 and 24 hours by LIPUS treatment in osteoblastic-like cells. These genes belonged to more than ten protein families based on their function and were involved in some signal transduction pathways. This study has validated the hypothesis that LIPUS can regulate a number of critical genes transient expressions in osteoblast cell line Saos-2. / Keywords. partial patellectomy model; bone-tendon junction repair; low intensity pulsed ultrasound stimulations (LIPUS); gene expression; complementary DNA microarray; rabbit. / This study explored the intact morphology, regular healing and the augmented healing under the effects of low intensity pulsed ultrasound stimulations (LIPUS) on the patella-patella tendon (PPT) junction in a rabbit partial patellectomy model. To probe its possible mechanism, the key genes involved in regulating osteogenesis mediated by LIPUS were identified using the state-of-the-art methods---complementary DNA microarray. / Lu Hongbin. / "June 2006." / Advisers: Ling Qin; Kwok Sui Leung. / Source: Dissertation Abstracts International, Volume: 68-03, Section: B, page: 1548. / Thesis (Ph.D.)--Chinese University of Hong Kong, 2006. / Includes bibliographical references (p. 259-288). / 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, [200-] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Abstracts in English and Chinese. / School code: 1307.
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Regeneration of transition zone in bone tendon junction healing with cartilage interposition. / CUHK electronic theses & dissertations collectionJanuary 2008 (has links)
A direct bone tendon junction consists of four zones: tendon, uncalcified fibrocartilage, calcified fibrocartilage, and bone. The uncalcified and calcified fibrocartilage together forms the transition zone. This organization ensures a gradual transition in stiffness and material properties, and protects the junction from failure. Transition zone regeneration during bone tendon junction healing is important to restore this unique protective mechanism. / Bone tendon junction repair is involved in many orthopaedic reconstructive procedures. Healing is observed to be slow. The junction often heals by fibrous tissue formation. Previous attempts to enhance bone tendon junction healing have resulted in increased bone formation. However, fibrocartilage transition zone is not restored. / This thesis describes a series of studies on transition zone regeneration in bone tendon junction healing using two partial patellectomy animal models. The healing process inside a bone trough was first studied and characterized. Little transition zone regeneration was observed except near the articular cartilage cut surface. The possibility of using articular cartilage to stimulate transition zone regeneration was explored. Both articular cartilage autograft and allogeneic cultured chondrocyte pellet implantations resulted in significantly increased fibrocartilage transition zone regeneration. Cell tracking indicated that the regenerated tissue likely originated from host cells. To elucidate the mechanism of stimulation by allogeneic cultured chondrocyte pellet, the role of cellular and matrix component needed to be differentiated. Freezing and rapid freeze thaw cycles permanently devitalized the allogeneic cultured chondrocyte pellet, but retained its structural integrity and matrix contents. Preliminary results indicated that implantation of the devitalized allogeneic cultured chondrocyte pellet could still increase fibrocartilage transition zone regeneration. Cellular activity seemed not to be essential for the stimulatory effect. / With further research and development, it is envisioned that a cartilage-based stimulation method for fibrocartilage transition zone regeneration in bone tendon junction healing will be developed for clinical application. / Wong Wan Nar, Margaret. / Source: Dissertation Abstracts International, Volume: 70-06, Section: B, page: 3423. / Thesis (M.D.)--Chinese University of Hong Kong, 2008. / Includes bibliographical references (leaves 216-231). / 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, [200-] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Abstracts in English and Chinese. / School code: 1307.
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Extraction and biomedical application of peripheral blood stem cells in sheep and horsesStrydom, Aliki Veruschka 12 1900 (has links)
Thesis (PhD (Physiological Sciences))--University of Stellenbosch, 2007. / SUPERFICIAL digital flexor tendon injury has a serious negative impact on the
competitive horse industry. Injured horses require up to a year of rest for recovery and
likelihood of re-injury upon return to normal activity is as high as 80 %. Tendon healing
requires (a) production of collagen by fibroblasts, to provide tensile strength and elasticity to
the tendon, (b) minimisation of restrictive fibrosis, which compromises tendon gliding
function and (c) minimisation of peritendinous adhesions. We review conventional
treatments for tendon healing before exploring stem cell application as a therapeutic
alternative. We promote the use of hematopoietic and mesenchymal stem cells derived from
adult peripheral blood - as opposed to bone marrow-derived stem cells or embryonic stem cell
sources - and review published research output in this regard. In conclusion, we outline our
research objectives and present and discuss our results in the chapters that follow.
Mononuclear cells - consisting of hematopoietic stem cells, mesenchymal stem cells
and leucocytes – were isolated from the peripheral blood of sheep and horses through red
blood cell lysis and blood plasma extraction. Cell counts and propidium iodide dye exclusion
viability tests were conducted on the cell pellets. Sheep sub samples were tested for CD45
expression and horse sub samples for CD4 and CD11a/18 cell surface markers by flow
cytometry for characterisation purposes. In both cases, separate sub samples were incubated
with matched immunoglobulin (IgG) isotypes, conjugated to fluorescein isothiocyanate
(FITC), to serve as controls. For the culture of mononuclear cells, 4.5 x 106 cells were
selected for autologous sheep injections, 3 x 106 CD45- cells for allogeneic sheep injections
(the latter excluding leucocytes that may induce an immune response) and 72 x 106 cells for
horse injections. These cells were incubated with bromo-deoxyuridine (BrdU), cultured and
subsets were extracted for a second round of cell counts and viability tests before being
resuspended in blood plasma. For the horse samples an additional 1 x 106 mononuclear cells
were incubated until reaching 60 % confluence and tested for myogenic differentiation. Low
cell mortality and lack of fluorescence from IgG-FITC controls reflected effective protocols
and a lack of false positive results. The fact that the equine cell population differentiated into
myotubes verified the presence of mesenchymal stem cells in injections.
We tested whether surgical incisions or collagenase injections best mimicked naturally
occurring tendon injuries and compiled macroscopic and microscopic descriptions of tendon
injury sites at seven weeks post-injury. The superficial digital flexor tendons of 27 sheep
received an incision, a collagenase injection or a saline control injection. After one week a number of sheep were sacrificed while the remainder received further saline treatment and
were sacrificed after another seven weeks. Tendons were examined through clinical
observations, image analysis of maximum tendon diameter, mechanical testing and
histological sectioning of affected tissues. Collagenase-induced injury resembled tendonitis
more closely than surgically-induced injury. Collagenase-injured tendons (a) induced
lengthier lameness in affected limbs, (b) were more swollen and difficult to palpate, (c)
assumed the bow appearance characteristic of natural injury, (d) experienced extensive
haemorrhage due to collagen lysis, (e) had decreased elasticity and capacity to carry loads and
stress, (f) displayed decreased stiffness due to collagen fibre disruption and (g) developed
severe inflammation. After seven weeks injured tendons displayed increased vascularisation
in the areas of haemorrhage and in the adjacent collagen matrix. High inflammation rates and
low collagen levels however still persisted.
Collagenase injections were used to induce tendonitis in the superficial digital flexor
tendons of 27 sheep. After one week these tendons received treatment with a control saline
solution, autologous peripheral blood mononuclear cells (MNCs) or allogeneic peripheral
blood CD45- MNCs. Healing rates were compared after a further seven week period by
conducting ultrasonographic evaluations, clinical observations, image analyses of maximum
tendon diameter, mechanical tests and histological investigations. Tendons treated with
MNCs displayed an improvement in echogenicity and fibre linearity, higher and more
organised collagen levels, stronger mechanical properties and less swelling. Although these
improvements were not always significant, they provided strong evidence to suggest marked
healing benefits over a longer time period.
Collagenase injections were used to induce tendonitis in the superficial digital flexor
tendons of four horses. After one week these tendons received treatment with either a control
saline solution or autologous peripheral blood mononuclear cells (MNCs). Healing rates were
compared after a further seven week period by conducting ultrasonographic evaluations,
clinical observations, image analysis of maximum tendon diameter and histological
investigations. Tendons treated with MNCs displayed significant improvements in fibre
linearity in the direct vicinity of the lesion, as well as recovery rate thereof, and experienced
less swelling when compared with their untreated counterparts. Healing trends suggested
that, given a longer period of observation post-injury, more significant improvements may
become apparent.
Human adipose tissue is known be an easily accessible and high yielding source of
multipotent mesenchymal stem cells. These stem cells could potentially be used for therapeutic advancement of tendon regeneration. Our first goal was to examine the in vitro
myogenic differentiation potential of adipose-derived, adherent mononuclear cells (MNCs)
from six adult sheep. The second goal was to characterise the population of cells isolated
through various available ovine specific, non-mesenchymal stem cell surface markers,
namely, CD1, CD31, CD34 and CD45. After incubation, only four of the six MNC cultures
started to proliferate. These four cultures all exhibited high myogenic differentiation ability.
The isolated cell populations did not express any of the non-mesenchymal stem cell specific
cell surface markers.
In conclusion, our data suggests that peripheral blood stem cells and adipose-derived
stem cells are important candidate cell types for therapeutic application to improve tendon
repair in horses and sheep. Sufficient time must be allowed following injury and prior to stem
cell treatment (at least one month) and a controlled exercise program should be followed posttreatment.
A larger sample size is required and at least six months of recovery before
macroscopic and histological repair can be analysed more accurately and conclusively.
Ultrasonography should be carried out on a continuous basis, as it is a non-invasive method of
monitoring change over time.
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The development of heparin-based materials for tissue engineering applications to treat rotator cuff tendon injuriesSeto, Song P. 22 May 2014 (has links)
Surgical repair of torn rotator cuff tendons have a high rate of failure and does not address the underlying pathophysiology. Tissue engineering strategies, employing the use of multipotent progenitor cells or growth factors, represent potential therapies to improve the outcome of rotator cuff surgery. The use of glycosaminoglycan-based biomaterials in these therapies may enhance the effectiveness of cell and growth factor delivery techniques. Furthermore, understanding the cellular and molecular mediators in tendon overuse can help elucidate the causes of tendon degeneration. Thus the overall goals of this dissertation were to 1) develop heparin-based biomaterials to enhance cell pre-culture and maintain growth factor bioactivity and 2) characterize the histological and enzymatic changes in a supraspinatus tendon overuse model. To investigate the use of heparin in enhancing dynamic signaling, mesenchymal stem cells (MSCs) were encapsulated in heparin-containing hydrogels and evaluated for differentiation markers when cocultured with a small population of differentiated cells. To probe the effect of sulfation of heparin on the interactions with protein, selectively desulfated heparin species were synthesized and evaluated for their ability to bind and protect proteins. Finally, to develop a tendon overuse model that can become a test bed for testing future targeted therapeutics, an animal model was evaluated for tissue damage and protease activity. Together these studies represent a multi-pronged approach to understanding how tendon tissues become degenerative and for developing technologies to improve the biological fixation of tendon to bone in order to reduce the need for revision surgeries.
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The individual and combined effects of exercise and collagenase on the rodent Achilles tendonDirks, Rachel Candace 11 July 2014 (has links)
Indiana University-Purdue University Indianapolis (IUPUI) / Tendinopathy is a common degenerative pathology that is characterized by activity related pain, focal tendon tenderness, intratendinous imaging changes, and typically results in changes in the histological, mechanical, and molecular properties of the tendon. Tendinopathy is difficult to study in humans, which has contributed to limited knowledge of the pathology, and thus a lack of appropriate treatment options. However, most believe that the pathology is degenerative as a result of a combination of both extrinsic and intrinsic factors.
In order to gain understanding of this pathology, animal models are required. Because each tendon is naturally exposed to different conditions, a universal model is not feasible; therefore, an appropriate animal model must be established for each tendon susceptible to degenerative changes. While acceptable models have been developed for several tendons, a reliable model for the Achilles tendon remains elusive. The purpose of this dissertation was to develop an animal model of Achilles tendinopathy by investigating the individual and combined effects of an intrinsic and extrinsic factor on the rodent Achilles tendon.
Rats selectively bred for high capacity running and Sprague Dawley rats underwent uphill treadmill running (an extrinsic factor) to mechanically overload the Achilles tendon or served as cage controls. Collagenase (intrinsic factor) was injected into one Achilles tendon in each animal to intrinsically break down the tendon. There were no interactions between uphill running and collagenase injection, indicating that the influence of the two factors was independent. Uphill treadmill running alone failed to produce any pathological changes in the histological or mechanical characteristics of the Achilles tendon, but did modify molecular activity. Intratendinous collagenase injection had negative effects on the histological, mechanical, and molecular properties of the tendon.
The results of this dissertation demonstrated that the combined introduction of uphill treadmill running and collagenase injection did not lead to degenerative changes consistent with human Achilles tendinopathy. Intratendiouns collagenase injection negatively influenced the tendon; however, these changes were generally transient and not influenced by mechanical overload. Future studies should consider combinations of other intrinsic and extrinsic factors in an effort to develop an animal model that replicates human Achilles tendinopathy.
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