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The Effect of Alendronate and Risedronate on Bone Microdamage Accumulation Surrounding the First Mandibular Molar in DogsEngen, David W. January 2002 (has links)
Indiana University-Purdue University Indianapolis (IUPUI) / It has been proposed that the accumulation of microdamage in bone of aging individuals may play a causative and synergistic role in increased fracture incidence. If microdamage production were somehow increased, or reparative remodeling was somehow decreased, the scales may tip towards pathologic fracture. It is known that bisphosphonates increase microdamage accumulation in ribs, lumbar vertebrae, and ilium. The specific aim of this study was to histomorphometrically quantify the microdamage effect of the bisphosphonates alendronate and risedronate therapy on alveolar bone surrounding the first mandibular molar in the dog to determine if this response differs from that in non-bisphosphonate treated dogs. Thirty-four dogs were randomly assigned in two test, and one control groups. Test groups received pharmacologically equivalent doses of either alendronate (11 dogs) or risedronate (11 dogs). The control group (12 dogs) received subcutaneous injections of saline solution. The mandibular right first molar was analyzed for this study. Histomorphometric measurements were made using a x150 Nikon Optiphot-2 fluorescence microscope equipped with brightfield sources (Nikon, Inc.) using the semi-automatic Bioqant digitizing system (R & M Biometrics). There was no significant differences in cortical bone area across treatment groups for any of the regions, nor were any expected. Overall, there was almost twice as much crotical bone found in the Middle (Combined) regions compared with the Coronal (Combined) regions. The precent cortical area was universally high across all treatment groups averaging in the mid-90% range. The Apical region averaged 96.05%, followed by the Coronal region with 95.04% and the Middle region with 93.80%. The number of labeled osteons per cortical area in the alendronate and risedronate groups both tended to be lower relative to the control group (0.92/mm2 and 0.93/mm2 vs. 1.26mm2, respectively), but were not significantly different. On average, the coronal regions had nearly three times the LOn/CtAr as the Middle and Apical regions (1.90/mm2 vs. 0.63/mm2 and 0.57/mm2 respectively). Only in one region was MAR statistically higher in the Coronal (1mm) region, relative to all other regions compared. The Middle region demonstrated a low MAR. The WTh was significantly higher in the risedronate and alendronate groups than that of the control group for the Coronal region. This illustrates that with respect to the bisphosphonates, there is more formation and less resorption. In one region of a significantly lower WTh for the alendronate group relative to the risedronate group was noted. This implies a more potent inhibition in the risedronate treated groups. The WTh for the entire Coronal was statistically lower than every Middle measurement, but was not different than observed in the Apical region. This would tend to signify that in the Coronal, the turnover rate is more of a rapid nature, and therefore the osteons are not as large, while in the Apical, there were so many missing values due to the low rate of turnover, the numbers are skewed to the low end. In the Coronal (Combined) region, the risedronate (108.79 days) group exhibiting a significantly higher FP than the alendronate (62.88 days) and the control (56.13 days) groups. This would imply an increased potency of risedronate over alendronate. Regionally, the FP was significantly lower in the Coronal, relative to Middle or Apical. This is consistent with a more rapid turnover in the Coronal regions observed earlier. The Acf for alendronate (6.41/mm2 per day) and risedronate (5.69/mm2 per day) both tended to be lower by approximately 40% when compared with the control group (10.11/mm2 per day). Overall, the Acf for the Coronal region was 14.15/mm2 per day vs. 2.98/mm2 per day for the Middle and 9.13/mm2 per day for the Apical regions. This shows a significantly increased amount of turnover events taking place not just in the Coronal region, but in the region immediately adjacent to the tooth in the Coronal region. In no region did bone formation differ significantly when treated with bisphosphonates. The Coronal (1mm) region was statistically greater than every region it was measured against, individual and combined. Based on this observation, the second hypothesis that within the first molar alveolar site, bisphosphonate therapy with alendronate, and risedronate would inhibit remodeling more in the coronal region than in the middle and apical region, is rejected. When measuring microdamage accumulation (CrDn), only in the Middle (1mm) region was a significant difference across treatment groups notes. There were no other statistical differences across groups for any other regions. This observation demonstrates that bisphosphonate treatment does not increase the accumulation of microcracks in the dentate alveolar bone. Therefore, the first hypothesis that within the dentate mandible, bisphosphonate therapy with alendronate and risedronate would increase microdamage accumulation around the first molar compound to control, is rejected. When CrDn was compared by region, significant differences were noted. As expected, the Coronal (1mm) region demonstrated a significantly increased CrDN compared with the Apical and Middle regions. Coupled with the information that the BFR is increased in the Coronal and Middle (1-3mm) regions would argue for a reparative function of remodeling in the Coronal and outer Middle regions, which is in response to microdamage accumulation. Significant differences were observed in the Middle (1mm) and Middle (Combined) regions, with the alendronate group demonstrating an increased CrSDn relative to control. There was no statistical difference across treatment groups for any of the regions studied. When compared by regions, the Coronal (1mm) was statistically higher than all regions it was measured against. The Middle regions demonstrated elevated CrSDn relative to the apical region, which displayed the lowest CrSDn values of all regions. One final measure of microdamage is mean crack length. There were no statistically significant differences across any groups for any regions. The only significant differences, when observed across regions, was in reference to the Middle (1mm) region, which was significantly larger than the Coronal (1mm), Coronal (Combined), and the Middle (1-3mm) region. Otherwise, there is no observable trend, and no significant difference between regions. In conclusion, this study found that there was no an increase in microdamage in the dentate mandible of the dogs with bisphosphonate therapy, thereby rejecting the first hypothesis. While there were isolated regions of remodeling inhibition, the hypothesis that bisphosphonate therapy would inhibit remodeling more in the coronal region than in the middle and apical region is rejected. Therefore, based on the findings of this study, we conclude that bisphosphonates do inhibit remodeling in the dentate alveolus generally, but inhibition is not localized to any particular region. Finally, the administration of bisphosphonates do not result in an increase in microdamage accumulation in the dentate alveolus of dogs.
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Efeito da terapia de longa duração com ácido zoledrônico no osso esponjoso da mandíbula e fêmur de ratos Wistar / Effect of long-term zoledronic acid treatment on cancellous bone in the mandible and femur of Wistar ratsSoares, Mariana Quirino Silveira 09 October 2017 (has links)
Os bisfosfonatos (BF) são amplamente utilizados no tratamento de doenças osteolíticas como metástases ósseas e osteoporose. A osteonecrose dos maxilares associada ao uso de BF (OMAB) é caracterizada pela presença de osso exposto ou que pode ser sondado através de uma fístula que persiste por mais de oito semanas em pacientes com história de terapia de BF e sem história de radioterapia na região de cabeça e pescoço e/ou sem doença metastática nos maxilares. A incidência de OMAB aumenta com a potência, duração do tratamento e dose de BF recebida. Até o presente momento, a fisiopatologia da OMAB não está clara, dificultando a prevenção e o tratamento. O objetivo deste estudo foi avaliar o efeito da administração de altas doses Ácido Zoledrônico (AZ) por período prolongado no osso esponjoso da mandíbula e da metáfise proximal do fêmur de ratos Wistar. Para relacionar as descobertas à fisiopatologia da OMAB, o regime de administração de BF de um modelo animal relevante desta lesão foi reproduzido. Seis animais receberam AZ (0,6 mg / kg) e seis receberam solução salina no mesmo volume (Controles). Os compostos foram administrados por via intraperitoneal em cinco doses a cada 28 dias. A eutanásia dos animais ocorreu após 150 dias de início da terapia. As hemimandíbulas e fêmures direitos foram escaneados usando Micro-tomografia computadorizada (Micro-CT) de alta resolução (14 m). Para a primeira análise realizada neste estudo, os dados morfométricos do osso esponjoso foram calculados na região do segundo e primeiro molar na mandíbula e na metáfise do fêmur usando CTAnalyzer (Bruker, Bélgica). Para a segunda análise, cinco amostras de hemimandíbulas de cada grupo foram cortadas em lâminas histológicas (5 m) e coradas com Hematoxilina e Eosina. Para comparar os parâmetros morfométricos na Micro-CT e histologia, as imagens de Micro-CT foram espacialmente alinhadas à histologia. Os dados morfométricos do osso alveolar foram calculados usando o software CTAnalyzer (Bruker, Bélgica) na região entre as raízes mesial e distal do primeiro molar. A densidade da área vascular (área vascular/área total; VA/TA) e os dados histomorfométricos ósseos foram estimados usando Axiovision na mesma região (entre as raízes mesial e distal do primeiro molar). Foi adotada significância estatística de 5% ( = 0,05). Os animais tratados com AZ apresentaram aumento significativo na porcentagem de volume ósseo (p <0,05) com trabéculas mais espessas, osso mais compacto com menor separação trabecular na mandíbula e no fêmur. Na mandíbula, o aumento da densidade óssea e diminuição da separação trabecular foram fortemente correlacionados com a diminuição da área vascular observada no grupo AZ (p <0,05). Em conclusão, o tratamento de longa duração com altas doses de AZ foi significativamente associado ao aumento na densidade óssea e à diminuição dos espaços medulares, canais nutritivos e vasculatura do osso alveolar. A análise com Micro-CT revelou alterações semelhantes na estrutura óssea tanto na mandíbula quanto no fêmur do grupo AZ. / Bisphosphonates (BFs) are widely used in the treatment of osteolytic diseases such as bone metastases and osteoporosis. The osteonecrosis of the jaws related to BF (ONB) is characterized by the presence of exposed bone or bone that can be probed through a fistula that persists for more than eight weeks in patients with a history of BF therapy and without history of head and neck radiotherapy and / or without metastatic disease in the jaws. The incidence of ONB increases with potency, duration of treatment and dose of BF received. Thus far, the pathophysiology of ONB is unclear, hampering prevention and treatment. The aim of this study was to objectively assess the effect of long-term high-dose Zoledronic Acid (ZA) on cancellous bone in the jaw and femur of Wistar rats. In order to link our findings to the physiopathology of ONB, the therapeutic regiment of a relevant ONB animal model was reproduced. Twelve Wistar rats were randomly divided in two groups: six received Zoledronic acid (ZA; 0.6 mg / kg) and six (Controls) received saline solution in the same volume. The compounds were administrated intraperitoneally in five doses each 28 days. The rats were killed after 150 days of the therapy onset. Mandibles and femurs were scanned using a high-resolution (14m) micro-computerized tomography (Micro-CT). For the first analysis carried in this study, cancellous bone morphometric data were calculates in the region of the second and first molar in the mandible and in the proximal femur using CTAnalyzer (Bruker, Belgium). For the second analysis five samples were cut into histological slices (5m) and stained with Hematoxylin and Eosin. In order to compare the same morphological structures in Micro-CT and histology, the Micro-CT images were aligned to histology. Alveolar bone morphometric data (Micro-CT) was calculated using CTAnalyzer (Bruker, Belgium) in the region between the mesial and distal roots of the first molar. Blood vessels density and bone histomorphometric data were calculated using Axiovision (Carl Zeiss, Germany) in the same region used for Micro-CT evaluation. Statistical significance of 5% (=0.05) was adopted. ZA treated rats presented significant increase in the percentage of bone volume (p<0.05) with thicker trabeculae and more compact bone with smaller marrow spaces in the mandible and femur. In the mandible, the increase in bone density and decrease of marrow spaces size was strongly correlated with the decrease in the vascular area noticed in the ZA group (p<0.05). In conclusion, long-term high-dose ZA treatment was significant associated with the increase of bone density and the diminution of medullary spaces and nutritive canals size as well as decrease in vascularity of the alveolar bone. Micro-CT investigation showed similar changes in bone structure in the mandible and femur in the ZA group.
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Tetrakis(2,6-diisopropylphenyl)diphosphine and related compounds : an electrochemical and EPR spectroscopic study of radical cationsTaghavikish, Mona January 2012 (has links)
In this thesis the synthesis and full characterization of a new bulky diphosphine, tetrakis-(2,6-diisopropylphenyl)diphosphine, are described. This compound displays facile oxidation and a thorough investigation of its redox properties has been studied by combining solution electrochemical techniques such as cyclic voltammetry (CV) and rotating disk electrode (RDE) voltammetry, with spectroscopic methods such as electron paramagnetic resonance (EPR) and Simultaneous Electrochemical Electron Paramagnetic Resonance (SEEPR) spectroscopy over a wide temperature range. Density functional theory (DFT) calculations were carried out to aid in structural characterization of the radical cation that is produced and to provide computed hyperfine splitting (HFS) constants for comparison with experimental results. For comparison to this species with bulky aromatic substituents, similar studies were conducted that have identified the previously unreported radical cation of tetrakis-tert-butyldiphosphine with a bulky aliphatic substituent that provides even higher steric pressure than the 2,6-diisopropylphenyl group. DFT calculations are reported, as is full characterization with fluid and frozen-solution EPR spectroscopy.
Further CV and EPR (SEEPR) studies are reported that led to the identification of radical cations of tris(2,6-diisopropylphenyl)arsine and bis(2,4,6-triisopropylphenyl)(2,6-diisopropylphenyl)phosphine. DFT calculations are reported, as is full characterization with fluid and frozen-solution EPR spectroscopy. / xix, 172 leaves : ill (some col.) ; 29 cm
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Efeito da terapia de longa duração com ácido zoledrônico no osso esponjoso da mandíbula e fêmur de ratos Wistar / Effect of long-term zoledronic acid treatment on cancellous bone in the mandible and femur of Wistar ratsMariana Quirino Silveira Soares 09 October 2017 (has links)
Os bisfosfonatos (BF) são amplamente utilizados no tratamento de doenças osteolíticas como metástases ósseas e osteoporose. A osteonecrose dos maxilares associada ao uso de BF (OMAB) é caracterizada pela presença de osso exposto ou que pode ser sondado através de uma fístula que persiste por mais de oito semanas em pacientes com história de terapia de BF e sem história de radioterapia na região de cabeça e pescoço e/ou sem doença metastática nos maxilares. A incidência de OMAB aumenta com a potência, duração do tratamento e dose de BF recebida. Até o presente momento, a fisiopatologia da OMAB não está clara, dificultando a prevenção e o tratamento. O objetivo deste estudo foi avaliar o efeito da administração de altas doses Ácido Zoledrônico (AZ) por período prolongado no osso esponjoso da mandíbula e da metáfise proximal do fêmur de ratos Wistar. Para relacionar as descobertas à fisiopatologia da OMAB, o regime de administração de BF de um modelo animal relevante desta lesão foi reproduzido. Seis animais receberam AZ (0,6 mg / kg) e seis receberam solução salina no mesmo volume (Controles). Os compostos foram administrados por via intraperitoneal em cinco doses a cada 28 dias. A eutanásia dos animais ocorreu após 150 dias de início da terapia. As hemimandíbulas e fêmures direitos foram escaneados usando Micro-tomografia computadorizada (Micro-CT) de alta resolução (14 m). Para a primeira análise realizada neste estudo, os dados morfométricos do osso esponjoso foram calculados na região do segundo e primeiro molar na mandíbula e na metáfise do fêmur usando CTAnalyzer (Bruker, Bélgica). Para a segunda análise, cinco amostras de hemimandíbulas de cada grupo foram cortadas em lâminas histológicas (5 m) e coradas com Hematoxilina e Eosina. Para comparar os parâmetros morfométricos na Micro-CT e histologia, as imagens de Micro-CT foram espacialmente alinhadas à histologia. Os dados morfométricos do osso alveolar foram calculados usando o software CTAnalyzer (Bruker, Bélgica) na região entre as raízes mesial e distal do primeiro molar. A densidade da área vascular (área vascular/área total; VA/TA) e os dados histomorfométricos ósseos foram estimados usando Axiovision na mesma região (entre as raízes mesial e distal do primeiro molar). Foi adotada significância estatística de 5% ( = 0,05). Os animais tratados com AZ apresentaram aumento significativo na porcentagem de volume ósseo (p <0,05) com trabéculas mais espessas, osso mais compacto com menor separação trabecular na mandíbula e no fêmur. Na mandíbula, o aumento da densidade óssea e diminuição da separação trabecular foram fortemente correlacionados com a diminuição da área vascular observada no grupo AZ (p <0,05). Em conclusão, o tratamento de longa duração com altas doses de AZ foi significativamente associado ao aumento na densidade óssea e à diminuição dos espaços medulares, canais nutritivos e vasculatura do osso alveolar. A análise com Micro-CT revelou alterações semelhantes na estrutura óssea tanto na mandíbula quanto no fêmur do grupo AZ. / Bisphosphonates (BFs) are widely used in the treatment of osteolytic diseases such as bone metastases and osteoporosis. The osteonecrosis of the jaws related to BF (ONB) is characterized by the presence of exposed bone or bone that can be probed through a fistula that persists for more than eight weeks in patients with a history of BF therapy and without history of head and neck radiotherapy and / or without metastatic disease in the jaws. The incidence of ONB increases with potency, duration of treatment and dose of BF received. Thus far, the pathophysiology of ONB is unclear, hampering prevention and treatment. The aim of this study was to objectively assess the effect of long-term high-dose Zoledronic Acid (ZA) on cancellous bone in the jaw and femur of Wistar rats. In order to link our findings to the physiopathology of ONB, the therapeutic regiment of a relevant ONB animal model was reproduced. Twelve Wistar rats were randomly divided in two groups: six received Zoledronic acid (ZA; 0.6 mg / kg) and six (Controls) received saline solution in the same volume. The compounds were administrated intraperitoneally in five doses each 28 days. The rats were killed after 150 days of the therapy onset. Mandibles and femurs were scanned using a high-resolution (14m) micro-computerized tomography (Micro-CT). For the first analysis carried in this study, cancellous bone morphometric data were calculates in the region of the second and first molar in the mandible and in the proximal femur using CTAnalyzer (Bruker, Belgium). For the second analysis five samples were cut into histological slices (5m) and stained with Hematoxylin and Eosin. In order to compare the same morphological structures in Micro-CT and histology, the Micro-CT images were aligned to histology. Alveolar bone morphometric data (Micro-CT) was calculated using CTAnalyzer (Bruker, Belgium) in the region between the mesial and distal roots of the first molar. Blood vessels density and bone histomorphometric data were calculated using Axiovision (Carl Zeiss, Germany) in the same region used for Micro-CT evaluation. Statistical significance of 5% (=0.05) was adopted. ZA treated rats presented significant increase in the percentage of bone volume (p<0.05) with thicker trabeculae and more compact bone with smaller marrow spaces in the mandible and femur. In the mandible, the increase in bone density and decrease of marrow spaces size was strongly correlated with the decrease in the vascular area noticed in the ZA group (p<0.05). In conclusion, long-term high-dose ZA treatment was significant associated with the increase of bone density and the diminution of medullary spaces and nutritive canals size as well as decrease in vascularity of the alveolar bone. Micro-CT investigation showed similar changes in bone structure in the mandible and femur in the ZA group.
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Efeito do ácido zoledrônico na perda óssea de pacientes submetidos a transplante renal: um estudo prospectivo e randomizado / A prospective and randomized trial of zoledronic acid to prevent bone loss in the first year after kidney transplantationMarques, Igor Denizarde Bacelar 08 June 2016 (has links)
Distúrbios do metabolismo mineral e da remodelação óssea são complicações comuns que afetam pacientes após o transplante renal e representam importantes causas de morbidade e mortalidade. Estas alterações esqueléticas são resultantes de uma complexa interposição de fatores, incluindo uma resolução incompleta das alterações minerais e ósseas devido ao funcionamento deficiente do enxerto, a ação de drogas imunossupressoras e a presença de fatores de risco para o desenvolvimento de osteoporose que acometem a população geral. Bisfosfonatos podem prevenir ou atenuar a perda óssea após o transplante renal. Receptores de transplante renal com doador vivo foram randomizados para tratamento com dose única de 5 mg de ácido zoledrônico após o transplante associado à suplementação de colecalciferol ou com apenas colecalciferol. Realizamos densitometrias (DXA), microtomografias (HRpQCT) e biópsias ósseas à época do transplante e ao final dos 12 meses do estudo, e avaliamos a correlação entre estas técnicas invasivas e não invasivas. Houve uma boa concordância entre a HR-pQCT e a biópsia óssea transilíaca com relação ao compartimento cortical. No osso trabecular, embora estatisticamente significantes e maiores do que as descritas na população geral, as correlações entre os dois métodos foram apenas de moderada intensidade. Os pacientes não perderam tanta massa óssea quanto era esperado. Houve um aumento da densidade mineral óssea (DMO) medida por DXA no fêmur total em ambos os grupos, mas na coluna lombar apenas nos pacientes que receberam ácido zoledrônico. Por HR-pQCT do rádio, observou-se que esta diferença de DMO em favor do grupo ácido zoledrônico foi evidenciada na região cortical. A análise histomorfométrica das biópsias ósseas demonstrou uma diminuição na porosidade e aumento da espessura cortical, mais evidente nos pacientes que receberam ácido zoledrônico. Os pacientes do grupo ácido zoledrônico apresentaram supressão dos parâmetros de formação e reabsorção óssea; entretanto, não houve um risco aumentado de desenvolvimento de doença óssea adinâmica (DOA) ou defeito de mineralização, quando comparados com o grupo controle. Os benefícios observados sobre osso cortical, aliados a um perfil de segurança favorável e à possibilidade de prevenir fraturas, fazem com que ainda haja espaço para o uso dos bisfosfonatos após o transplante renal. Mais estudos são necessários até que o uso profilático de bisfosfonatos seja recomendado para prevenir a perda óssea em receptores de transplante de rim / Bone and mineral disorders occur frequently in kidney transplant recipients and are associated with a high risk of fracture, morbidity, and mortality. Post-transplantation bone disease results from the evolution of preexisting renal osteodystrophy, use of glucocorticoids and other immunosuppressive drugs and other risk factors for osteoporosis. Bisphosphonates may prevent or ameliorate the bone loss after kidney transplantation. We randomly assigned 34 new living-donor kidney recipients to either 5 mg of zoledronic acid plus cholecalciferol or cholecalciferol alone for 12 months. We obtained bone mineral density (BMD) by DXA, microcomputed tomography (HR-pQCT) and bone biopsies at the time of kidney transplant and after 12 months of protocol treatment. Correlations between invasive and noninvasive techniques that assesses trabecular and cortical bone microarchitecture were made. There was a good agreement between HR-pQCT and transiliac bone biopsies regarding cortical compartment. Conversely, in trabecular bone, despite being statistically significant and greater than that described for the general population, the correlations between both methods were modest. The expected decrease in BMD after kidney transplantation did not occurred. On the contrary, there was an increase in BMD at total femur in both groups, and at lumbar spine in the zoledronic acid group. HR-pQCT data showed that this gain of bone mass in zoledronic acid group was in cortical bone. The bone histomorphometric analysis demonstrated a decrease in cortical porosity and increase in cortical width, more evident in zoledronic acid group. Bone turnover markers decreased in both groups, however there was no risk of adynamic bone disease or mineralization defect with zoledronic acid. The benefits observed on cortical bone, combined with a favorable safety profile and the ability to prevent fractures suggest that there is still room for the use of bisphosphonates after kidney transplantation. Further studies are needed before the use of prophylactic bisphosphonates to attenuate bone loss can be recommended in kidney transplant recipients
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Análise da expressão gênica e de proteínas reguladoras do fósforo e da remodelação óssea: efeitos do transplante renal e do ácido zoledrônico / Gene expression and bone remodeling proteins: kidney transplant and zoledronic acid effectsAraújo, Maria Júlia Correia Lima Nepomuceno 25 August 2017 (has links)
A maior parte dos distúrbios metabólicos da doença renal crônica (DRC) é revertida após um transplante renal bem-sucedido. Porém, alterações do metabolismo ósseo podem permanecer e estão associadas ao aumento de fraturas, calcificação vascular, perda de enxerto e mortalidade. A expressão óssea de proteínas osteocíticas está alterada na DRC e parece contribuir negativamente para a homeostase óssea. Há relatos de aumento da expressão óssea de FGF-23 e esclerostina em crianças que receberam transplante de órgãos sólidos em comparação com voluntários normais. Entretanto, análise da expressão destas proteínas em receptores adultos ainda não foi realizada. Avaliação de biopsia óssea em 31 pacientes uma semana antes e 1 ano após o transplante renal. Realizada histomorfometria óssea e avaliação das proteínas ósseas através de imunohistoquimica, multiplex e expressão gênica. Na avaliação das biópsias antes do transplante, houve concordância entre os achados de imunohistoquimica e multiplex para esclerostina e FGF-23. Um ano após o transplante renal bem-sucedido, observamos diminuição dos níveis séricos do PTH, TRAP5b, fosfatase alcalina óssea, FGF-23, OPG e esclerostina. Apesar da diminuição da esclerostina sérica, houve aumento de seu conteúdo ósseo pela imunohistoquimica, multiplex e expressão gênica. Também foi observado aumento do conteúdo proteico e da expressão gênica da beta-catenina fosforilada, confirmando a inibição da via Wnt. Esta inibição foi acompanhada do aumento do conteúdo ósseo de RANKL e diminuição da OPG. Em relação ao FGF-23, houve concordância entre níveis séricos e conteúdo proteico, confirmando sua menor síntese pelos osteócitos, e portanto, menor nível sérico, após o transplante renal. A recuperação da função renal após o transplante é acompanhada de mudanças nas proteínas séricas e ósseas. A esclerostina óssea aumentou, apesar da diminuição do nível sérico, acompanhada de mudanças em outras proteínas que confirmam a inibição da via Wnt. Esse achado pode ajudar a desvendar a fisiopatologia da doença óssea pós transplante e guiar a busca por novas terapias / Most of the metabolic disorders of chronic kidney disease (CKD) improve after kidney transplantation, although bone metabolism might remain compromised, which is evidenced by high rates of bone loss, fractures and vascular calcification. Osteocytic bone protein expression is altered in CKD, and this seems to contribute negatively to bone health in these patients. It has been described that FGF-23 and sclerostin expression is increased in children after solid organ transplantation. However, little is known about bone-related proteins expression in adult recipients, which were analyzed prospectively in this study. Transiliac bone biopsies were obtained from 31 adult patients one week before and one year after transplantation. Bone fragments were used for histomorphometric analysis, as well as for bone proteins expression, measured by immunohistochemistry (IH) and multiplex. At baseline, we observed a significant correlation between IH expression and multiplex concentrations for sclerostin and FGF-23. After a successful transplant, there was a decrease in PTH, TRAP5b, bone alkaline phosphatase, FGF-23, OPG and sclerostin. Although serum sclerostin decreased after the transplant, bone content of this protein increased through immunohistochemistry, multiplex and gene expression. We also observed an increase in the bone content and bone expression of phosphorylated beta-catenin, confirming the Wnt pathway inhibition, which was accompanied by RANKL increase and OPG decrease in the bone. A significant decrease in FGF-23 bone concentration was also seen, compatible with the serum decrease. Kidney function recovery after transplant is accompanied by significant changes in many bone proteins expression. Contradictory to the decrease in levels of serum sclerostin, its bone expression, actually, has increased, accompanied by the change of other proteins that confirm the Wnt pathway inhbition. This findings could help to unveil the patophysiology of post transplant bone disease and help to guide the search to new therapies
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The effects of aging and remodeling on bone quality and microdamageO'Neal, Jessica 16 May 2011 (has links)
One indication of increasing fragility of bone is the accumulation of microscopic cracks, or microdamage, within the bone matrix. Microdamage accumulates in bone of the elderly, when changes in bone material properties and matrix architecture coupled with a decrease in bone repair mechanisms compromise bone integrity. To preserve bone mass and reduce fracture risk, therapeutics such as alendronate are prescribed which increase bone volume fraction by decreasing the rate of bone turnover. However, concerns over adverse effects of prolonged turnover suppression have been reinforced by findings of increased microdamage density with alendronate use. Microdamage formation is not always pathologic, but extensive accumulation of damage can be an indicator of reduced bone quality. The work in this thesis explores the hypothesis that microdamage in bone of lower quality will form more easily and progress more extensively than in bone of higher quality. Microdamage initiation stresses and strains were obtained for trabecular bone from older females, older males, and younger females to determine whether thresholds for damage initiation were lower in older females. Results suggest that the stress threshold for damage initiation in older females may indeed be lower compared with younger females, and that normalized strain thresholds for severe damage formation in older males may be decreased compared with older females. Damage propagation was evaluated as a function of age and sex to determine whether damage in older women progressed more extensively than in younger women or men. Results suggest that bone from older individuals had decreased resistance to crack propagation evidenced by an increased number of severely damaged trabeculae which expanded in area under cyclic loading; however no sex differences were uncovered. Finally, the stress/strain thresholds for damage initiation were investigated in alendronate-treated bone, and results indicate that a decreased stress threshold was needed to initiate damage formation of a linear and severe morphology after one year of treatment. After three years of treatment, however, micromechanical properties recovered, perhaps due to increased matrix mineralization which increased tissue level stiffness.
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Following the mevalonate pathway to bone heal alley /Skoglund, Björn, January 2007 (has links) (PDF)
Diss. (sammanfattning) Linköping : Linköpings universitet, 2007. / Härtill 4 uppsatser.
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Following the mevalonate pathway to bone heal alley /Skoglund, Björn, January 2007 (has links)
Diss. (sammanfattning) Linköping : Linköpings universitet, 2007. / Härtill 4 uppsatser.
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Análise da expressão gênica e de proteínas reguladoras do fósforo e da remodelação óssea: efeitos do transplante renal e do ácido zoledrônico / Gene expression and bone remodeling proteins: kidney transplant and zoledronic acid effectsMaria Júlia Correia Lima Nepomuceno Araújo 25 August 2017 (has links)
A maior parte dos distúrbios metabólicos da doença renal crônica (DRC) é revertida após um transplante renal bem-sucedido. Porém, alterações do metabolismo ósseo podem permanecer e estão associadas ao aumento de fraturas, calcificação vascular, perda de enxerto e mortalidade. A expressão óssea de proteínas osteocíticas está alterada na DRC e parece contribuir negativamente para a homeostase óssea. Há relatos de aumento da expressão óssea de FGF-23 e esclerostina em crianças que receberam transplante de órgãos sólidos em comparação com voluntários normais. Entretanto, análise da expressão destas proteínas em receptores adultos ainda não foi realizada. Avaliação de biopsia óssea em 31 pacientes uma semana antes e 1 ano após o transplante renal. Realizada histomorfometria óssea e avaliação das proteínas ósseas através de imunohistoquimica, multiplex e expressão gênica. Na avaliação das biópsias antes do transplante, houve concordância entre os achados de imunohistoquimica e multiplex para esclerostina e FGF-23. Um ano após o transplante renal bem-sucedido, observamos diminuição dos níveis séricos do PTH, TRAP5b, fosfatase alcalina óssea, FGF-23, OPG e esclerostina. Apesar da diminuição da esclerostina sérica, houve aumento de seu conteúdo ósseo pela imunohistoquimica, multiplex e expressão gênica. Também foi observado aumento do conteúdo proteico e da expressão gênica da beta-catenina fosforilada, confirmando a inibição da via Wnt. Esta inibição foi acompanhada do aumento do conteúdo ósseo de RANKL e diminuição da OPG. Em relação ao FGF-23, houve concordância entre níveis séricos e conteúdo proteico, confirmando sua menor síntese pelos osteócitos, e portanto, menor nível sérico, após o transplante renal. A recuperação da função renal após o transplante é acompanhada de mudanças nas proteínas séricas e ósseas. A esclerostina óssea aumentou, apesar da diminuição do nível sérico, acompanhada de mudanças em outras proteínas que confirmam a inibição da via Wnt. Esse achado pode ajudar a desvendar a fisiopatologia da doença óssea pós transplante e guiar a busca por novas terapias / Most of the metabolic disorders of chronic kidney disease (CKD) improve after kidney transplantation, although bone metabolism might remain compromised, which is evidenced by high rates of bone loss, fractures and vascular calcification. Osteocytic bone protein expression is altered in CKD, and this seems to contribute negatively to bone health in these patients. It has been described that FGF-23 and sclerostin expression is increased in children after solid organ transplantation. However, little is known about bone-related proteins expression in adult recipients, which were analyzed prospectively in this study. Transiliac bone biopsies were obtained from 31 adult patients one week before and one year after transplantation. Bone fragments were used for histomorphometric analysis, as well as for bone proteins expression, measured by immunohistochemistry (IH) and multiplex. At baseline, we observed a significant correlation between IH expression and multiplex concentrations for sclerostin and FGF-23. After a successful transplant, there was a decrease in PTH, TRAP5b, bone alkaline phosphatase, FGF-23, OPG and sclerostin. Although serum sclerostin decreased after the transplant, bone content of this protein increased through immunohistochemistry, multiplex and gene expression. We also observed an increase in the bone content and bone expression of phosphorylated beta-catenin, confirming the Wnt pathway inhibition, which was accompanied by RANKL increase and OPG decrease in the bone. A significant decrease in FGF-23 bone concentration was also seen, compatible with the serum decrease. Kidney function recovery after transplant is accompanied by significant changes in many bone proteins expression. Contradictory to the decrease in levels of serum sclerostin, its bone expression, actually, has increased, accompanied by the change of other proteins that confirm the Wnt pathway inhbition. This findings could help to unveil the patophysiology of post transplant bone disease and help to guide the search to new therapies
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