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Avaliação do sistema osteoprotegerina e RANKL em pacientes com artrite idiopática juvenil de início poliarticular / Osteoprotegerin and RANKL system in patients with polyarticular-onset juvenile idiopathic arthritisPaulo Fernando Spelling 26 February 2008 (has links)
OBJETIVO: Determinar os valores séricos do ligante do receptor do ativador do fator nuclear Kappa B (RANKL) e da osteoprotegerina (OPG) em pacientes com Artrite Idiopática Juvenil de início poliarticular (AIJp) em atividade e avaliar a possível correlação destes valores com a presença radiológica de erosões ósseas. MÉTODOS: Trinta pacientes do sexo feminino com diagnóstico de AIJ de início poliarticular segundo os critérios da ILAR (International League of Associations for Rheumatology) em atividade e trinta crianças saudáveis (controles) pareadas por idade e sexo foram selecionadas consecutivamente para este estudo. Todas as articulações comprometidas foram radiografadas e avaliadas, com especial interesse, para a presença de erosões ósseas. Concentrações séricas do RANKL e OPG foram medidas por enzima-imunoensaio (Biomedica, Vienna, Austria). RESULTADOS: Pacientes com AIJp em atividade apresentaram altos valores séricos de RANKL e menores taxas de OPG/RANKL comparadas com controles [2,90 (0,1-37,4) vs. 0,25 (0,1-5,7) pg/ml, p=0,007 e 21,25 (1,8- 897,6) vs. 347,5 (9-947,8)] pg/ml, p=0,005). Diferentemente, não houve diferença em relação à concentração sérica de OPG quando se comparou os pacientes e controles [55,24 (28,34-89,76) vs. 64,42 (30,68-111,28) pg/ml, p=0,256]. Maiores concentrações de RANKL e menores taxas de OPG/RANKL também foram observadas em pacientes com AIJp em atividade com erosões ósseas comparadas com controles [3,49 (0,1-37,4) vs. 0,25 (0,1-5,7) pg/ml, p=0,0115 e 14,3 (1,8-897.6) vs. 347,5 (9-947,8) p=0,016]. Em contraste, valores séricos de RANKL e a taxa de OPG/RANKL foram semelhantes em pacientes com AIJp sem erosões ósseas comparadas com controles [1,75 (0,1-10,9) vs 0,25 (0,1-5,7) pg/ml, p=0,055 e 29,2 (3,3-756,8) vs. 347,5 (9- 947,8), p=0,281]. CONCLUSÃO: Estes dados sugerem que pacientes com AIJp em atividade com erosões ósseas apresentam altos valores séricos de RANKL e baixa taxa de OPG/RANKL indicando que estas alterações podem refletir o comprometimento ósseo nesta doença. / OBJECTIVE: To determine the serum levels of receptor activator of nuclear factor kB-ligand (RANKL) and osteoprotegerin (OPG) in active polyarticularonset Juvenile Idiopathic Arthritis patients (pJIA) and evaluate its possible correlation with bone erosions on the X-ray. METHODS: Thirty female girls with active pJIA diagnosis according ILAR criteria (International League of Associations for Rheumatology) and 30 healthy children gender and agematched controls were consecutively selected for this study. All involved articulations were evaluated by X-ray and analyzed for the presence of bone erosions. The serum levels of RANKL and OPG were measured using an enzyme-linked immunosorbent (Biomedica, Vienna, Austria). RESULTS: Results: Patients with active pJIA had higher levels of serum RANKL and lower OPG/RANKL ratio compared to controls [2.90 (0.1-37.4) vs. 0.25 (0.1- 5.7) pg/ml, p=0.007] and 21.25 (1.8-897.6) vs. 347.5 (9-947.8) pg/ml, p=0.005]. However, levels of OPG were comparable in both groups [55.24 (28.34-89.76) vs. 64.42 (30.68-111.28) pg/ml, p=0.256]. Higher levels of serum RANKL and lower OPG/RANKL ratio was also observed in active pJIA patients with bone erosions compared to controls [3.49 (0.1-37.4) vs. 0.25 (0.1-5.7) pg/ml, p=0.0115 and 14.3 (1.8-897.6) vs. 347.5 (9-947.8), p=0.016]. In contrast, RANKL levels and OPG/RANKL ratio were alike in pJIA patients without bone erosion and controls [1.75 (0.1-10.9) vs. 0.25 (0.1- 5.7) pg/ml, p=0.055 and 29.2 (3.3-756.8) vs. 347.5 (9-947.8), p=0.281]. CONCLUSION: These data suggest that active pJIA with bone erosion is associated with high serum levels of RANKL and low OPG/RANKL ratio indicating that these alterations may reflect bone damage in this disease.
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Avaliação do sistema osteoprotegerina e RANKL em pacientes com artrite idiopática juvenil de início poliarticular / Osteoprotegerin and RANKL system in patients with polyarticular-onset juvenile idiopathic arthritisSpelling, Paulo Fernando 26 February 2008 (has links)
OBJETIVO: Determinar os valores séricos do ligante do receptor do ativador do fator nuclear Kappa B (RANKL) e da osteoprotegerina (OPG) em pacientes com Artrite Idiopática Juvenil de início poliarticular (AIJp) em atividade e avaliar a possível correlação destes valores com a presença radiológica de erosões ósseas. MÉTODOS: Trinta pacientes do sexo feminino com diagnóstico de AIJ de início poliarticular segundo os critérios da ILAR (International League of Associations for Rheumatology) em atividade e trinta crianças saudáveis (controles) pareadas por idade e sexo foram selecionadas consecutivamente para este estudo. Todas as articulações comprometidas foram radiografadas e avaliadas, com especial interesse, para a presença de erosões ósseas. Concentrações séricas do RANKL e OPG foram medidas por enzima-imunoensaio (Biomedica, Vienna, Austria). RESULTADOS: Pacientes com AIJp em atividade apresentaram altos valores séricos de RANKL e menores taxas de OPG/RANKL comparadas com controles [2,90 (0,1-37,4) vs. 0,25 (0,1-5,7) pg/ml, p=0,007 e 21,25 (1,8- 897,6) vs. 347,5 (9-947,8)] pg/ml, p=0,005). Diferentemente, não houve diferença em relação à concentração sérica de OPG quando se comparou os pacientes e controles [55,24 (28,34-89,76) vs. 64,42 (30,68-111,28) pg/ml, p=0,256]. Maiores concentrações de RANKL e menores taxas de OPG/RANKL também foram observadas em pacientes com AIJp em atividade com erosões ósseas comparadas com controles [3,49 (0,1-37,4) vs. 0,25 (0,1-5,7) pg/ml, p=0,0115 e 14,3 (1,8-897.6) vs. 347,5 (9-947,8) p=0,016]. Em contraste, valores séricos de RANKL e a taxa de OPG/RANKL foram semelhantes em pacientes com AIJp sem erosões ósseas comparadas com controles [1,75 (0,1-10,9) vs 0,25 (0,1-5,7) pg/ml, p=0,055 e 29,2 (3,3-756,8) vs. 347,5 (9- 947,8), p=0,281]. CONCLUSÃO: Estes dados sugerem que pacientes com AIJp em atividade com erosões ósseas apresentam altos valores séricos de RANKL e baixa taxa de OPG/RANKL indicando que estas alterações podem refletir o comprometimento ósseo nesta doença. / OBJECTIVE: To determine the serum levels of receptor activator of nuclear factor kB-ligand (RANKL) and osteoprotegerin (OPG) in active polyarticularonset Juvenile Idiopathic Arthritis patients (pJIA) and evaluate its possible correlation with bone erosions on the X-ray. METHODS: Thirty female girls with active pJIA diagnosis according ILAR criteria (International League of Associations for Rheumatology) and 30 healthy children gender and agematched controls were consecutively selected for this study. All involved articulations were evaluated by X-ray and analyzed for the presence of bone erosions. The serum levels of RANKL and OPG were measured using an enzyme-linked immunosorbent (Biomedica, Vienna, Austria). RESULTS: Results: Patients with active pJIA had higher levels of serum RANKL and lower OPG/RANKL ratio compared to controls [2.90 (0.1-37.4) vs. 0.25 (0.1- 5.7) pg/ml, p=0.007] and 21.25 (1.8-897.6) vs. 347.5 (9-947.8) pg/ml, p=0.005]. However, levels of OPG were comparable in both groups [55.24 (28.34-89.76) vs. 64.42 (30.68-111.28) pg/ml, p=0.256]. Higher levels of serum RANKL and lower OPG/RANKL ratio was also observed in active pJIA patients with bone erosions compared to controls [3.49 (0.1-37.4) vs. 0.25 (0.1-5.7) pg/ml, p=0.0115 and 14.3 (1.8-897.6) vs. 347.5 (9-947.8), p=0.016]. In contrast, RANKL levels and OPG/RANKL ratio were alike in pJIA patients without bone erosion and controls [1.75 (0.1-10.9) vs. 0.25 (0.1- 5.7) pg/ml, p=0.055 and 29.2 (3.3-756.8) vs. 347.5 (9-947.8), p=0.281]. CONCLUSION: These data suggest that active pJIA with bone erosion is associated with high serum levels of RANKL and low OPG/RANKL ratio indicating that these alterations may reflect bone damage in this disease.
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The role of fibroblast growth factor receptor 3 in post-natal cartilage and bone metabolism /Valverde Franco, Gladys, 1972- January 2008 (has links)
FGFR 3 is one of a family of four high affinity receptors for FGF ligands. Activating mutations in FGFR 3 result in skeletal dysplasias that vary in severity from undetectable to neonatal lethal. Mice with congenital deficiency of FGFR3 develop severe kyphosis and skeletal overgrowth. FGFR3 is also expressed in calvarial pre-osteoblasts, osteoblast and articular chondrocytes, although it biological role in these cells remains undefined. By changing the genetic background of the Fgfr3-/- mice we were able to extend their lifespan and examine its impact on post-natal skeletal growth. To investigate the implication of FGFR 3 in post-natal cartilage and bone metabolism we used a combination of imaging, classic histology, molecular biology and biomechanical testing. The results demonstrated that the synovial joints of young adult Fgfr3-/- mice revealed a progressive deterioration, loss of the joint space width and changes in the subchondral bone. These alterations were accompanied by an increase of cartilage matrix degradation. Increased aggrecan and collagen type II degradation products, generated by MMPs were detected with DIAPEN and COL2-3/4C antibodies. Increased collagen type X, cellular hypertrophy and loss of proteoglycan at the articular surface were also demonstrated. A novel micro-mechanical indentation protocol revealed that the humeral heads of Fgfr3-/- mice were less stiff than those of wild type littermates. On the other hand, young adult Fgfr3-/- mice are osteopenic due to reduced cortical bone thickness and defective trabecular bone mineralization. The reduction in mineralized bone and lack of trabecular connectivity observed by micro-computed tomography were confirmed by histological and histomorphometric analyses, which revealed a significant decrease in calcein labeling of mineralizing surfaces and a significant increase in osteoid in the long bones of 4-month-old Fgfr3-/- mice. Primary cultures of adherent bone marrow-derived cells from Fgfr3-/- mice expressed markers of differentiated osteoblasts but developed fewer mineralized nodules than Fgfr3+/+ cultures of the same age. These data point to a major role for FGFR3 signaling in development and homeostatic maintenance of cartilage and bone post-natally and identify FGFR3 as a potential target for intervention in degenerative disorders of cartilage, osteopenia and those associated with defective bone mineralization.
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The role of fibroblast growth factor receptor 3 in post-natal cartilage and bone metabolism /Valverde Franco, Gladys, 1972- January 2008 (has links)
No description available.
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The effect of ultradistance running on premenopausal women of different ethnic groups.McGregor, Avril. January 2005 (has links)
No abstract available. / Thesis (M.Med.Sc.)-University of KwaZulu-Natal, Durban, 2005.
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Impacto do uso de anÃlogos de GnRH sobre o tecido e metabolismo Ãsseo de pacientes endometrÃoticas / Analogous impact of the use of de gnrh on the fabric and metabolism Ãsseos of patients endometriÃticasDanyelle Craveiro de Aquino 20 September 2005 (has links)
CoordenaÃÃo de AperfeiÃoamento de Pessoal de NÃvel Superior / Este trabalho tem por objetivo avaliar mulheres portadoras de endometriose em uso de anÃlogos de GnRH investigando o metabolismo Ãsseo e massa Ãssea atravÃs da dosagem de marcadores sÃricos e realizaÃÃo de ultra-sonometria do calcÃneo, respectivamente. Trata-se de estudo observacional transversal tipo caso â controle prospectivo. Foi desenvolvido na Maternidade-Escola Assis Chateaubriand (MEAC) â UFC. Foram avaliadas 99 mulheres, divididas em 3 grupos, sendo 32 portadoras de endometriose diagnosticada cirurgicamente e tratadas com goserelina 3,6mg SC a cada 28 dias (4 doses) â grupo endometriÃtico. O segundo grupo foi composto de 25 mulheres nÃo endometriÃticas e no menacme (controle negativo). O terceiro grupo foi composto de 42 mulheres nÃo endometriÃticas e menopausadas por no mÃnimo dois anos, os dois Ãltimos grupos sem uso de medicaÃÃes. Foi realizada avaliaÃÃo Ãssea atravÃs da ultra-sonometria do calcÃneo com o aparelho Achilles, da LunarÂ, sendo determinado o âstiffnessâ de cada grupo (uma combinaÃÃo de velocidade do som e grau de atenuaÃÃo ultra-sonogrÃfica), juntamente com as dosagens sÃricas de magnÃsio, fosfato, urÃia, creatinina, cÃlcio, fosfatase alcalina (FA), PTH, cortisol e hidroxiprolina, alÃm das dosagens de cÃlcio urinÃrio, cÃlcio urinÃrio/creatinina, e hidroxiprolina/creatinina. O grupo endometriÃtico somente foi submetido a esta avaliaÃÃo apÃs o uso da medicaÃÃo. A anÃlise estatÃstica foi realizada pelo programa SPSS for Windows 11.0.0. As dosagens de FA, cÃlcio urinÃrio e cÃlcio urinÃrio/creatinina foram semelhantes no grupo endometriÃtico (40,8Â7,7U/mL; 47,15Â10,8mmol/L; e 78,76Â23,0, respectivamente) e no grupo menopausado (38,65Â5,1U/mL; 36,8Â4,3mmol/L; e 55,21Â8,21, respectivamente) alÃm de significativamente superiores aos do grupo no menacme (28,5Â2,54U/mL; 26,4Â3,4mmol/L; e 39,52Â7,7, respectivamente). As dosagens de PTH do grupo endometriÃtico (23,99Â3,35nmol/L) foram semelhantes as das mulheres no menacme (29,15Â4,09nmol/L), ambas sendo significativamente menores que as mulheres menopausadas (41,14Â3,7nmol/L). As demais anÃlises foram semelhantes entre os grupos. Na avaliaÃÃo Ãssea o âstiffnessâ foi similar entre o grupo endometriÃtico (88,16Â2,86) e as mulheres menopausadas (83,70Â1,8), sendo ambos significativamente inferiores Ãs mulheres no menacme (97,02Â1,46). Conclui-se que as portadoras de endometriose apÃs tratamento com goserelina apresentaram intenso metabolismo Ãsseo e piora no padrÃo do tecido Ãsseo avaliada pela ultra-sonometria do calcÃneo aproximando-se do quadro encontrado em mulheres menopausadas hà pelo menos dois anos. NÃo se pode afirmar, no entanto, se tais alteraÃÃes sÃo devidas exclusivamente ao uso do anÃlogo do GnRH ou somam-se à prÃpria manifestaÃÃo da endometriose. Sugere-se que a endometriose e o uso de anÃlogos do GnRH sejam considerados como fatores de risco para o desenvolvimento de osteoporose, principalmente se associados a uma histÃria de uso crÃnico de corticÃides a qualquer Ãpoca da vida. / This research had as an objective of evaluate endometriotic women treated with GnRH analogues by investigating their bone turnover and bone structure using serum bone turnover markers and calcaneous ultrasonometry, respectively. This is a transversal, observational, prospective caseâcontrol study. It was developed at Maternidade-Escola Assis Chateaubriand (MEAC) â UFC. Ninety nine women, divided into three groups were analyzed. Thirty two endometriotic women were treated with goserelin 3,6mg SC 28/28d (4 doses) â Endometriotic group. Their disease had been confirmed by surgery. The second group had twenty five non endometriotic women and having menses (control group). The third group had 42 not endometriotic menopausal women, they were at menopause at least for 2 years. The latest two groups were not taking any treatment. The Achilles device from Lunar, had being used to analyse the bone structure through calcaneous ultrasonometry. We calculated the âstiffnessâ value for each group (a combination of sound velocity and ultrasonographic attenuation), and we also analysed the values of magnesium, phosphate, urea, creatinine, serum calcium, alkaline phosphatase (ALP), parathyroid hormone (PTH), cortisol, hydroxyproline, urinary calcium, urinary calcium/creatinine, and hydroxyproline/creatinine. The endometriotic group was evaluated only after the treatment. The statistical analysis had being done by SPSS program for Windows version 11.0.0. The values of ALP, urinary calcium and urinary calcium/creatinine were similar to endometriotic group (40.8Â7.7U/mL; 47.15Â10.8mmol/L; and 78.76Â23.0, respectively) and to menopausal group (38.65Â5.1U/mL; 36.8Â4.3mmol/L; and 55.21Â8.21, respectively) although significantly higher than control group (28.5Â2.54U/mL; 26.4Â3.4mmol/L; and 39.52Â7.7, respectively). The values of PTH from endometriotic group (23.99Â3.35nmol/L) were similar to control group (29.15Â4.09nmol/L), and both were significantly lower than menopausal one (41.14Â3.7nmol/L). The other values were equal between groups. At the evaluation of bone âstiffnessâ the values were similar between endometriotic (88.16Â2.86) and menopausal groups (83.70Â1.8), and both were significantly lower than control group (97.02Â1.46). Concluding the endometriotic women who received treatment with goserelin showed an intense bone metabolism and a bone deficit at calcaneous ultrasonometry almost like women at post-menopausal at least two years. Therefore, we can not affirm if these alterations were caused exclusively by the GnRH-analogue therapy or were influenciated by endometriosis itself. We suggest that endometriosis and treatment with GnRH analogues might be considered as risks factors for the development of osteoporosis, principally if they are associated with chronic corticoid treatment at any point in a lifetime.
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Ação de fração do hormônio paratireóideo no metabolismo ósseo: estudo experimental em ratos / Effect of human parathyroid hormone fragment on bone metabolism: experimental study in ratsAna Cristina Ferreira Bassit 18 January 2011 (has links)
O hormônio da paratireóide (PTH) tem sido utilizado como um agente anabólico ósseo para o tratamento de condições de osteopenia / osteoporose, prevenção e consolidação de fraturas. O papel do fator de crescimento semelhante à insulina I (IGF-I), como um potencial mediador dos efeitos anabólicos do PTH, é controverso. O rato dwarf pode ser adequado para o estudo dessas interações in vivo, uma vez que a os níveis séricos de hormônio do crescimento (GH) encontram-se reduzidos a cerca de 6% dos valores normais em fêmeas e os níveis séricos de IGF-I, a cerca de 10% dos valores normais, mas estes animais são saudáveis e sem malformações esqueléticas. Os objetivos deste estudo foram: 1 - Avaliar o rato dwarf (dw-/dw-) como um modelo animal para o estudo dos efeitos da deficiência do GH e do IGF-I sobre o esqueleto e o metabolismo ósseo; 2 - Comparar os efeitos do tratamento com PTH sobre o esqueleto e formação óssea em ratos dwarf e em ratos Lewis, sua linhagem de origem. A partir de 9 semanas de idade, ratas Lewis e dwarf receberam injeções por via subcutânea, diariamente, por duas semanas, com medicamento placebo ou fragmento de hormônio paratireóideo humano, hPTH 1-34, na dose de 50 g / kg de peso corpóreo (N = 7-13/grupo). Foram realizadas avaliações do peso corpóreo semanalmente e, por ocasião da eutanásia, na 11ª semana, foram coletadas amostras de sangue para realização de dosagens séricas de IGF-I (ELISA). As vértebras lombares e as metáfises proximais das tíbias foram avaliadas por meio de histomorfometria óssea. Os fêmures direitos foram mensurados e analisados por tomografia quantitativa periférica computadorizada (pQCT). Os níveis séricos de IGF-I mostraram-se três vezes menores nas ratas dwarf quando comparados aos observados nas ratas Lewis, a despeito do tratamento com PTH, que não provocou aumento de IGF-I em nenhum dos dois grupos. No entanto, o PTH aumentou significativamente o volume ósseo trabecular em ambos os grupos, dwarf (p<0.003) e Lewis (p < 0.0001) comparados aos seus respectivos grupos controle, efeito associado ao aumento da espessura e da distância trabeculares. As ratas dwarf tratadas com PTH também exibiram aumentos de 7 a 13 vezes na superfície de mineralização e na taxa de formação óssea respectivamente, quando comparadas às ratas dwarf tratadas com placebo, enquanto as ratas Lewis tratadas com PTH mostraram aumentos de 3 e 4 vezes quando comparadas as ratas Lewis tratadas com placebo. A taxa de aposição mineral, indicativa de atividade osteoblástica, estava aumentada nas ratas dwarf e Lewis tratadas com PTH (p<0.0001) comparadas aos seus respectivos grupos controle. As análises pela pQCT das metáfises femorais distais revelaram que todos os parâmetros estruturais do osso trabecular (BMC total, BMD total, BMC trabecular e BMD trabecular) também apresentaram valores significativamente aumentados nas ratas, Lewis e dwarf, tratadas com PTH, quando comparadas às ratas tratadas com placebo (p<0.0001). Ao se considerar os parâmetros para o osso cortical, praticamente todos os valores obtidos nas diáfises femorais (BMC total, BMD total, BMC cortical, BMD cortical, área cortical, espessura cortical, circunferência periosteal e endosteal) não mostraram qualquer efeito do tratamento com PTH nos dois grupos. Em conclusão, o PTH induziu efeitos anabólicos altamente significativos no tecido ósseo trabecular das tíbias e vértebras lombares, a despeito dos baixos níveis circulantes de IGF-I em animais da linhagem dwarf. A resposta positiva ao tratamento com PTH confirma a sua utilização terapêutica como potente agente anabólico ósseo mesmo em face à deficiência no eixo GH/IGF-I / The parathyroid hormone (PTH) has been used as a bone anabolic agent to treat osteopenic/osteoporotic conditions, prevention and healing of fractures. The role of insulin-like growth factor I (IGF-I) as a potential mediator for the bone anabolic effects of PTH is controversial. The dwarf rat (dw-/dw-) may be suitable to study these interactions in vivo, since GH synthesis is selectively reduced to about 6% of normal in females, and serum IGF-I levels are about 10% of normal, but these animals are healthy without skeletal malformations. The objectives of this study were: 1- Evaluate the dwarf rat (dw-/dw-) as an animal model for studies of the effects of GH and IGF-I deficiency on the skeleton and bone metabolism; 2- Compare the skeletal effects of PTH treatment in dwarf rats and their background strain, Lewis rats. At 9 weeks of age, female Lewis and dwarf rats were injected SC daily for 2 weeks with vehicle or human parathyroid hormone fragment, hPTH 1-34, at a dose of 50 g/kg body weight (N=7- 13/group). The body weight was evaluated weekly and at the time of euthanasia, at 11 weeks, blood samples were collected. Serum IGF-I was measured by ELISA, and cancellous bone histomorphometry was performed in the lumbar vertebral body and tibial proximal metaphysis. The right femurs were measured, scanned and analyzed by peripheral quantitative computed tomography (pQCT). Serum levels of IGF-I were nearly 3-fold lower in dwarf rats compared with Lewis rats regardless of treatment, but PTH treatment did not increase serum IGF-I in either Lewis or dwarf rats. However, PTH significantly increased cancellous bone volume in both dwarf (P<0.003) and Lewis rats (P<0.0001) when compared to vehicle-treated rats, which was associated with increased trabecular width and decreased trabecular separation. PTH-treated dwarf rats also exhibited 7- and 13-fold increases in mineralizing surface and bone formation rate respectively, compared to vehicle-treated dwarf rats, while PTH-treated Lewis rats showed 3- and 4-fold increases when compared to vehicle-treated Lewis rats. Mineral apposition rate, an index of osteoblast activity, was increased in PTH-treated dwarf rats (P<0.0001) and in Lewis rats (P<0.0001) compared to their respective control groups. The pQCT analyses of the distal femoral metaphysis revealed that cancellous bone structural parameters (total BMC, total BMD, trabecular BMC, and trabecular BMD) also presented significantly higher values in PTH-treated dwarf and Lewis rats, when compared to vehicle treated rats (P<0.0001). When considering cortical bone parameters, almost all the values obtained at the femoral shafts (total BMC, total BMD, cortical BMC, cortical area, cortical thickness, periosteal and endocortical circumferences) did not show any PTH treatment effect in either groups. In conclusion, PTH induced highly significant anabolic effects in vertebral and tibial cancellous bone despite low circulating levels of IGF-I in dwarf rats. The positive response to PTH treatment confirms its therapeutic use as a potent bone anabolic agent, even in the face of GH/IGF-I deficiency
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Ação de fração do hormônio paratireóideo no metabolismo ósseo: estudo experimental em ratos / Effect of human parathyroid hormone fragment on bone metabolism: experimental study in ratsBassit, Ana Cristina Ferreira 18 January 2011 (has links)
O hormônio da paratireóide (PTH) tem sido utilizado como um agente anabólico ósseo para o tratamento de condições de osteopenia / osteoporose, prevenção e consolidação de fraturas. O papel do fator de crescimento semelhante à insulina I (IGF-I), como um potencial mediador dos efeitos anabólicos do PTH, é controverso. O rato dwarf pode ser adequado para o estudo dessas interações in vivo, uma vez que a os níveis séricos de hormônio do crescimento (GH) encontram-se reduzidos a cerca de 6% dos valores normais em fêmeas e os níveis séricos de IGF-I, a cerca de 10% dos valores normais, mas estes animais são saudáveis e sem malformações esqueléticas. Os objetivos deste estudo foram: 1 - Avaliar o rato dwarf (dw-/dw-) como um modelo animal para o estudo dos efeitos da deficiência do GH e do IGF-I sobre o esqueleto e o metabolismo ósseo; 2 - Comparar os efeitos do tratamento com PTH sobre o esqueleto e formação óssea em ratos dwarf e em ratos Lewis, sua linhagem de origem. A partir de 9 semanas de idade, ratas Lewis e dwarf receberam injeções por via subcutânea, diariamente, por duas semanas, com medicamento placebo ou fragmento de hormônio paratireóideo humano, hPTH 1-34, na dose de 50 g / kg de peso corpóreo (N = 7-13/grupo). Foram realizadas avaliações do peso corpóreo semanalmente e, por ocasião da eutanásia, na 11ª semana, foram coletadas amostras de sangue para realização de dosagens séricas de IGF-I (ELISA). As vértebras lombares e as metáfises proximais das tíbias foram avaliadas por meio de histomorfometria óssea. Os fêmures direitos foram mensurados e analisados por tomografia quantitativa periférica computadorizada (pQCT). Os níveis séricos de IGF-I mostraram-se três vezes menores nas ratas dwarf quando comparados aos observados nas ratas Lewis, a despeito do tratamento com PTH, que não provocou aumento de IGF-I em nenhum dos dois grupos. No entanto, o PTH aumentou significativamente o volume ósseo trabecular em ambos os grupos, dwarf (p<0.003) e Lewis (p < 0.0001) comparados aos seus respectivos grupos controle, efeito associado ao aumento da espessura e da distância trabeculares. As ratas dwarf tratadas com PTH também exibiram aumentos de 7 a 13 vezes na superfície de mineralização e na taxa de formação óssea respectivamente, quando comparadas às ratas dwarf tratadas com placebo, enquanto as ratas Lewis tratadas com PTH mostraram aumentos de 3 e 4 vezes quando comparadas as ratas Lewis tratadas com placebo. A taxa de aposição mineral, indicativa de atividade osteoblástica, estava aumentada nas ratas dwarf e Lewis tratadas com PTH (p<0.0001) comparadas aos seus respectivos grupos controle. As análises pela pQCT das metáfises femorais distais revelaram que todos os parâmetros estruturais do osso trabecular (BMC total, BMD total, BMC trabecular e BMD trabecular) também apresentaram valores significativamente aumentados nas ratas, Lewis e dwarf, tratadas com PTH, quando comparadas às ratas tratadas com placebo (p<0.0001). Ao se considerar os parâmetros para o osso cortical, praticamente todos os valores obtidos nas diáfises femorais (BMC total, BMD total, BMC cortical, BMD cortical, área cortical, espessura cortical, circunferência periosteal e endosteal) não mostraram qualquer efeito do tratamento com PTH nos dois grupos. Em conclusão, o PTH induziu efeitos anabólicos altamente significativos no tecido ósseo trabecular das tíbias e vértebras lombares, a despeito dos baixos níveis circulantes de IGF-I em animais da linhagem dwarf. A resposta positiva ao tratamento com PTH confirma a sua utilização terapêutica como potente agente anabólico ósseo mesmo em face à deficiência no eixo GH/IGF-I / The parathyroid hormone (PTH) has been used as a bone anabolic agent to treat osteopenic/osteoporotic conditions, prevention and healing of fractures. The role of insulin-like growth factor I (IGF-I) as a potential mediator for the bone anabolic effects of PTH is controversial. The dwarf rat (dw-/dw-) may be suitable to study these interactions in vivo, since GH synthesis is selectively reduced to about 6% of normal in females, and serum IGF-I levels are about 10% of normal, but these animals are healthy without skeletal malformations. The objectives of this study were: 1- Evaluate the dwarf rat (dw-/dw-) as an animal model for studies of the effects of GH and IGF-I deficiency on the skeleton and bone metabolism; 2- Compare the skeletal effects of PTH treatment in dwarf rats and their background strain, Lewis rats. At 9 weeks of age, female Lewis and dwarf rats were injected SC daily for 2 weeks with vehicle or human parathyroid hormone fragment, hPTH 1-34, at a dose of 50 g/kg body weight (N=7- 13/group). The body weight was evaluated weekly and at the time of euthanasia, at 11 weeks, blood samples were collected. Serum IGF-I was measured by ELISA, and cancellous bone histomorphometry was performed in the lumbar vertebral body and tibial proximal metaphysis. The right femurs were measured, scanned and analyzed by peripheral quantitative computed tomography (pQCT). Serum levels of IGF-I were nearly 3-fold lower in dwarf rats compared with Lewis rats regardless of treatment, but PTH treatment did not increase serum IGF-I in either Lewis or dwarf rats. However, PTH significantly increased cancellous bone volume in both dwarf (P<0.003) and Lewis rats (P<0.0001) when compared to vehicle-treated rats, which was associated with increased trabecular width and decreased trabecular separation. PTH-treated dwarf rats also exhibited 7- and 13-fold increases in mineralizing surface and bone formation rate respectively, compared to vehicle-treated dwarf rats, while PTH-treated Lewis rats showed 3- and 4-fold increases when compared to vehicle-treated Lewis rats. Mineral apposition rate, an index of osteoblast activity, was increased in PTH-treated dwarf rats (P<0.0001) and in Lewis rats (P<0.0001) compared to their respective control groups. The pQCT analyses of the distal femoral metaphysis revealed that cancellous bone structural parameters (total BMC, total BMD, trabecular BMC, and trabecular BMD) also presented significantly higher values in PTH-treated dwarf and Lewis rats, when compared to vehicle treated rats (P<0.0001). When considering cortical bone parameters, almost all the values obtained at the femoral shafts (total BMC, total BMD, cortical BMC, cortical area, cortical thickness, periosteal and endocortical circumferences) did not show any PTH treatment effect in either groups. In conclusion, PTH induced highly significant anabolic effects in vertebral and tibial cancellous bone despite low circulating levels of IGF-I in dwarf rats. The positive response to PTH treatment confirms its therapeutic use as a potent bone anabolic agent, even in the face of GH/IGF-I deficiency
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The role of STAT3 in osteoclast mediated bone resorptionHimes, Evan 01 August 2014 (has links)
Indiana University-Purdue University Indianapolis (IUPUI) / Signal Transducer and Activator of Transcription 3 (STAT3) is known to be related to bone metabolism. Mutation of STAT3 causes a rare disorder in which serum levels of IgE are elevated. This causes various skeletal problems similar to osteoporosis.
To examine the effect of STAT3 in the osteoclast, we obtained two osteoclast specific STAT3 knockout mouse models: one using the CTSK promoter to drive Cre recombinase and another using a TRAP promoter. Examination of these mice at 8 weeks of age revealed a decreased trabecular bone volume in CTSK specific STAT3 knockout mice along with a slight decrease in osteoclast number in both CTSK and TRAP specific STAT3 knockout females. We also noticed changes in bone mineral density and bone mechanical strength in females. These data suggest that STAT3 plays a part in the function of the osteoclast.
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The essential role of Stat3 in bone homeostasis and mechanotransductionZhou, Hongkang January 2014 (has links)
Indiana University-Purdue University Indianapolis (IUPUI) / Signal Transducer and Activator of Transcription 3 (Stat3) is a transcription factor expressed in bone and joint cells that include osteoblasts, osteocytes, osteoclasts, and chondrocytes. Stat3 is activated by a variety of cytokines and growth factors, including IL-6/gp130 family cytokines. These cytokines not only regulate the differentiation of osteoblasts and osteoclasts, but also regulate proliferation of chondrocytes through Stat3 activation. In 2007, mutations of Stat3 have been confirmed to cause a rare human immunodeficiency disease – Job syndrome which presents skeletal abnormalities like: reduced bone density (osteopenia), scoliosis, hyperextensibility of joints, and recurrent pathological bone fractures. Changes in the Stat3 gene alter the structure and function of the Stat3 proteins, impairing its ability to control the activity of other genes. However, little is known about the effects of Stat3 mutations on bone cells and tissues.
To investigate the in vivo physiological role of Stat3 in bone homeostasis, osteoblast/osteocyte-specific Stat3 knockout (KO) mice were generated via the Cre-LoxP recombination system. The osteoblast/osteocyte-specific Stat3 KO mice showed bone abnormalities and an osteoporotic phenotype because of a reduced bone formation rate.
Furthermore, inactivation of Stat3 decreased load-driven bone formation, and the disruption of Stat3 in osteoblasts suppressed load-driven mitochondrial activity, which led to an elevated level of reactive oxygen species (ROS) in cultured primary osteoblasts.
Stat3 has been found to be responsive to mechanical stimulation, and might play an important role in mechanical signal transduction in osteocytes. To investigate the role Stat3 plays in mechanical signaling transduction, osteocyte-specific Stat3 knockout (KO) mice were created. Inactivation of Stat3 in osteocytes presented a significantly reduced load-driven bone formation. Decreased osteoblast activity indicated by reduced osteoid surface was also found in osteocyte-specific Stat3 KO mice. Moreover, sclerostin (SOST) protein which is a critical osteocyte-specific inhibitor of bone formation, its encoded gene SOST expression has been found to be enhanced in osteocyte-specific Stat3 KO mice.
Thus, these results clearly demonstrated that Stat3 plays an important role in bone homeostasis and mechanotransduction, and Stat3 is not only involved in bone-formation-important genes regulation in the nucleus but also in mediation of ROS and oxidative stress in mitochondria.
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