A Multiscale in Silico Study to Characterize the Atrial Electrical Activity of Patients With Atrial Fibrillation. A Translational Study to Guide Ablation Therapy

Sánchez Arciniegas, Jorge Patricio

26 July 2021

[ES] La fibrilación auricular es la arritmia cardíaca más común. Durante la fibrilación auricular, el sustrato auricular sufre una serie de cambios o remodelados a nivel eléctrico y estructural. La remodelación eléctrica se caracteriza por la alteración de una serie de canales iónicos, lo que cambia la morfología del potential de transmembrana conocido como potencial de acción. La remodelación estructural es un proceso complejo que involucra la interacción de varios procesos de señalización, interacción celular y cambios en la matriz extracelular. Durante la remodelación estructural, los fibroblastos que abundan en el tejido cardíaco, comienzan a diferenciarse en miofibroblastos que son los encargados de mantener la estructura de la matriz extracelular depositando colágeno. Además, la señalización paracrina de los miofibroblastos afecta a los canales iónicos de los miocitos circundantes. Se utilizaron modelos computacionales muy detallados a diferentes escalas para estudiar la remodelación estructural inducida a nivel celular y tisular. Se realizó una adaptación de un modelo de fibroblastos humanos a nivel celular para reproducir la electrofisiología de los miofibroblastos durante la fibrilación auricular. Además, se evaluó la exploración de la interacción del calcio en la electrofisiología de los miofibroblastos ajustando el canal de calcio a los datos experimentales. A nivel tisular, se estudió la infiltración de miofibroblastos para cuantificar el aumento de vulnerabilidad a una arritmia cardíaca. Los miofibroblastos cambian la dinámica de la reentrada. Una baja densidad de miofibroblastos permite la propagación a través del área fibrótica y crea puntos de salida de actividad focal y roturas de ondas dentro de esta área. Además, las composiciones de fibrosis juegan un papel clave en la alteración del patrón de propagación. La alteración del patrón de propagación afecta a los electrogramas recogidos en la superficie del tejido. La morfología del electrograma se alteró dependiendo de la disposición y composición del tejido fibrótico. Se combinaron modelos detallados de tejido cardíaco con modelos realistas de los catéteres de mapeo disponibles comercialmente para comprender las señales registradas clínicamente. Se generó un modelo de ruido a partir de señales clínicas para reproducir los artefactos de señal en el modelo. Se utilizaron electrogramas de modelos de dos dominios altamente detallados para entrenar un algoritmo de aprendizaje automático para caracterizar el sustrato fibrótico auricular. Las características que cuantifican la complejidad de las señales fueron extraídas para identificar la densidad fibrótica y la transmuralidad fibrótica. Posteriormente, se generaron mapas de fibrosis utilizando el registro del paciente como prueba de concepto. El mapa de fibrosis proporciona información sobre el sustrato fibrótico sin utilizar un valor único de corte de 0,5 milivoltios. Además, utilizando la medición del flujo de información como la entropía de transferencia combinada con gráficos dirigidos, en este estudio, se siguió la dirección de propagación del frente de onda. La transferencia de entropía con gráficos dirigidos proporciona información crucial durante la electrofisiología para comprender la dinámica de propagación de ondas durante la fibrilación auricular. En conclusión, esta tesis presenta un estudio in silico multiescala que proporciona información sobre los mediadores celulares responsables de la remodelación de la matriz extracelular y su electrofisiología. Además, proporciona una configuración realista para crear datos in silico que pueden ser usados para aplicaciones clínicas y servir de soporte al tratamiento de ablación. / [CA] La fibril·lació auricular és l'arrítmia cardíaca més freqüent, en la qual el substrat auricular patix una sèrie de remodelacions elèctriques i estructurals. La remodelació de tipus elèctric es caracteritza per l'alteració d'un conjunt de canals iònics que modifica la morfologia del voltatge transmembrana, conegut com a potencial d'acció. La remodelació estructural és un fenomen complex que implica la relació entre diversos processos de senyalització, interaccions cel·lulars i canvis en la matriu extracel·lular. Durant la remodelació estructural, els abundants fibroblasts presents en el teixit cardíac comencen a diferenciar-se en miofibroblasts, els quals s'encarreguen de mantenir l'estructura de la matriu extracel·lular dipositant-hi col·lagen. A més, la senyalització paracrina dels miofibroblasts amb els miòcits circumdants també afectarà els canals iònics. Es van utilitzar models computacionals molt detallats a diferents escales per estudiar la remodelació estructural induïda a nivell tissular i cel·lular. Es va fer una adaptació a nivell cel·lular d'un model de fibroblasts humans per reproduir-hi l'electrofisiologia dels miofibroblasts durant la fibril·lació auricular. A més, l'exploració de la interacció del calci amb l'electrofisiologia dels miofibroblasts va ser avaluada mitjançant l'adequació del canal de calci a les dades experimentals. A nivell tissular es va estudiar la infiltració de miofibroblasts per tal de quantificar l'augment de vulnerabilitat que això conferia per patir una arrítmia cardíaca. Els miofibroblasts canvien la dinàmica de la reentrada, i presentar-ne una baixa densitat permet la propagació a través de la zona fibròtica, tot creant punts de sortida d'activitat focal i trencaments d'ones dins d'aquesta àrea. A més, les composicions de fibrosi tenen un paper clau en l'alteració del patró de propagació, afectant els electrogrames recollits en la superfície del teixit. La morfologia dels electrogrames es va veure alterada en funció de la disposició i la composició del teixit fibròtic. Per comprendre els senyals clínicament registrats es van combinar models detallats de teixits cardíacs amb models realistes dels catèters de cartografia disponibles comercialment. Es va generar un model de soroll a partir de senyals clínics per reproduir-hi els artefactes de senyal. Es van utilitzar electrogrames de models de bidominis molt detallats per entrenar un algoritme d'aprenentatge automàtic destinat a caracteritzar el substrat fibròtic auricular. Les característiques que quantifiquen la complexitat dels senyals van ser extretes per identificar la densitat i transmuralitat fibròtica. Posteriorment, es van generar mapes de fibrosi mitjançant la gravació del pacient com a prova de concepte. El mapa de fibrosi proporciona informació sobre el substrat fibròtic sense utilitzar un sol valor de tensió de tall de 0,5 mV. A més, utilitzant la mesura del flux d'informació com l'entropia de transferència combinada amb gràfics dirigits, en aquest estudi es va fer un seguiment de la direcció de propagació de l'ona. L'entropia de transferència amb gràfics dirigits proporciona informació crucial durant l'electrofisiologia per entendre la dinàmica de propagació d'ones durant la fibril·lació auricular. En conclusió, aquesta tesi presenta un estudi multi-escala in silico que proporciona informació sobre els mediadors cel·lulars responsables de la remodelació de la matriu extracel·lular i la seva electrofisiologia. A més, proporciona una configuració realista per crear dades in silico que es poden traduir a aplicacions clíniques que puguen donar suport al tractament de l'ablació. / [EN] Atrial fibrillation is the most common cardiac arrhythmia. During atrial fibrillation, the atrial substrate undergoes a series of electrical and structural remodeling. The electrical remodeling is characterized by the alteration of specific ionic channels, which changes the morphology of the transmembrane voltage known as action potential. Structural remodeling is a complex process involving the interaction of several signalling pathways, cellular interaction, and changes in the extracellular matrix. During structural remodeling, fibroblasts, abundant in the cardiac tissue, start to differentiate into myofibroblasts, which are responsible for maintaining the extracellular matrix structure by depositing collagen. Additionally, myofibroblasts paracrine signalling with surrounding myocytes will also affect ionic channels. Highly detailed computational models at different scales were used to study the effect of structural remodeling induced at the cellular and tissue levels.At the cellular level, a human fibroblast model was adapted to reproduce the myofibroblast electrophsyiology during atrial fibrillation. Additionally, the calcium handling in myofibroblast electrophysiology was assessed by fitting calcium ion channel to experimental data. At the tissue level, myofibroblasts infiltration was studied to quantify the increase of vulnerability to cardiac arrhythmia. Myofibroblasts alter the dynamics of reentry. A low density of myofibroblasts allows the propagation through the fibrotic area and creates focal activity exit points and wave breaks inside this area. Moreover, fibrosis composition plays a key role in the alteration of the propagation pattern. The alteration of the propagation pattern affects the electrograms computed at the surface of the tissue. Electrogram morphology was altered depending on the arrangement and composition of the fibrotic tissue. Detailed cardiac tissue models were combined with realistic models of the commercially available mapping catheters to understand the clinically recorded signals. A noise model from clinical signals was generated to reproduce the signal artifacts in the model. Electrograms from highly detailed bidomain models were used to train a machine learning algorithm to characterize the atrial fibrotic substrate. Features that quantify the complexity of the signals were extracted to identify fibrotic density and fibrotic transmurality. Subsequently, fibrosis maps were generated using patient recordings as a proof of concept. Fibrosis map provides information about the fibrotic substrate without using a single cut-off voltage value of 0.5 mV. Furthermore, in this study, using information theory measurements such as transfer entropy combined with directed graphs, the wave propagation direction was tracked. Transfer entropy with directed graphs provides crucial information during electrophysiology to understand wave propagation dynamics during atrial fibrillation. In conclusion, this thesis presents a multiscale in silico study atrial fibrillation mechanisms providing insight into the cellular mediators responsible for the extracellular matrix remodeling and its electrophysiology. Additionally, it provides a realistic setup to create in silico data that can be translated to clinical applications that could support ablation treatment. / Sánchez Arciniegas, JP. (2021). A Multiscale in Silico Study to Characterize the Atrial Electrical Activity of Patients With Atrial Fibrillation. A Translational Study to Guide Ablation Therapy [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/171456 / TESIS

Two-domain model

Artificial intelligence

Computational models

Myofibroblast

Atrial fibrillation (AF)

Fibrilación auricular

Miofibroblasto

Modelos computacionales

Inteligencia artificial

Modelo bidominio

Fibrosis

TECNOLOGIA ELECTRONICA

Estudo imuno-histoqu?mico da presen?a de miofibroblastos e da express?o do fator transformador de crescimento-beta1, interferon gama, metaloproteinase de matriz 13 e indutor de metaloproteinases de matriz em les?es odontog?nicas epiteliais

Santos, Pedro Paulo de Andrade

28 February 2012

Made available in DSpace on 2015-03-03T15:38:43Z (GMT). No. of bitstreams: 1 PedroPAS_TESE_1-70.pdf: 4719637 bytes, checksum: 8f16cb0e2326a80cfc947b1ea2b89641 (MD5) Previous issue date: 2012-02-28 / Coordena??o de Aperfei?oamento de Pessoal de N?vel Superior / Myofibroblasts are cells that exhibit a hybrid phenotype, sharing the morphological characteristics of fibroblasts and smooth muscle cells, which is acquired during a process called differentiation. These cells then start to express -SMA, a marker that can be used for their identification. Studies suggest that myofibroblasts are related to the aggressiveness of different tumors and that TGF-1 and IFN- play a role in myofibroblast differentiation, stimulating or inhibiting this differentiation, respectively. The objective of this study was to investigate the role of myofibroblasts in epithelial odontogenic tumors, correlating the presence of these cells with the aggressiveness of the tumor. Immunohistochemistry was used to evaluate the expression of TGF-1 and IFN- in myofibroblast differentiation, as well as the expression of MMP-13, which is activated by myofibroblasts, and of EMMPRIN (extracellular matrix metalloproteinase inducer) as a precursor of this MMP. The sample consisted of 20 solid ameloblastomas, 10 unicystic ameloblastomas, 20 odontogenic keratocysts, and 20 adenomatoid odontogenic tumors. For evaluation of myofibroblasts, anti- -SMA-immunoreactive cells were quantified in connective tissue close to the epithelium. Immunoexpression of TGF-1, IFN-, MMP-13 and EMMPRIN was evaluated in the epithelial and connective tissue components, attributing scores of 0 to 4. The results showed a higher concentration of myofibroblasts in solid ameloblastomas (mean of 30.55), followed by odontogenic keratocysts (22.50), unicystic ameloblastomas (20.80), and adenomatoid odontogenic tumors (19.15) (p=0.001). No significant correlation between TGF-1 and IFN- was observed during the process of myofibroblast differentiation. There was also no correlation between the quantity of myofibroblasts and MMP-13 expression. Significant correlations were found between MMP-13 and TGF-1 (r=0.087; p=0.011), between MMP- 13 and IFN- (r=0.348; p=0.003), as well as between EMMPRIN and MMP-13 (r=0.474; p<0.001) and between EMMPRIN and IFN- (r=0.393; p=0.001). The higher quantity of myofibroblasts observed in solid ameloblastomas, odontogenic keratocysts and unicystic ameloblastomas suggests that these cells are one of the factors responsible for the more aggressive biological behavior of these tumors, although the myofibroblast population was not correlated with TGF-1, IFN-, MMP-13 or EMMPRIN. The correlation between MMP- 13 and TGF-1 suggests that the latter induces the expression of this metalloproteinase. The present results also support the well-established role of EMMPRIN as an inducer of MMP-13. Furthermore, the relationship between EMMPRIN and IFN- and between MMP-13 and IFN- suggests synergism in the antifibrotic effect of these markers / Os miofibroblastos s?o c?lulas que apresentam um fen?tipo h?brido exibindo caracter?sticas morfol?gicas de fibroblastos e de c?lulas musculares lisas, sendo a aquisi??o de tal fen?tipo denominada diferencia??o, passando ent?o a expressar a -SMA, a qual ? importante na identifica??o dessas c?lulas. Estudos t?m sugerido que os miofibroblastos apresentam rela??o com a agressividade de diversas les?es e que o seu processo de diferencia??o estaria relacionado ? express?o do TGF- 1 e do IFN- atuando, respectivamente, no est?mulo e na inibi??o dessa diferencia??o. O objetivo deste trabalho foi investigar o papel dos miofibroblastos em les?es odontog?nicas epiteliais, relacionando-os ? agressividade das les?es e analisar por meio da imuno-histoqu?mica, a express?o do TGF- 1 e IFN- no processo de diferencia??o, al?m da an?lise da MMP-13 que ? ativada por miofibroblastos e do indutor de metaloproteinases de matriz (EMMPRIN) como precursor desta MMP. A amostra foi constitu?da por 20 ameloblastomas s?lidos, 10 ameloblastomas unic?sticos, 20 ceratocistos odontog?nicos e 20 tumores odontog?nicos adenomat?ides. Para a avalia??o dos miofibroblastos, foram quantificadas as c?lulas imunorreativas ao anticorpo - SMA presentes no tecido conjuntivo, pr?ximo ao tecido epitelial. As express?es de TGF- 1, IFN- , MMP-13 e EMMPRIN, foram avaliadas no componente epitelial e no conjuntivo, estabelecendo-se o percentual de imunorreatividade e atribuindo-se escores de 0 a 4. A an?lise dos miofibroblastos evidenciou maior concentra??o nos ameloblastomas s?lidos (m?dia de 30,55), seguido pelos ceratocistos odontog?nicos (22,50), ameloblastomas unic?sticos (20,80) e tumores odontog?nicos adenomat?ides (19,15) com valor de p= 0,001. N?o foi encontrada correla??o significativa entre TGF- 1 e IFN- no processo de diferencia??o dos miofibroblastos, bem como na rela??o entre a quantidade de miofibroblastos e a express?o da MMP-13. Constatou-se, correla??o estat?stica entre MMP-13 e TGF- 1 (r= 0,087; p= 0,011) al?m de significante correla??o entre MMP-13 e IFN- (r=0,348; p=0,003). Entre EMMPRIN e MMP-13 verificou-se signific?ncia (r= 0,474; p<0,001) assim como entre EMMPRIN e IFN- (r=0,393; p=0,001). A maior quantidade de miofibroblastos evidenciada nos ameloblastomas s?lidos, ceratocistos odontog?nicos e ameloblastomas unic?sticos sugere que estas c?lulas podem ser um dos fatores respons?veis para um comportamento biol?gico mais agressivo destas les?es, embora a popula??o de miofibroblastos n?o tenha apresentado correla??o com TGF- - 1, IFN- ,MMP-13 e EMMPRIN. Quanto a correla??o evidenciada entre MMP-13 e TGF- 1, isto pode sugerir um papel indutor do TGF- 1 para a express?o da MMP-13, assim como os resultados deste estudo refor?am a rela??o bem estabelecida do EMMPRIN como indutor da MMP-13. Constatou-se tamb?m rela??o entre EMMPRIN e IFN- assim como entre MMP-13 e IFN- sugerindo, dessa forma, um sinergismo na a??o anti-fibr?tica desses marcadores

Ceratocisto odontog?nico

Miofibroblasto

TGF-1

IFN-

MMP-13

EMMPRIN

imuno-histoqu?mica

Ameloblastoma

Adenomatoid odontogenic tumor

Odontogenic keratocyst

Myofibroblasts

TGF-1

IFN-

MMP-13

EMMPRIN

Immunohistochemistry

CNPQ::CIENCIAS DA SAUDE::ODONTOLOGIA

Estudo da expressão da <font face=\"symbol\">a-actina de músculo liso em cultura de células de polpas dentárias e gengivas humanas tratadas com o fator de transformação de crescimento <font face=\"symbol\">b1(TGF-<font face=\"symbol\">b1). / Expression of <font face=\"symbol\">a-smooth muscle actin in cultured human dental pulp and gingival fibroblasts induced by transforming growth factor-<font face=\"symbol\">b1 (TGF-<font face=\"symbol\">b1).

Martinez, Elizabeth Ferreira

12 June 2008

Durante o processo de reparação tecidual, o fator de transformação de crescimento <font face=\"symbol\">b1 (TGF-<font face=\"symbol\">b1) apresenta um importante papel na regulação da expressão da <font face=\"symbol\">a-actina de músculo liso (<font face=\"symbol\">a-AML) e portanto, na diferenciação miofibroblástica. Como os fibroblastos pulpares apresentam características peculiares, com a expressão de proteínas específicas que os diferem de fibroblastos de outros tecidos conjuntivos, o presente estudo avaliou in vitro se o TGF-<font face=\"symbol\">b1 aumenta a expressão de <font face=\"symbol\">a-AML em fibroblastos pulpares humanos comparando-os com fibroblastos de gengiva. Para tal, diferentes doses de TGF-<font face=\"symbol\">b1 (5 à 10 ng/ml) foram adicionadas às culturas de células, sendo a expressão da <font face=\"symbol\">a-AML analisada por imunofluorescência e western-blotting. Ambos os tipos celulares imunoexpressaram <font face=\"symbol\">a-AML mesmo sem o tratamento com o TGF-<font face=\"symbol\">b1, estando aumentada consideravelmente, quando o TGF-<font face=\"symbol\">b1 foi adicionado às culturas. Os resultados do presente estudo demonstraram que o TGF-<font face=\"symbol\">b1 induz a expressão de <font face=\"symbol\">a-AML, sugerindo a indução do fenótipo miofibroblástico em fibroblastos pulpares. / Transforming growth factor-beta 1 (TGF-<font face=\"symbol\">b1) has been related to induce the expression of <font face=\"symbol\">a-smooth muscle actin (<font face=\"symbol\">a-SMA) in fibroblasts during repair. Since pulpal fibroblasts seem to be somewhat different from other fibroblasts, the present study investigated in vitro whether TGF-<font face=\"symbol\">b1 enhances the expression of <font face=\"symbol\">a-SMA in human pulpal fibroblasts. TGF-<font face=\"symbol\">b1 was added in doses between 5-10 ng/ml to cultures of both dental pulp and gingiva human fibroblasts. The expression of <font face=\"symbol\">a-SMA was analyzed by immunofluorescence and western-blotting. Both cell types were immunoreactive for <font face=\"symbol\">a-SMA even without TGF-<font face=\"symbol\">b1. When TGF-<font face=\"symbol\">b1 was added to cell cultures, the expression of <font face=\"symbol\">a-SMA increased dramatically in pulpal fibroblasts, independent of the concentration used. It was confirmed by the western blot analysis. The present findings showed that TGF-<font face=\"symbol\">b1 up-regulated the expression of <font face=\"symbol\">a-SMA thus inducing pulpal fibroblasts to acquire the myofibroblast phenotype.

Alfa-smooth muscle actin

Cell culture

Cultura celular

Fibroblastos de polpa

Human dental pulp

Miofibroblasto

Myofibroblast

Polpa dentária humana

Pulpal fibroblasts

Transforming growth

Estudo da imunoexpress?o de RANKL e OPG, do ?ndice angiog?nico (CD34) e da presen?a de miofibroblastos (?-SMA) em ceratocistos odontog?nicos isolados e associados ? s?ndrome de Gorlin

Nonaka, Cassiano Francisco Weege

23 September 2010

Made available in DSpace on 2014-12-17T15:32:29Z (GMT). No. of bitstreams: 1 CassianoFWN_TESE.pdf: 3914655 bytes, checksum: c6fb9bd86bba433eb6a5a047a9337861 (MD5) Previous issue date: 2010-09-23 / Conselho Nacional de Desenvolvimento Cient?fico e Tecnol?gico / The odontogenic keratocysts are distinguished from other odontogenic cystic lesions by their potentially aggressive clinical behavior and association, in some cases, with Gorlin syndrome. Studies have suggested that syndrome keratocysts, in comparison with sporadic lesions, have higher growth and infiltration capacity and higher recurrence tendency. The aim of this study was to analyze, by means of immunohistochemistry, the expressions of receptor activator of nuclear factor ?B ligand (RANKL) and osteoprotegerin (OPG), the angiogenic index (CD34) and the presence of myofibroblasts (?-SMA) in primary and recurrent sporadic keratocysts and in keratocysts associated with Gorlin syndrome. The sample was composed by 30 sporadic keratocysts (22 primary and 8 recurrent) and 22 syndrome keratocysts. In the epithelium and in the fibrous capsule of the lesions, the immunoexpression of RANKL and OPG was evaluated by determination of the percentage of positive cells, according to the following scores: 0 (less than 10% of positive cells), 1 (11% - 50% of positive cells), 2 (51% - 75% of positive cells) and 3 (more than 76% of positive cells). In addition, cases were classified according to the RANKL score/ OPG score ratio, as follows: RANKL > OPG, RANKL < OPG, and RANKL = OPG. The angiogenic index was analyzed by counting the microvessels immunoreactive to anti-CD34 antibody in 5 fields (200?). The analysis of myofibroblasts was performed by counting the cells immunoreactive to anti-?-SMA antibody in 10 fields (400?). The analysis of the expressions of RANKL and OPG in the epithelial lining and in the fibrous capsule did not reveal significant differences between groups (p > 0.05). Regarding the RANKL/ OPG ratio in the epithelial lining, most sporadic primary (54.5%) and syndrome lesions (59.1%) showed RANKL < OPG ratio and RANKL = OPG ratio, respectively (p > 0.05). With respect to the RANKL/ OPG ratio in the fibrous capsule, the majority of sporadic primary (81.8%) and sporadic recurrent lesions (75.0%) and most syndrome lesions (45.5%) showed RANKL = OPG ratio (p > 0.05). The mean number of microvessels was 69.2 in sporadic primary lesions, 67.6 in recurrent lesions, and 71.6 in syndrome lesions, with no significant differences between groups (p > 0.05). The mean number of myofibroblasts was 34.4 in sporadic primary lesions, 29.3 in recurrent lesions, and 33.7 in syndrome lesions, with no significant differences between groups (p > 0.05). In conclusion, the results of the present study suggest that the differences in the biological behavior between sporadic keratocysts and keratocysts associated with Gorlin syndrome may not be related to the expressions of RANKL and OPG, the RANKL/ OPG ratio, the angiogenic index or the number of myofibroblasts in these lesions / Os ceratocistos odontog?nicos se destacam em rela??o a outras les?es c?sticas odontog?nicas pelo comportamento cl?nico potencialmente agressivo e por se apresentarem associados, em alguns casos, ? s?ndrome de Gorlin. Estudos t?m sugerido que os ceratocistos sindr?micos, em compara??o ?s les?es isoladas, possuem maior capacidade de crescimento e infiltra??o e maior tend?ncia ? recorr?ncia. O objetivo do presente trabalho consistiu em analisar, por meio de imuno-histoqu?mica, as express?es do ligante do receptor ativador do fator nuclear ?B (RANKL) e da osteoprotegerina (OPG), o ?ndice angiog?nico (CD34) e a presen?a de miofibroblastos (?-SMA), em ceratocistos isolados prim?rios e recorrentes e ceratocistos associados ? s?ndrome de Gorlin. A amostra foi composta por 30 ceratocistos isolados (22 prim?rios e 8 recorrentes) e 22 ceratocistos sindr?micos. A express?o de RANKL e OPG foi avaliada no epit?lio e na c?psula fibrosa das les?es, estabelecendo-se o percentual de c?lulas imunopositivas, de acordo com os escores: 0 (? 10% das c?lulas positivas), 1 (11% - 50% das c?lulas positivas), 2 (51% - 75% das c?lulas positivas) e 3 (? 76% das c?lulas positivas). Al?m disso, os casos foram categorizados, segundo a propor??o RANKL/ OPG, em: RANKL > OPG, RANKL < OPG e RANKL = OPG. O ?ndice angiog?nico foi analisado por meio da contagem dos microvasos imunomarcados pelo anticorpo anti-CD34, em 5 campos (200?). Para a avalia??o dos miofibroblastos, foram quantificadas as c?lulas imunorreativas ao anticorpo anti-?-SMA, em 10 campos (400?). A an?lise das express?es de RANKL e OPG, no revestimento epitelial e na c?psula fibrosa, n?o revelou diferen?as significativas entre os grupos (p > 0,05). Em rela??o ? propor??o RANKL/ OPG no revestimento epitelial, grande parte das les?es isoladas prim?rias (54,5%) e sindr?micas (59,1%) exibiu propor??o RANKL < OPG e propor??o RANKL = OPG, respectivamente (p > 0,05). Em rela??o ? propor??o RANKL/ OPG na c?psula fibrosa, a maioria das les?es isoladas prim?rias (81,8%) e isoladas recorrentes (75,0%) e grande parte das les?es associadas ? s?ndrome de Gorlin (45,5%) revelaram propor??o RANKL = OPG (p > 0,05). O n?mero m?dio de microvasos foi de 69,2 nas les?es isoladas prim?rias, 67,6 nas les?es recorrentes e 71,6 nas les?es sindr?micas, sem diferen?as significativas entre os grupos (p > 0,05). A an?lise dos miofibroblastos revelou valores m?dios de 34,4 nas les?es isoladas prim?rias, 29,3 nas les?es recorrentes e 33,7 nas les?es sindr?micas, sem diferen?as significativas entre os grupos (p > 0,05). Em conclus?o, os resultados do presente estudo sugerem que as diferen?as no comportamento biol?gico entre ceratocistos isolados e associados ? s?ndrome de Gorlin podem n?o estar relacionadas ?s express?es de RANKL e OPG, ? propor??o RANKL/ OPG, ao ?ndice angiog?nico ou ? quantidade de miofibroblastos presentes nas les?es

Ceratocisto odontog?nico

S?ndrome de Gorlin

B

osteoprotegerina

?ndice angiog?nico

CD34

miofibroblasto

?

-actina de m?sculo liso

Odontogenic keratocyst

Gorlin syndrome

Receptor activator of nuclear factor ?

B ligand

Osteoprotegerin

Angiogenic index

CD34

Myofibroblast

?

-smooth muscle actin

CNPQ::CIENCIAS DA SAUDE::ODONTOLOGIA

Estudo da expressão da <font face=\"symbol\">a-actina de músculo liso em cultura de células de polpas dentárias e gengivas humanas tratadas com o fator de transformação de crescimento <font face=\"symbol\">b1(TGF-<font face=\"symbol\">b1). / Expression of <font face=\"symbol\">a-smooth muscle actin in cultured human dental pulp and gingival fibroblasts induced by transforming growth factor-<font face=\"symbol\">b1 (TGF-<font face=\"symbol\">b1).

Elizabeth Ferreira Martinez

12 June 2008

Durante o processo de reparação tecidual, o fator de transformação de crescimento <font face=\"symbol\">b1 (TGF-<font face=\"symbol\">b1) apresenta um importante papel na regulação da expressão da <font face=\"symbol\">a-actina de músculo liso (<font face=\"symbol\">a-AML) e portanto, na diferenciação miofibroblástica. Como os fibroblastos pulpares apresentam características peculiares, com a expressão de proteínas específicas que os diferem de fibroblastos de outros tecidos conjuntivos, o presente estudo avaliou in vitro se o TGF-<font face=\"symbol\">b1 aumenta a expressão de <font face=\"symbol\">a-AML em fibroblastos pulpares humanos comparando-os com fibroblastos de gengiva. Para tal, diferentes doses de TGF-<font face=\"symbol\">b1 (5 à 10 ng/ml) foram adicionadas às culturas de células, sendo a expressão da <font face=\"symbol\">a-AML analisada por imunofluorescência e western-blotting. Ambos os tipos celulares imunoexpressaram <font face=\"symbol\">a-AML mesmo sem o tratamento com o TGF-<font face=\"symbol\">b1, estando aumentada consideravelmente, quando o TGF-<font face=\"symbol\">b1 foi adicionado às culturas. Os resultados do presente estudo demonstraram que o TGF-<font face=\"symbol\">b1 induz a expressão de <font face=\"symbol\">a-AML, sugerindo a indução do fenótipo miofibroblástico em fibroblastos pulpares. / Transforming growth factor-beta 1 (TGF-<font face=\"symbol\">b1) has been related to induce the expression of <font face=\"symbol\">a-smooth muscle actin (<font face=\"symbol\">a-SMA) in fibroblasts during repair. Since pulpal fibroblasts seem to be somewhat different from other fibroblasts, the present study investigated in vitro whether TGF-<font face=\"symbol\">b1 enhances the expression of <font face=\"symbol\">a-SMA in human pulpal fibroblasts. TGF-<font face=\"symbol\">b1 was added in doses between 5-10 ng/ml to cultures of both dental pulp and gingiva human fibroblasts. The expression of <font face=\"symbol\">a-SMA was analyzed by immunofluorescence and western-blotting. Both cell types were immunoreactive for <font face=\"symbol\">a-SMA even without TGF-<font face=\"symbol\">b1. When TGF-<font face=\"symbol\">b1 was added to cell cultures, the expression of <font face=\"symbol\">a-SMA increased dramatically in pulpal fibroblasts, independent of the concentration used. It was confirmed by the western blot analysis. The present findings showed that TGF-<font face=\"symbol\">b1 up-regulated the expression of <font face=\"symbol\">a-SMA thus inducing pulpal fibroblasts to acquire the myofibroblast phenotype.

Cultura celular

Fibroblastos de polpa

Miofibroblasto

Polpa dentária humana

Alfa-smooth muscle actin

Cell culture

Human dental pulp

Myofibroblast

Pulpal fibroblasts

Transforming growth