Epiphyseal plate repair using fat interposition to reverse physeal deformity : an experimental study /

Foster, Bruce Kristian.

January 1989

Thesis (Ph. D.)--University of Adelaide, Dept. of Pathology, 1989. / Includes bibliographical references (leaves 169-197).

Meniscectomy and autogenous graft reconstruction of the rhesus monkey temporomandibular joint articular disc

Tong, Chi-kit, Antonio., 唐志傑.

January 1998

published_or_final_version / abstract / toc / Dentistry / Doctoral / Doctor of Philosophy

Autotransplantation.

Bone-grafting.

Temporomandibular joint.

Monkeys.

Meniscectomy and autogenous graft reconstruction of the rhesus monkey temporomandibular joint articular disc /

Tong, Chi-kit, Antonio.

January 1998

Thesis (Ph. D.)--University of Hong Kong, 1999. / Includes bibliographical references (leaves 157-170).

Epiphyseal plate repair using fat interposition to reverse physeal deformity : an experimental study

Foster, Bruce Kristian.

January 1989

Bibliography: leaves 169-197. Hypothesises that the physis has an internal mechanism of repair to restore physeal function. Aims to establish a defined degree of deformity by partial growth plate excision, then to examine different methods of reversal of such deformity to observe the process of growth plate repair. A secondary aim was to define the percentage of physis that could be resected yet still enable reversal of deformity.

Epiphysis Diseases

Growth plate Diseases

Autotransplantation

Bones Growth

Epiphyseal plate repair using fat interposition to reverse physeal deformity : an experimental study / thesis submitted in March 1989 for the degree of Doctor of Medicine in the University of Adelaide by Bruce Kristian Foster.

Foster, Bruce K.

January 1989

Bibliography: leaves 169-197. / xiv, 197 leaves : / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / Hypothesises that the physis has an internal mechanism of repair to restore physeal function. Aims to establish a defined degree of deformity by partial growth plate excision, then to examine different methods of reversal of such deformity to observe the process of growth plate repair. A secondary aim was to define the percentage of physis that could be resected yet still enable reversal of deformity. / Thesis (Ph.D.)--University of Adelaide, Dept. of Pathology, 1989

616.71 20

Epiphysis Diseases.

Growth plate Diseases.

Autotransplantation.

Bones Growth

Autologous bone marrow-derived mesenchymal stem cell transplantation as a therapy for neuronal ceroid lipofuscinosis

Sanders, Douglas N.,

January 2007

Thesis (Ph. D.)--University of Missouri-Columbia, 2007. / The entire dissertation/thesis text is included in the research.pdf file; the official abstract appears in the short.pdf file (which also appears in the research.pdf); a non-technical general description, or public abstract, appears in the public.pdf file. Vita. "August 2007" Includes bibliographical references.

Autologous stem cell transplant : factors predicting the yield of CD34+ cells /

Lawson, Elizabeth Anne,

January 2005

Thesis (M.S.)--Brigham Young University. Dept. of Statistics, 2005. / Includes bibliographical references (p. 107-112).

Thrombocytosis Following Pancreatectomy with Islet Autotransplantation in Children: Cincinnati Children's Hospital Experience

Gurria, Juan P.

21 September 2018

No description available.

Surgery

Total pancreatectomy

islet autotransplantation

children

thrombocytosis

thrombopoietin

Understanding the role topographical features play in stimulating the endogenous peripheral nerve regeneration across critically sized nerve gaps

Mukhatyar, Vivek

11 November 2011

Severe traumatic injuries and surgical procedures like tumor resection often create peripheral nerve gaps, accounting for over 250,000 injuries in the US annually. The clinical "gold standard" for bridging peripheral nerve gaps is autografts, with which 40-50% of patients regain useful function. However, issues including their limited availability and collateral damage at the donor site limit the effectiveness and use of autografts. Therefore, it is critical to develop alternative bioengineered approaches that match or exceed autograft performance. With the use of guidance channels, the endogenous regeneration process spontaneously occurs when successful bridging of short gaps (< 10mm) occurs, but fails to occur in the bridging of longer gaps (≥15mm). Several bioengineered strategies are currently being explored to bridge these critical size nerve gaps. Other labs and ours have shown how filler materials that provide topographical cues within the nerve guides are able to enhance nerve growth and bridge critical length gaps in rats. However, the mechanism by which intra-luminal fillers enhance nerve regeneration has not been explored. The main goal of this dissertation was to explore the interplay between intra-luminal scaffolds and orchestrated events of provisional fibrin matrix formation, glial cell infiltration, ECM deposition and remodeling, and axonal infiltration - a sequence we term the 'regenerative' sequence. We hypothesized that the mechanism by which thin films with topographical cues enhance regeneration is by serving as physical 'organizing templates' for Schwann cell infiltration, Schwann cell orientation, extra-cellular matrix deposition/organization and axon infiltration. We demonstrate that aligned topographical cues mediate their effects to the neuronal cells through optimizing fibronectin adsorption in vitro. We also demonstrate that aligned electrospun thin films are able to enhance bridging of a critical length nerve gap in vivo by stabilizing the provisional matrix, creating a pro-inflammatory environment and influencing the maturation of the regenerating cable leading to faster functional recovery compared to smooth films and random fibers. This research will advance our understanding of the mechanisms of peripheral nerve regeneration, and help develops technologies that are likely to improve clinical outcomes after peripheral nerve injury.

Biomaterials

Neural tissue engineering

Topography

Regenerative medicine

Autotransplantation

Autografts

Tissue engineering

Nervous system Regeneration

Análise da ultra-estrutura do tecido paratireóideo humano em solução para preservação de tecidos / Analysis of the ultrastructure of human parathyroid in solution for preservation of tissue

Barreira, Carlos Eduardo Santa Ritta

30 April 2010

INTRODUÇÃO: A criopreservação de tecido paratireóideo é empregada no tratamento cirúrgico do hiperparatireoidismo secundário nos pacientes com doença renal crônica. Entre a captação do tecido e a criopreservação, realizada em laboratório especializado, o tecido é preservado em solução para cultura de células a 4°C (solução para transporte). Não há dados que demonstrem por quanto tempo o tecido paratireóideo humano pode permanecer viável nesta solução, antes de ser criopreservado. Este estudo objetiva avaliar o período de tempo que o tecido da glândula paratireóide hiperplásica de humanos pode permanecer na solução para transporte, sem apresentar danos ultra-estruturais. MÉTODOS: Estudo prospectivo que incluiu 11 pacientes submetidos a paratireoidectomia total com autoimplante heterotópico e criopreservação de fragmentos de tecido paratireóideo. Parte do tecido destinado para exame anatomopatológico foi selecionado para preservação em solução para transporte. Foram definidos 5 períodos relacionados ao tempo de permanência dos fragmentos de paratireóide na solução para transporte. No tempo 1, o material foi fixado a fresco, sem contato com a solução para transporte, este tempo serviu para controle. No tempo 2, os fragmentos de tecido permaneceram imersos na solução para transporte por 2 horas, no tempo 3, este período foi de 6 horas, e os tempos 4 e 5, corresponderam a preservação dos fragmento de paratireóide na solução para transporte por 12 e 24 horas respectivamente. Ao final de cada período os fragmentos foram removidos da solução de transporte e fixados com glutaraldeído a 2%, seguido por preparo do material para cortes ultrafinos. A análise por microscopia eletrônica avaliou a adesão celular e a integridade das membranas plasmáticas, dos núcleos e das mitocôndrias, além da presença de edema celular e de vacúolos. RESULTADOS: Dos 11 casos estudados, 10 apresentaram achados ultraestruturais compatíveis com a normalidade nos fragmentos de tecido que permaneceram na solução para transporte por até 12 horas. Em apenas um destes casos, houve preservação das características morfológicas do tecido por 24 horas, na solução para transporte. Em um caso os achados caracterizaram sinais de dano celular irreversível em todos os períodos, inclusive no tempo inicial, em que o tecido foi fixado a fresco, sem contato com a solução para transporte. As alterações das mitocôndrias representaram os danos ultra-estruturais mais constantes nos casos estudados. CONCLUSÃO: A análise da ultra-estrutura do tecido da glândula paratireoide hiperplásica de humanos permite concluir que ocorre manutenção adequada da integridade estrutural do tecido que permanece na solução com meio de cultura de células a 4°C.até cerca de 12 horas após sua retirada do organismo, na maioria dos casos. / BACKGROUND: The cryopreservation of parathyroid tissue is employed in the surgical treatment of secondary hyperparathyroidism in patients with chronic kidney disease. During the period between surgical resection and cryopreservation of tissue, which requires a specialized laboratory, the tissue is stored in a cell culture solution, at 4 °C (solution for transport from the operating room to the laboratory). There is no data showing for how long the human parathyroid tissue can remain viable in this solution, before being cryopreserved. The present study evaluates the time that the tissue of human hyperplastic parathyroid gland could remain in solution for transportation, without showing ultrastructural damages. METHODS: This prospective study included 11 patients, who underwent total parathyroidectomy with heterotopic autotransplantation and cryopreservation of parathyroid tissue fragments. Part of the tissue intended for pathological examination was selected for storage at solution for transportation. Five periods were defined, related to the storage time of parathyroid fragments at solution for transportation. At time 1, the material was fixed at the time of surgical resection, without contact with the solution for transport, this time was used as control. At time 2, the fragments of tissue remained stored at the solution for transportation for 2 hours, at time 3, this period was 6 hours, and Times 4 and 5, corresponded to the parathyroid fragments stored in the transport solution for 12 and 24 hours, respectively. At the end of each period the fragments were removed from the transport solution and fixed with 2% glutaraldehyde, followed by preparation of material for ultrathin sections. The analysis by electron microscopy was used to evaluate cell adhesion and integrity of plasma membranes, nuclei and mitochondria, and the presence of edema and cell vacuoles. RESULTS: Of the 11 cases studied, 10 showed ultrastructural findings consistent with the normal tissue fragments that remained in the solution to transport up to 12 hours. In only one of these cases, there was preservation of the morphological characteristics of the tissue for 24 hours, at the solution for transportation. In one case, there were findings of marked signs of irreversible cell damage in all periods, including the initial time in which the tissue was fixed at the time of surgical resection, without contact with the solution for transportation. Changes of mitochondria represented the ultrastructural damage more constant in the cases studied. CONCLUSION: The analysis of the ultrastructure of human hyperplastic parathyroid gland tissue shows that, in most cases, ultrastructural integrity is properly maintained in fragments stored up to 12 hours in a solution of cell culture, at 4° C.

Auto-implante

Autotransplantation

Criopreservação

Cryopreservation

Electron microscopy

Glândulas paratireóides

Hiperparatireoidismo

Hyperparathyroidism

Microscopia eletrônica

Parathyroid

Parathyroidectomy

Paratireoidectomia

Preservação de órgãos

Preservation of organs