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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.
1

Immunohistochemical and ultrastructural evaluation of the pathology and aetiopathogenesis of keloid formation.

Bux, Shamin. January 2013 (has links)
Introduction Keloids are formed by the excessive production of scar tissue, which extends beyond the margins of the original injury, often resulting in lesions of grotesque dimensions. Keloids present a major dilemma to surgeons because of the high recurrence rate with recurrent growth often larger than the original keloid. The high recurrence rate and the poor response of keloids to therapy present a great challenge to surgeons. The numerous therapeutic regimens demonstrate that to date there is no single therapy that is absolutely successful. Therefore, it is necessary to comprehensively establish the pathology of keloids and to determine the aetiopathogenesis of the lesion in order to eventually provide unfailing specific effective treatment and to better understand the mechanisms regulating fibrosis in various fibroproliferative diseases. Aim To evaluate the pathology and aetiopathogenesis of keloid formation. Methods The research protocol for the study was approved by the Nelson R Mandela Faculty of Medicine Ethics Committee. Informed consent was obtained before the biopsies were taken. Keloid and non-lesional skin biopsies were obtained from thirty two patients who had multiple lesions in various locations, bringing the total number of keloids and apparently normal skin biopsies processed and examined to fifty eight. The biopsied specimens were processed for paraffin wax embedment and routine haematoxylin and eosin, differential and immunocytochemical staining. Sections were scrupulously examined using the Olympus BH-2 microscope; features pertinent to the study were photographed with the Olympus DP 10 microscope digital camera system. The stored images were studied, using the Camedia graphics processing programme. Results The results of the study showed that keloids comprise many distinct regions categorized as: the zone of hyalinising collagen bundles, fine fibrous areas, areas of inflammation, zone of dense regular connective tissue, nodular fibrous area and area of angiogenesis. Fibroblastic phenotypes present ranged from spindle, fibrohistiocytic, epitheloid, elongated flattened condensed fibroblastic cells to few wavy, fuzzy, polygonal and atrophic cell types. Immunocytochemically these cells were vimentin-positive and actin- and desmin-negative. Few myofibroblastic phenotypes were also identified and these were vimentin- and alpha smooth muscle actin-positive and desmin-negative. The fibroblastic and myofibroblastic phenotypes were in proliferative or degenerative stages and pathological features exhibited were the presence of vesicular, degenerate or calcified nuclei; nuclear and plasma membrane damage; cytoplasmic and nucleoplasmic clearing; atrophy, pyknosis and swelling. Severe, moderate to mild paravascular inflammation was observed around the microvessels of the sub-papillary plexus and within the keloid. There was compression and occlusion of small blood vessels, coagulation necrosis and dissolution of mural cells of small blood vessels and small peripheral nerves. Also present in keloids were oedematous areas, disorganised and hyalinised connective tissue fibres and increased numbers of degranulated and degranulating mast cells. Elastic fibres in keloids were minimal or absent whereas at the border of keloids there was an increase.Discussion Degenerate, occluded and compressed microvessels were a widespread pathological feature in keloids. This resulted in impaired vascular supply to each of the keloid regions which impacted directly on the pathology of keloids where degeneration and necrosis, manifesting the lack of nutrients and oxygen to tissue, were found throughout the keloid. The vascular supply was impaired because of the chronic inflammatory destruction of the microvessels and the elevated stress within keloids. Factors contributing to increased intrinsic stress were: 1) the lack of elastic fibres in keloids which decreased the elastic limit, leading to effects of excessive deformational force which were compression and stiffening of tissue; 2) the high tension skin covering keloid prone areas had low stretch and a low elastic modulus; 3). protruding hard connective tissue such as bony prominences or cartilage into the dermis of keloid prone skin; 4) contractile forces exerted by wound healing fibroblastic cells; and 5) external forces. Compression and occlusion of blood vessels induced ischaemic and reperfusion tissue injury. During the reperfusion phase blood rich in growth factors returned to tissue stimulating tissue growth. Tissue growth was also promoted by elevated internal stress which stimulated increasing levels of gene expression, collagen synthesis and mitotic activity. All these growth promoting effects resulted in keloid formation. / Thesis (Ph.D.)-University of KwaZulu-Natal, Durban, 2013.
2

Estudo in vitro da ação de pentoxifilina em fibroblastos oriundos de cicatrizes hipertróficas pós-queimadura e de pele não-cicatricial / In vitro effects of pentoxifylline on human fibroblasts derived from post-burn hypertrophic scars and from normal skin

Isaac, Cesar 03 December 2007 (has links)
Pentoxifilina (PTF), um derivado da metilxantina, tem ação terapêutica como agente antifibrótico. In vitro, a PTF causa inibição na produção de colágeno, glicosaminoglicanos e fibronectina, bem como promove acentuada redução na proliferação dos próprios fibroblastos de quelóides. A PTF na concentração de 1.000 g/mL foi seletiva no controle da inibição da síntese protéica pelos fibroblastos. O objetivo deste estudo foi verificar o comportamento in vitro de fibroblastos oriundos de cicatrizes hipertróficas (HSHF) e de pele não-cicatricial (NHF) na presença e ausência de PTF (1.000 g/mL), quanto à: proliferação celular, produção de colágeno e capacidade dos fibroblastos gerarem contração em modelo experimental de matriz de colágeno. Para tanto, foram utilizados fibroblastos cultivados a partir de amostras de cicatrizes hipertróficas e pele não-cicatricial doadas, com finalidade de pesquisa, pelo banco de Tecidos do Instituto Central do Hospital das Clínicas da FMUSP. Culturas celulares expostas a PTF apresentaram diminuição na proliferação celular em HSHF (46,35%) e em NHF (37,73%) (p<0,0001). Na presença de PTF, foi observada seletividade de inibição na síntese de colágenos, havendo inibição mais expressiva de colágeno tipo III em HSHF e de colágeno tipo I em NHF (p<0,0001). O modelo experimental de matriz de colágeno povoada por fibroblastos de cicatriz hipertrófica apresentou contração menor (12%) na presença de PTF (p<0,0001), em relação à sua ausência / Fibroblasts are thought to be partially responsible for the persisting contractile forces that result in burn contractures. Using a monolayer and fibroblast populated collagen lattice (FPCL) three-dimensional (3D) model we subjected hypertrophic scar and non-cicatricial fibroblasts to the antifibrogenic agent pentoxifylline (PTF) 1000g/mL attempting to reduce proliferation, collagen type I and III synthesis and contraction in this 3D model. Fibroblasts were isolated from post burn hypertrophic scars (HSHF) and non-scarred skin (NHF). Cells were grown in monolayer or incorporated into FPCL\'s and exposed to PTF. In monolayer, cell number proliferation was reduced (46.35% in HSHF group and 37.73% in NHF group) p<0,0001. The PTF also demonstrated to be selective on collagen type I and III synthesis inhibition suggesting higher inhibition of collagen type III on HSHF group and more evident inhibition of type I on NHF group. FPCL\'s containing PTF had surface areas reduced in about 12% p<0,0001. PTF showed inhibition effects on cell proliferation and reduced contraction in both HSHF and NHF
3

Estudo in vitro da ação de pentoxifilina em fibroblastos oriundos de cicatrizes hipertróficas pós-queimadura e de pele não-cicatricial / In vitro effects of pentoxifylline on human fibroblasts derived from post-burn hypertrophic scars and from normal skin

Cesar Isaac 03 December 2007 (has links)
Pentoxifilina (PTF), um derivado da metilxantina, tem ação terapêutica como agente antifibrótico. In vitro, a PTF causa inibição na produção de colágeno, glicosaminoglicanos e fibronectina, bem como promove acentuada redução na proliferação dos próprios fibroblastos de quelóides. A PTF na concentração de 1.000 g/mL foi seletiva no controle da inibição da síntese protéica pelos fibroblastos. O objetivo deste estudo foi verificar o comportamento in vitro de fibroblastos oriundos de cicatrizes hipertróficas (HSHF) e de pele não-cicatricial (NHF) na presença e ausência de PTF (1.000 g/mL), quanto à: proliferação celular, produção de colágeno e capacidade dos fibroblastos gerarem contração em modelo experimental de matriz de colágeno. Para tanto, foram utilizados fibroblastos cultivados a partir de amostras de cicatrizes hipertróficas e pele não-cicatricial doadas, com finalidade de pesquisa, pelo banco de Tecidos do Instituto Central do Hospital das Clínicas da FMUSP. Culturas celulares expostas a PTF apresentaram diminuição na proliferação celular em HSHF (46,35%) e em NHF (37,73%) (p<0,0001). Na presença de PTF, foi observada seletividade de inibição na síntese de colágenos, havendo inibição mais expressiva de colágeno tipo III em HSHF e de colágeno tipo I em NHF (p<0,0001). O modelo experimental de matriz de colágeno povoada por fibroblastos de cicatriz hipertrófica apresentou contração menor (12%) na presença de PTF (p<0,0001), em relação à sua ausência / Fibroblasts are thought to be partially responsible for the persisting contractile forces that result in burn contractures. Using a monolayer and fibroblast populated collagen lattice (FPCL) three-dimensional (3D) model we subjected hypertrophic scar and non-cicatricial fibroblasts to the antifibrogenic agent pentoxifylline (PTF) 1000g/mL attempting to reduce proliferation, collagen type I and III synthesis and contraction in this 3D model. Fibroblasts were isolated from post burn hypertrophic scars (HSHF) and non-scarred skin (NHF). Cells were grown in monolayer or incorporated into FPCL\'s and exposed to PTF. In monolayer, cell number proliferation was reduced (46.35% in HSHF group and 37.73% in NHF group) p<0,0001. The PTF also demonstrated to be selective on collagen type I and III synthesis inhibition suggesting higher inhibition of collagen type III on HSHF group and more evident inhibition of type I on NHF group. FPCL\'s containing PTF had surface areas reduced in about 12% p<0,0001. PTF showed inhibition effects on cell proliferation and reduced contraction in both HSHF and NHF

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