Obtención y caracterización de nuevos cementos óseos de fosfatos de calcio en el sistema CaHPO4--- -Ca3 (PO4)2

Fernández Aguado, Enrique

18 December 1996

La presente Tesis Doctoral se titula "Obtención y caracterización de nuevos cementos óseos de fosfatos de calcio en el sistema DCP&#8213;alfa-TCP". Los cementos de fosfatos de calcio (CFC) son materiales biocompatibles que tienen la propiedad de endurecer en condiciones fisiológicas formando una estructura porosa de cristales interconectados de hidroxiapatita, i.e. la fase mineral de los tejidos óseos. Estos materiales pueden ser diseñados para que sean inyectables y tengan distintos porcentajes de porosidad. Este hecho permite obtener cementos con distintas tasas de reabsorción ósea que pueden aplicarse con técnicas de mínima invasión. En general, estas propiedades otorgan a estos biomateriales un excelente interés en campos de aplicación de prevención, reconstrucción o estabilización ósea (p.e.: osteoporosis, cirugía craneofacial, vertebroplastia, cifoplastia).Esta Tesis Doctoral consta de 6 capítulos. El Capítulo 1 (Cementos óseos de fosfatos de calcio) recoge el estado del arte de los CFC. Se realiza una revisión bibliográfica crítica de toda la información de interés. Se concluye la necesidad de realizar estudios cinéticos que expliquen adecuadamente las propiedades de fraguado de estos cementos y permitan diseñar cementos con mejores propiedades. El Capítulo 2 (Materiales y métodos utilizados en la fabricación y caracterización de cementos óseos de fosfatos de calcio) describe el protocolo de trabajo seguido para caracterizar los CFC física y químicamente. Este protocolo permite establecer correlaciones entre la microestructura y las propiedades macroscópicas. El Capítulo 3 (Estudio de la cinética de la reacción de fraguado de un cemento óseo de fosfato de calcio) investiga la cinética de fraguado de un cemento octocálcico en el sistema DCP&#8213;alfa-TCP. Los resultados mostraron que: (a) sólo el alfa-TCP reaccionó para dar una hidroxiapatita deficiente en calcio (CDHA); (b) el porcentaje de reacción y la resistencia mecánica a compresión estaban correlacionadas; (c) el cemento presentó una estructura de cristales interconectados con distinto grado de compacidad. El Capítulo 4 (Estudio de nuevas formulaciones de cementos de fosfatos de calcio en el sistema DCP&#8213;alfa-TCP) investiga las propiedades de fraguado y de resistencia mecánica de cementos del sistema DCP&#8213;alfa-TCP en el intervalo de relaciones Calcio/Fósforo (Ca/P) 1.26<Ca/P<1.50. Se estudia cómo varían la trabajabilidad, los tiempos de fraguado y la resistencia a la compresión. También se estudia el efecto de la adición de carbonato cálcico (CC) sobre las propiedades de fraguado ya que se espera obtener como producto final de la reacción de fraguado una hidroxiapatita deficiente en calcio carbonatada y, por lo tanto, más semejante a la apatita de la fase mineral ósea. Los resultados mostraron que la adición de un 10 % de CC produjo un efecto fluidificante sobre los cementos con un incremento en los valores de los tiempos de fraguado. El análisis de la evolución de la resistencia a la compresión con el tiempo demostró que el CC actúa como un retardador. Sin embargo, la resistencia final alcanzada representa en muchos casos un incremento de más del 40 %. El Capítulo 5 (Discusión general) discute los resultados más relevantes analizados a lo largo de los Capítulos 3 y 4 para comprender las posibilidades clínicas que este tipo de materiales nos ofrece. El Capítulo 6 (Conclusiones) presenta una serie de conclusiones obtenidas a partir de los resultados de los Capítulos 3 y 4. Son conclusiones extraídas a partir del análisis de los resultados de determinadas poblaciones de muestras. Como los intervalos de variabilidad de los parámetros de cada población son diferentes, muchas de las conclusiones no son generalizables a todo el sistema DCP&#8213;alfa-TCP, sino que se han de leer dentro de este sistema y en las condiciones experimentales estudiadas. Finalmente, la Tesis Doctoral lista el conjunto de referencias bibliográficas utilizadas en este trabajo de investigación.

vertebroplasty

spinal surgery applications

setting reactions

monetite

alpha-tricalcium phosphate

bone cement

calcium phosphate cement

hydroxyapatite

calcium phosphates

kyphoplasty

620

Preparation And Characterization Of Biodegradable Composite Systems As Hard Tissue Supports: Bone Fillers, Bone Regeneration Membranes And Scaffolds

Aydemir Sezer, Umran

01 February 2012

In tissue engineering applications, use of biodegradable and biocompatible materials are essential. As the tissue regenerate itself on the material surface, the material degrades with enzymatic or hydrolytic reactions. After a certain time, natural tissue takes the place of the artificial support. Poly(&epsilon / -caprolactone) (PCL) is one of the preferable polymers used in the restoration of the bone defects due to its desirable mechanical properties and biocompatibility. Addition of inorganic calcium phosphate particles in PCL structures can improve the mechanical properties as well as osteoconductivity / and presence of an antibiotic can prevent infection that may occur at the defect site. In this study, three forms of biodegradable hard tissue supports which are bone fillers, bone regenerative membranes and 3D scaffolds were designed and prepared. As biodegradable bone fillers, composite microspheres containing gelatin and &beta / -tricalcium phosphate (&beta / -TCP) were prepared and characterized. Synthesized &beta / -TCP particles were coated with gelatin at different weight ratios and the effects of &beta / -TCP/Gelatin ratio on the morphology of the microspheres were evaluated. Also, a model antibiotic, gentamicin, was loaded to these microspheres and release behaviours of the drug and its antibacterial effect on E.Coli was determined. The selected composition of these microspherical bone fillers were used as additives in the preparation of bone regenerative membranes and scaffolds. For this purpose, microspheres were added into PCL solution and processed by either solvent casting or freeze-drying in order to prepare bone regenerative membranes or scaffolds, respectively. For every material, the ratio of constituents (microsphere and PCL) was altered in order to obtain optimum properties in the resulted hard tissue support structure. The effects of the ratio of the microspheres to PCL in terms of morphological, mechanical and degradation properties of composite films, as well as in vitro antibiotic release and antibacterial activities against E.Coli and S.Aureus were investigated. For scaffolds, the effects of the ratio of the microspheres to PCL on the morphological, mechanical, pore size distribution, degradation properties and in vitro antibiotic release were examined.

TP Biotechnology 248.13-248.65

Poly(&epsilon

-caprolactone), &beta

Neoformação óssea comparativa de biomateriais micronanoestruturados aplicados através de um sistema guiado em calvária de coelhos Oryctolagus cuniculus / Comparative bone formation of micronanostructured biomaterials applied through a calvary-guided system of rabbits Oryctolagus cuniculus

Kuci, Cristiana Corrêa

17 February 2017

Submitted by Claudia Rocha (claudia.rocha@udesc.br) on 2018-03-16T14:41:47Z No. of bitstreams: 1 PGCA17MA222.pdf: 4155710 bytes, checksum: b20faa3c60a0a388927aaabec4041811 (MD5) / Made available in DSpace on 2018-03-16T14:41:47Z (GMT). No. of bitstreams: 1 PGCA17MA222.pdf: 4155710 bytes, checksum: b20faa3c60a0a388927aaabec4041811 (MD5) Previous issue date: 2017-02-17 / Capes / Several research studies related to bone substitutes have been conducted in order to find the ideal material for this purpose, with similar qualities to the autogenous bone regarding its application of repairing bone defects, whether it results from fracture, degeneration or neoplasias. Accordingly, surgical experiments were carried out in rabbit calvaries, aiming to analyse and compare different micro-nanostructured biomaterials in relation to their capacity of osteoinduction and osteoconduction. Fourteen male New Zealand rabbits, eight months old and with a mean weight of 3.43 ± 0.53kg, were used. The animals were proven to be healthy through clinical examination and haematological analysis. The animals were submitted to inhalation anesthesia with isoflurane for the surgical procedure. From the bone exposure of the calvary region, four cylindrical polyamide guides were fixed with stainless steel screw. Each guide was filled with a pre-determined biomaterial composed of: hydroxyapatite with 5% silica (HA/SiO2 5%), hydroxyapatite with β-tricalcium phosphate (β-TCP/HA - 26.27%/73.53%), β-tricalcium phosphate (β-TCP) and Bio-Oss® (control). The animals were randomly assigned into two groups: G60 (n=7) and G90 (n=7), which were submitted to euthanasia at 60 and 90 days postoperatively, respectively, each calvary being removed and conditioned in buffered formaldehyde for 15 days. Afterwards, the calvaries were sectioned in four quadrants, each containing the biomaterial, being kept in buffered formaldehyde for another 15 days and then sent to histological analysis and scanning electron microscopy (SEM). From the results obtained by the methodology of this study, it can be concluded that all applied biomaterials show osteoinduction and osteoconduction capacity, despite different degrees. Through the analysis performed, it was observed that the Bio-Oss® presented smaller neoformation of bone tissue. The biphasic HA/SiO2 5% composition did not show incorporation on the interface between the recipient bed and the bone graft in most animals, inducing the formation of fibrous tissue for the most part. The β-TCP and the biphasic β-TCP/HA 73,53/26,27%, were the most promising biomaterials of this study, inducing a greater bone neoformation. β-TCP has been shown to be the biomaterial with the fastest rate of formation and maturation of bone tissue. The biphasic β-TCP/HA presented results very close to the β-TCP alone. However, it presented a greater amount of phagocytic cells, which in a longer period of evaluation could present a higher rate of absorption of the biomaterial / Diversas pesquisas relacionadas a substitutos ósseos têm sido realizadas na busca de um material ideal, que tenha qualidades próximas ao osso autógeno quanto à sua aplicação para reparação de um defeito ósseo, seja ele decorrente de fratura, degeneração ou neoplasias. Com esta finalidade, foram realizados experimentos cirúrgicos guiados em calvárias de coelhos onde se teve por objetivo analisar e comparar diferentes biomateriais micronanoestruturados em relação à sua capacidade de osteoindução e osteocondução. Foram utilizados 14 coelhos da raça Nova Zelândia, machos, com oito meses de idade e com peso médio de 3,43 ± 0,53kg. Os animais foram comprovadamente hígidos através de exame clínico e análise hematológica. Os animais foram submetidos à anestesia inalatória com isoflurano para realização do procedimento cirúrgico. A partir da exposição óssea da região da calvária, foram fixadas quatro guias cilíndricas de poliamida com parafuso de aço inoxidável. Cada guia foi preenchida por biomaterial pré-determinado, compostos por: Hidroxiapatita com Sílica a 5% (HA/SiO2 5%), Hidroxiapatita com Fosfato tricálcico- β (HA/TCP-β: 73,53/26,27%), Fosfato tricálcico (TCP-β) e Bio-ss® (controle). Os animais foram distribuídos aleatoriamente em dois grupos: G60 (n=7) e G90 (n=7), que foram submetidos à eutanásia com 60 e 90 dias de pós-operatório, respectivamente, sendo cada calvária removida e acondicionada em formaldeído tamponado por 15 dias. Após, as calvárias foram seccionadas em quatro quadrantes, cada qual contendo o biomaterial, sendo mantidos em formaldeído tamponado 10% por mais 15 dias e então encaminhados para análises histológica e de microscopia eletrônica por varredura (MEV). A partir dos resultados obtidos pela metodologia deste estudo, pode ser concluído que todos os biomateriais aplicados, apresentam capacidade de osteoindução e osteocondução, mesmo que em graus variados. Observou-se que o Bio-Oss® apresentou menor neoformação de tecido ósseo. A composição bifásica HA/SiO2 5% não apresentou incorporação na interface entre o leito receptor e o enxerto ósseo na maior parte dos animais, induzindo à formação de tecido fibroso em sua maior parte. O TCP-β e o bifásico HA/TCP-β 73,53/26,27%, foram os biomateriais mais promissores deste estudo, induzindo a uma maior neoformação óssea. O TCP-β demonstrou ser o biomaterial com velocidade mais rápida de formação e maturação do tecido ósseo. O bifásico HA/TCP-β apresentou resultados bem próximos ao TCP-β isolado. No entanto, apresentou maior quantidade de células fagocitárias, o que num período maior de avaliação, poderia apresentar maior velocidade de absorção do biomaterial

5.05.00.00-7 Medicina Veterinária

Obten??o de cer?micas ? base de tric?lcio fosfatos utilizando ?xido de mangan?s como aditivo

Ramalho, Eduardo Galv?o

28 June 2006

Made available in DSpace on 2014-12-17T14:57:45Z (GMT). No. of bitstreams: 1 EduardoGR.pdf: 1635946 bytes, checksum: 593244cdda721eea4684ae85323cfee4 (MD5) Previous issue date: 2006-06-28 / Coordena??o de Aperfei?oamento de Pessoal de N?vel Superior / The calcium phosphate ceramics have been very investigated as material for bone implants. The tricalcium phosphate (&#946;-TCP) had a great potential for application in temporary implants like a resorbable bioceramic. This material presents a limitation in its sintering temperature due to occurrence of the allotropic transformation &#946; &#x2192; &#945; at temperatures around 1200?C, not allowing the attainment of dense ceramic bodies. This transformation also causes cracks, what diminishes the mechanical strength, limiting its use to applications of low mechanical requests. This work studies the influence of the addition of manganese oxide in the sintering of &#946;-TCP. Two processing routes were investigated. The first was the powder metallurgy conventional process. The test bodies (samples) were pressed and sintering at temperatures of 1200 and 1250?C. The second route was uniaxial hot pressing and its objective was to obtain samples with high relative density. The samples were physically characterized through density and porosity measurements. The thermal behavior was studied through dilatometric, thermal differential and thermogravimetric analysis. The mechanical properties were characterized by three point flexure test and Vickers microhardness measurements. The microstructure was analyzed by scanning electron microscopy. The addition of manganese oxide caused an improvement of the mechanical strength in relation to the material without additive and promoting the stabilization of &#946;-TCP to greater temperatures / As cer?micas de fosfato de c?lcio t?m sido intensamente investigadas como materiais para implantes ?sseos. O fosfato tric?lcico (&#946;-TCP) possui um grande potencial para aplica??o em implantes tempor?rios por ser uma biocer?mica absorv?vel. Entretanto, este tipo de material apresenta uma limita??o na sua temperatura de sinteriza??o devido ? ocorr?ncia da transforma??o alotr?pica &#946; &#x2192; &#945; em torno de 1200?C. Isto impede a obten??o de corpos cer?micos densos e provoca trincas, diminuindo a resist?ncia do material e limitando a sua utiliza??o a aplica??es de baixa solicita??o mec?nica. A influ?ncia da adi??o de ?xido de mangan?s na sinteriza??o do &#946;-TCP foi estudada neste trabalho. Duas rotas de processamento foram investigadas. A primeira utilizou o processo convencional de metalurgia do p?. Os corpos de prova foram prensados, sendo posteriormente sinterizados nas temperaturas de 1200 e 1250?C. O segundo m?todo de processamento utilizou a rota de prensagem uniaxial a quente, e tinha como objetivo obter corpos de prova com alta densidade relativa. As amostras foram caracterizadas fisicamente por meio de medidas de porosidade e densidade e termicamente por dilatometria e an?lise termogravim?trica e t?rmica diferencial. Os corpos sinterizados foram caracterizados mecanicamente por resist?ncia a flex?o em 3 pontos e microdureza Vickers, sendo tamb?m sua microestrutura analisada por microscopia eletr?nica de varredura. A adi??o do ?xido de mangan?s ocasionou uma melhoria da resist?ncia mec?nica em rela??o ao material sem aditivo, al?m de promover uma estabiliza??o do &#946;-TCP em temperaturas mais elevadas

Tric?lcio fosfato

Aditivos de sinteriza??o

Prensagem a quente

Tricalcium phosphate

Sintering additives

Hot pressing

CNPQ::ENGENHARIAS::ENGENHARIA MECANICA

Healing of cranial critical sized defects with grafts, stem cells, growth factors and bio-materials

Lappalainen, O.-P. (Olli-Pekka)

01 November 2016

Abstract Bone is a highly vascularized tissue which enables a close interaction between blood vessels and osteoid complexes, including osteoblasts and osteoclasts. Iatrogenic bone loss, caused by a surgical intervention or trauma, disrupts circulation in the bone and leads to hypoxia and even necrosis of the adjacent bone. The mechanisms of the bone tissue healing process by regeneration are highly specific. The most common and predictable way to manage a large-sized skull bone defect has traditionally been using the patient’s own bone tissue graft. The problem with the method is damage and pain of the donor site caused by the operation and healing problems. In paediatric patients, there is a limited availability of adequate autologous bone grafts. For this reason, efforts have been made to develop substitute materials in order to avoid the need for large bone grafts. Autologous stem cells have proven to be promising targets for the development of bone substitutes for cranio-maxillofacial bone defects. The main objective of this study was to examine, by using an experimental animal model, differences in the healing of critical-sized calvarial bone defects, similar to cranioplasty, induced with different types of autogenous bone grafts and with adipose tissue- or bone marrow-derived stem cells grown in two commonly used biomaterials, tricalcium phosphate and bioglass. We also investigated the effect of tissue adhesive, fibrin glue, on the healing process of bone defects. The effect of the stimulating growth factor proteins BMP-2, BMP-7 and VEGF on tissue transplants and ossification was also studied. The results of this study support the previously reported findings of accelerated bone graft resorption associated with autologous bone graft use. In particular, the use of fibrin tissue glue in combination with autologous particulated bone grafts reduced the formation of new bone in calvarial lesions. During the initial healing of calvarial bone defects, tricalcium phosphate granules proved to be more effective than solid bioactive glass scaffolds. Furthermore, in combination with adipose-derived stem cells, tricalcium phosphate showed better bone regeneration than the same cells in combination with a bioactive glass scaffold. Combining bone marrow-derived stem cells with biomaterial did not increase bone formation in calvarial critical-sized defects. In this study, there was no evidence of the positive effect of growth factors on cranial bone healing. / Tiivistelmä Luu on runsaasti verisuonitettua kudosta, ja se mahdollistaa tiiviin vuorovaikutuksen verisuonten ja luun rakenteen perusyksikön, osteonin, sekä toiminnallisten solujen osteoblastien ja osteoklastien välillä. Kirurgisen toimenpiteen tai trauman aiheuttama luun vaurio häiritsee luun verenkiertoa ja johtaa hapenpuutteeseen ja jopa nekroosiin vaurioituneessa luun osassa. Luukudoksen paranemisen ja uudistumisen mekanismit ovat pitkälle erilaistuneita ja ne tunnetaan erittäin hyvin. Yleisin ja ennusteeltaan luotettavin tapa korjata laajoja kallon luukudoksen puutoksia on perinteisesti ollut potilaan oman luukudossiirteen käyttö. Menetelmän ongelmana on siirteen luovutuskohdan vaurio ja kipu sekä paranemiseen liittyvät ongelmat. Erityisesti lapsipotilailla on haasteena riittävän siirreluumäärän rajoitettu saatavuus. Tästä syystä on pyritty kehittämään korvaavia materiaaleja, jotta vältettäisiin suuriin luusiirteisiin liittyviä ongelmia. Autologiset kantasolut ovat osoittautuneet lupaaviksi kehitettäessä luuta korvaavia hoitomuotoja kallon luupuutosten hoitoon. Tämän tutkimuksen päätavoitteena oli tutkia kokeellisen eläinmallin avulla laajojen, kallokirurgiassa aiheutuvia luupuutoksia vastaavien vaurioalueiden paranemista. Tutkimuksessa testattiin erityyppisiä autogeenisiä luusiirteitä ja rasvakudos- tai luuydinperäisiä kantasoluja, joita kasvatettiin kahden biomateriaalin, trikalsiumfosfaatin ja bioaktiivisen lasin pinnoilla. Tutkimuksessa selvitettiin myös fibriinikudosliiman vaikutusta omakudosluusiirteen paranemiseen. Kudoskasvutekijäproteiinien BMP-2, BMP-7 ja VEGF stimuloivaa vaikutusta kudossiirteiden toimintaan ja luutumiseen selvitettiin myös. Tämän tutkimuksen tulokset tukevat aiemmin raportoituja havaintoja autologisen luusiirrännäisen käyttöön liittyvästä nopeasta resorptiosta. Erityisesti fibriinikudosliiman käytön yhdessä autologisten pienipartikkelisten luusiirteiden kanssa havaittiin heikentävän uuden luun muodostumista kallon luupuutoksissa. Kallon luupuutosten alkuvaiheen paranemisessa rakeinen trikalsiumfosfaatti osoittautui tehokkaammaksi kuin kiinteä säikeinen bioaktiivinen lasi. Samoin rasvakudosperäisten kantasolujen yhdistäminen trikalsiumfosfaattiin lisäsi merkittävästi luun muodostumista verrattuna samaan yhdistelmään bioaktiivisen lasin kanssa. Luuydinperäisiä kantasoluja yhdistettäessä vastaavaa ei voitu tässä tutkimuksessa todeta. Tutkimuksessa kasvutekijöiden käytöllä ei havaittu olevan positiivista vaikutusta kallonluiden paranemiseen.

bioactive glass

bone healing

cranial defect

growth factor

stem cells

tricalcium phosphate

bioaktiivinen lasi

kalloluuvaurio

kantasolu

kasvutekijä

luun paraneminen

trikalsiumfosfaatti

The effect of filler on the mechanical properties of a novel resin-based calcium phosphate cement

Al Dehailan, Laila

January 2010

Indiana University-Purdue University Indianapolis (IUPUI) / Several studies have found that resin-based amorphous calcium phosphate (ACP) composites can function well for applications that do not require high mechanical demand. Milled tricalcium phosphate (TCP), a new calcium-phosphate-releasing material, is crystalline in nature, suggesting it to be strong. In the present study, we investigated the use of a TCP-filled composite resin as a possible tooth restorative-material. An experimental TCP-based composite was prepared using monomer with a mixture of 34.3 percent by mass of EBPADMA, 34.2 percent by mass of HmDMA, and 30.5 percent by mass of HEMA. TCP fillers were added to the monomer mixture at different levels (30 percent, 40 percent, 50 percent, and 60 percent by weight). A universal testing machine (Sintech Renew 1121; Instron Engineering Corp., Canton, MA) was used to measure the compressive strength and modulus. FTIR was used to measure the degree of conversion. The depth of cure was determined according to the ISO standards for dental resin 4049 using the scrapping technique. Knoop hardness numbers were obtained by a microhardness tester (M-400; Leco Co., St. Joseph, MI). The viscosities of the experimental resin were determined in a viscometer (DV-II+ Viscometer; Brookfield, Middleboro, MA). The data were analyzed using a one-way analysis of variance (ANOVA). A 5-percent significance level was used for all the tests. Resin composites with 30-percent TCP filler showed the highest compressive strength and hardness values. Also, this group showed the lowest degree of conversion. Resin composites with 60-percent TCP filler showed the highest degree of conversion. However, this group showed the lowest compressive strength, depth of cure, and hardness. Resin composites with 50-percent filler showed the highest compressive modulus. Resin composites with 40-percent filler showed higher viscosity values than resin composites with 30-percent filler. In conclusion, increasing the filler level significantly reduced the compressive strength, hardness, and depth of cure, but increased the degree of conversion. Also, resin composites with the lowest filler level (30 percent) had the highest compressive strength, depth of cure, and hardness. From these results, it can be concluded that the experimental TCP-filled resin used in this study cannot be used as restorative material.

composite resin

tricalcium phosphate

mechanical properties

Mechanical Phenomena

Resin Cements -- chemistry

Calcium Phosphates -- chemistry

Dental Materials -- chemistry

O efeito do cimento composto de sulfato de cálcio e beta fosfato tricálcico com controle de potencial zeta sobre o reparo de defeitos ósseos críticos em calvária de ratos / The effect of calcium sulfate and beta-tricalcium phosphate composite with zeta potential control on the healing process of bone critical defects in rats

Daniel Falbo Martins de Souza

02 July 2015

Nos defeitos bucomaxilofaciais, a intervenção cirúrgica utilizando enxertos ou substi-tutos ósseos é indicada para reestabelecer a forma e a função perdidas. Nesse con-texto, enxertos auto?genos e alo?genos te?m sido substituídos por biomateriais osteo-condutores e reabsorvíveis. O objetivo deste trabalho foi avaliar por meio de micro-tomografia e dos aspectos histológicos do reparo ósseo, se um novo cimento bifási-co composto por sulfato de cálcio e beta fosfato tricálcico com controle de potencial zeta, poderia induzir ou conduzir a neoformação óssea em defeitos críticos, produzi-dos em calvárias de ratos. Foi realizado um defeito crítico de 8mm de diâmetro na calvária de 40 ratos Wistar machos. No grupo teste (n=20) os defeitos foram preen-chidos pelo cimento. No grupo controle (n=20) os defeitos não foram preenchidos e permaneceram apenas com o coágulo. Os animais sofreram eutanásia em 7, 14, 21 e 42 dias do pós operatório. Espécimes da região da ferida foram microtomografa-dos e posteriormente as amostras foram preparadas para análise histológica. A aná-lise histomorfológica incluiu a avaliação morfológica da histopatologia do reparo, a avaliação morfométrica da área de formação das trabéculas ósseas comparativa-mente entre os grupos. Realizamos ainda a coloração com fosfatase tartrato-resistente (TRAP) para identificação de osteoclastos. Os resultados mostraram que os defeitos preenchidos pelo cimento não apresentaram diminuição significativa da área de acordo com a progressão dos períodos pós-operatórios, pelo contrário, em alguns animais, o defeito aparentemente aumentou. A histomorfologia do reparo mostrou agrupamentos mais expressivos de células gigantes no grupo teste suge-rindo resposta a corpo estranho e osso neoformado mais maduro no grupo controle No grupo teste houve permanência do material e resposta corpo estranho até os úl-timos períodos de observação. Na histomorfometria, a área total de neoformação óssea na região da ferida foi significativamente maior e crescente com o passar do tempo experimental no grupo controle do que no grupo teste. As células gigantes apresentaram expressão histoquímica positiva para TRAP e não foram identificados osteoclastos. Concluímos que neste modelo de estudo, o cimento cerâmico não in-duziu ou conduziu a neoformação óssea de defeitos ósseos críticos criados em cal-vária de ratos sob o ponto de vista microtomográfico e histológico. / Surgical intervention employing grafts and bone substitutes is the best choice in oral and maxillofacial bone defects reconstruction for structural and functional lost. Re-garding this, autogenous and alogenous grafts have been used as osteocondutive and resorbable biomaterials. The aim of this study was to evaluate if a new bone bi-phasic composite of calcium sulfate and beta tricalcium phosphate with zeta potential control could induce or conduct bone formation in rats\' calvarias critical defects mod-el. Forty male Wistar rats underwent 8mm diameter calvaria perforation under gen-eral anesthesia. Animals were randomly allocated to group test (n=20), when the de-fects were filled with the biphasic phosphate and group control (n=20) when the wound was left just with blood clot. Animals underwent euthanasia 7, 14, 21 and 42 days after surgery. Bone calvaria specimens underwent microtomography and histo-logical processing for analysis. Histomorphological and histomorphometry were per-formed regarding aspects of bone healing evolution and new bone total area within the defect. Additionally, histological samples were tartrate-resistant phosphatase (TRAP) stained for osteoclasts identification. The results showed that defects filled by the composite did not present significant bone formation considering postoperative evolution, on the contrary it seemed that the defect area increased in some animals. The bone repair histomorphology in test-group showed expressive giant cells nests involving the ceramic material suggesting foreign body reaction. A mature bone tis-sue neoformation was significantly more intense in the control-group. In the test-group the permanence of the exogenous material caused the sustained foreign body reaction until the last observational periods. Histomorphometric analysis showed that in control-group the total area of bone formation was significantly greater and pro-gressive along the experiment than the test-group. Osteoclasts were not identified but the giant cells presented positive reaction to TRAP. It was possible to conclude that the biphasic ceramic with zeta potential control was not capable to induce or conduct bone neoformation in critical defects created in rats\' calvaria.

Cimento Beta Fosfato Tricálcico

Potencial Zeta

Ratos Wistar

Regeneração óssea

Beta Tricalcium Phosphate Cement

Bone Repair

Wistar rat

Zeta Poten-tial

O efeito do cimento composto de sulfato de cálcio e beta fosfato tricálcico com controle de potencial zeta sobre o reparo de defeitos ósseos críticos em calvária de ratos / The effect of calcium sulfate and beta-tricalcium phosphate composite with zeta potential control on the healing process of bone critical defects in rats

Souza, Daniel Falbo Martins de

02 July 2015

Nos defeitos bucomaxilofaciais, a intervenção cirúrgica utilizando enxertos ou substi-tutos ósseos é indicada para reestabelecer a forma e a função perdidas. Nesse con-texto, enxertos auto?genos e alo?genos te?m sido substituídos por biomateriais osteo-condutores e reabsorvíveis. O objetivo deste trabalho foi avaliar por meio de micro-tomografia e dos aspectos histológicos do reparo ósseo, se um novo cimento bifási-co composto por sulfato de cálcio e beta fosfato tricálcico com controle de potencial zeta, poderia induzir ou conduzir a neoformação óssea em defeitos críticos, produzi-dos em calvárias de ratos. Foi realizado um defeito crítico de 8mm de diâmetro na calvária de 40 ratos Wistar machos. No grupo teste (n=20) os defeitos foram preen-chidos pelo cimento. No grupo controle (n=20) os defeitos não foram preenchidos e permaneceram apenas com o coágulo. Os animais sofreram eutanásia em 7, 14, 21 e 42 dias do pós operatório. Espécimes da região da ferida foram microtomografa-dos e posteriormente as amostras foram preparadas para análise histológica. A aná-lise histomorfológica incluiu a avaliação morfológica da histopatologia do reparo, a avaliação morfométrica da área de formação das trabéculas ósseas comparativa-mente entre os grupos. Realizamos ainda a coloração com fosfatase tartrato-resistente (TRAP) para identificação de osteoclastos. Os resultados mostraram que os defeitos preenchidos pelo cimento não apresentaram diminuição significativa da área de acordo com a progressão dos períodos pós-operatórios, pelo contrário, em alguns animais, o defeito aparentemente aumentou. A histomorfologia do reparo mostrou agrupamentos mais expressivos de células gigantes no grupo teste suge-rindo resposta a corpo estranho e osso neoformado mais maduro no grupo controle No grupo teste houve permanência do material e resposta corpo estranho até os úl-timos períodos de observação. Na histomorfometria, a área total de neoformação óssea na região da ferida foi significativamente maior e crescente com o passar do tempo experimental no grupo controle do que no grupo teste. As células gigantes apresentaram expressão histoquímica positiva para TRAP e não foram identificados osteoclastos. Concluímos que neste modelo de estudo, o cimento cerâmico não in-duziu ou conduziu a neoformação óssea de defeitos ósseos críticos criados em cal-vária de ratos sob o ponto de vista microtomográfico e histológico. / Surgical intervention employing grafts and bone substitutes is the best choice in oral and maxillofacial bone defects reconstruction for structural and functional lost. Re-garding this, autogenous and alogenous grafts have been used as osteocondutive and resorbable biomaterials. The aim of this study was to evaluate if a new bone bi-phasic composite of calcium sulfate and beta tricalcium phosphate with zeta potential control could induce or conduct bone formation in rats\' calvarias critical defects mod-el. Forty male Wistar rats underwent 8mm diameter calvaria perforation under gen-eral anesthesia. Animals were randomly allocated to group test (n=20), when the de-fects were filled with the biphasic phosphate and group control (n=20) when the wound was left just with blood clot. Animals underwent euthanasia 7, 14, 21 and 42 days after surgery. Bone calvaria specimens underwent microtomography and histo-logical processing for analysis. Histomorphological and histomorphometry were per-formed regarding aspects of bone healing evolution and new bone total area within the defect. Additionally, histological samples were tartrate-resistant phosphatase (TRAP) stained for osteoclasts identification. The results showed that defects filled by the composite did not present significant bone formation considering postoperative evolution, on the contrary it seemed that the defect area increased in some animals. The bone repair histomorphology in test-group showed expressive giant cells nests involving the ceramic material suggesting foreign body reaction. A mature bone tis-sue neoformation was significantly more intense in the control-group. In the test-group the permanence of the exogenous material caused the sustained foreign body reaction until the last observational periods. Histomorphometric analysis showed that in control-group the total area of bone formation was significantly greater and pro-gressive along the experiment than the test-group. Osteoclasts were not identified but the giant cells presented positive reaction to TRAP. It was possible to conclude that the biphasic ceramic with zeta potential control was not capable to induce or conduct bone neoformation in critical defects created in rats\' calvaria.

Beta Tricalcium Phosphate Cement

Bone Repair

Cimento Beta Fosfato Tricálcico

Potencial Zeta

Ratos Wistar

Regeneração óssea

Wistar rat

Zeta Poten-tial

Investigations On The Properties And Drug Releases Of Biodegradable Polymer Coatings On Metal Substrates As Drug Carriers

Baydemir, Tuncay

01 September 2009

The use of various biodegradable polymers for the improvement of different controlled and long-lasting drug release systems is an active research area in recent years. The application of different metal prostheses, especially titanium based ones, to the human body is also very common. A most important disadvantage of these prostheses is the risk of infection at the application areas that necessitates the removing of the prosthesis with a second surgical operation and reapplication of it after recovery. One of the best ways to solve this problem is to render metal prostheses infection free with controlled and sustainable drug (antibiotic) release systems. The long term sustained release of relevant antibiotics from the various biodegradable polymer coated metal implants is studied in this thesis. Virtual fatigue analysis and drug loading capacities of titanium and stainless steel samples with different surface pattern and modifications were studied. Various biodegradable polymer and drug combinations were examined and used for coating of metal prosthesis. The aim is to design polymer-drug coated metal implants that are capable of releasing a feasible amount of drug up to a period of at least 1 month. Various coating techniques and surface modifications were also employed to improve the adhesional properties of the drug containing polymers. Their adhesion abilities on the metal substrates were tested by Lap-shear and T-peel tests. Polymer degradation kinetics was followed by viscosity studies. Calibration lines for different drugs were obtained and drug releases on different systems were followed by using UV spectroscopy and microbial antibiotic sensitivity tests. Among the techniques applied to prevent fast release of drugs initially, the coatings of Vancomycin absorbed &amp / #946 / -TCP (&amp / #946 / -tricalcium phosphate) homogeneously distributed in poly(D,L-lactide-co-glycolide) solution in chloroform followed by an inert coating with poly(L-lactide) system proved to be feasible. By this technique, initial burst release was minimized and drug release from implants lasted nearly 2 months. Multiple coatings on polymer plus drug coating layer also gave promising results. In vivo studies on dorsal muscles of native rabbits with antibiotic loaded implants gave no negative effect on the surrounding tissues with high compatibility free of infection.

QD Polymers, Macromolecules 380-388

#946

Obtenção e caracterização de α-fosfato tricálcico por síntese de combustão e aplicação em cimentos ósseos e arcabouços de criogéis

Volkmer, Tiago Moreno

January 2011

Os cimentos de fosfato de cálcio apresentam uma série de vantagens de utilização em ortopedia e traumatologia, sendo as mais destacadas a sua biocompatibilidade e bioatividade, as quais permitem a osteocondução dos tecidos ósseos e o endurecimento “in situ”, permitindo maior facilidade de manipulação. Entretanto; através dos métodos convencionais de reação no estado sólido há uma grande dificuldade em se obter a fase α- fosfato tricálcico pura. Com o desenvolvimento deste trabalho foi possível sintetizar a fase α-fosfato tricálcico nanoestruturado com elevado grau de pureza, utilizando-se o método de síntese de combustão em solução. Após os estudos da influência do pH, da natureza do combustível (uréia ou glicina) e dos teores estequiométricos de combustível (0,75; 1,0; 1,5 e 2,0) foi possível definir os melhores parâmetros de síntese (pH 1,5 e combustível uréia em teor duas vezes maior do que o estequiométrico). Com a definição dos parâmetros ótimos de reação, estudou-se a viabilidade de sua utilização como cimento de fosfato de cálcio. Nesta etapa verificou-se a influência do tamanho de partícula através do tempo de moagem. Para tempo de moagem de 180 minutos foram obtidos valores de resistência mecânica à compressão de até 30,4 MPa. Porém após a imersão em solução de plasma sanguineo simulado (SBF) em tempos crescentes de até 28 dias, ocorreu a diminuição desta propriedade o que é indicativo da alta solubilidade dos pós de α-fosfato tricálcico obtidos via síntese de combustão em solução. O ensaio de citotoxicidade In Vitro demonstrou que o CFC sintetizado neste trabalho não apresentou efeito tóxico para as células. Na sequência do trabalho, investigou-se a viabilidade da aplicação do CFC como substituto ósseo e como carga cerâmica em criogéis poliméricos para utilização em engenharia de tecidos. Inicialmente utilizou-se o sistema dimetilaminoetil metacrilato (DMAEMA) com a adição de 5% de um ácido acrílico (ácido acrílico ou ácido metacrílico), porém tal sistema se mostrou muito instável e apresentou baixa reprodutibilidade. Dessa forma, substituiu-se o ácido acrílico pelo monômero hidroxietil metacrilato (HEMA), pelo fato de o último possuir maior estabilidade química e melhores propriedades mecânicas. Com o uso deste sistema foram obtidos arcabouços porosos através do método de criopolimerização com porosidade de até 75% e poros de até 1 milímetro de diâmetro. A adição de α-fosfato tricálcico às estruturas porosas pouco influenciou nas propriedades físicas da rede polimérica e nas propriedades mecânicas dos arcabouços porosos, porém aumentou significativamente a biocompatibilidade destes, permitindo a adesão e a proliferação de células tronco mesenquimais. A presença de colágeno do tipo I e de fosfatase alcalina são bons indicativos de que as células tronco mesenquimais estão se diferenciando em tecido ósseo e demonstram o potencial destes materiais para o seu uso como biomaterial e mais especificamente como substitutos ósseos. / The calcium phosphate cements have a large number of advantages regarding its use in orthopedics and traumatology, being the most prominent its biocompatibility and bioactivity, which allows the osteoconductive of bone tissue and in situ hardening, allowing greater ease of handling. However, the use of conventionals synthesis methods, e.g. solid state reactions, brings great difficulty to the obtainment of highly pure α- tricalcium phosphate phase. In this thesis, the use of the solution combustion synthesis method allowed to synthesize nanostructured α-tricalcium phosphate with high purity. Further studies on pHs influence, fuel natures (urea or glycine) and fuel ratio (0.75, 1.0, 1.5 and 2.0) allowed to define the best synthesis parameters (pH 1.5 and urea fuel content in two times higher than the stoichiometric). After choosing the best paramaters to the obtainment of higly pure α-tricalcium phosphate, we studied the feasibility of their use as calcium phosphate cement (CFC) by studing the influence of particle size by increasing the milling time from 30 to 180 minutes. The better results were found for the milling time of 180 minutes. Compressives strength of up to 30.4 Mpa were obtained for this formulation. However, after soaking the calcium phosphate cements in simulated blood plasma (SBF) in growing times up to 28 days, a decrease in the compressive strenght was noticed, which is an indicative of the high solubility of the α-tricalcium phosphate powders obtained by solution combustion synthesis. After the obtainment of the calcium phosphate cements, its application as bone substitute and as ceramic load in polymeric cryogels for use in tissue engineering were studied. Initially, the system dimethylaminoethyl methacrylate (DMAEMA) with 5% of an acrylic acid (acrylic acid or methacrylic acid) was used, but due its great instability and lack of reproductbility this system was abandoned. Since it has greater chemical stability and good mechanical properties, the monomer hydroxyethyl methacrylate (HEMA) was chosen as pair to the DMAEMA monomer. With the use of this polymeric system, porous scaffolds with porosity of up to 75% and pores up to 1 mm in diameter were obtained by the method of cryopolymerization. The addition of α-tricalcium phosphate to the porous scaffolds did not showed a significant influence on physical properties of the polymer network nether on mechanical properties of porous structures. However, it increased significantly the biocompatibility of the scaffolds, allowing the adhesion and proliferation of mesenchymal stem cells. The presence of type I collagen and alkaline phosphatase are good indicators that mesenchymal stem cells are differentiating into bone tissue and demonstrate the potential application of these materials as biomaterials, more specifically as bone substitutes.

Cimento de fosfato tricálcico

Sinterização

Combustão em solução

Células-tronco mesenquimais

Hidrogéis

Calcium phosphate cements

α-Tricalcium phosphate

Solution combustion synthesis

Cryopolymerization

Mesenchimal stem cells