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Master's Dissertation
DOI
https://doi.org/10.11606/D.23.2009.tde-19122009-115041
Document
Author
Full name
Marco Aurélio Verlangieri Alves
E-mail
Institute/School/College
Knowledge Area
Date of Defense
Published
São Paulo, 2009
Supervisor
Committee
Corrêa, Luciana (President)
Sousa, Suzana Cantanhede Orsini Machado de
Zezell, Denise Maria
Title in Portuguese
Expressão imunoistoquímica de proteínas de choque térmico no tecido periodontal de ratos irradiados com laser de diodo
Keywords in Portuguese
Gengivoplastia e imunoistoquímica
Laser de diodo
Proteínas de choque térmico
Variação de temperatura
Abstract in Portuguese
As proteínas de choque térmico (HSP) são expressas em todas as células humanas, sendo superexpressas em condições de estresse celular, tais como hiper ou hipotermia, isquemia, inflamação e reparação. Dentre as várias famílias de HSP, encontram-se a Hsp27 e a Hsp47, cuja superexpressão relaciona-se à inibição da apoptose e à manutenção dos filamentos de actina do citoesqueleto (Hsp27) e à manutenção do sistema de produção de procolágeno e do colágeno (Hsp47). O laser de diodo (LD) tem atualmente amplas aplicações clínicas com vantagens terapêuticas comprovadas, porém os efeitos térmicos que pode acarretar aos tecidos ainda são controversos. Neste trabalho, avaliou-se a influência do LD sobre a expressão imunoistoquímica das Hsp27 e Hsp47 sobre o tecido dentário submetido a gengivoplastia com LD e com bisturi convencional, bem como relacionou-se essa influência com as variações de temperatura provocadas pela irradiação laser. Vinte e quatro ratos adultos foram divididos em dois grupos: grupo 1 12 animais submetidos a gengivoplastia no incisivo central inferior esquerdo utilizando laser de diodo (ZAP soft lase, 810 nm, 0,3 W, densidade de energia de 113,63 J/cm2); grupo 2 12 animais submetidos a gengivoplastia no mesmo local utilizando bisturi convencional. Os animais sofreram eutanásia nos períodos de 0h, 24h, 72h e 120h, sendo os incisivos centrais retirados e descalcificados. Posteriormente foram submetidos a análise imunoistoquímica utilizando anticorpos monoclonais contra Hsp27 e Hsp47. Teste in vitro foi realizado utilizando-se incisivos centrais de ratos extirpados e mantidos resfriados até o momento do teste. Este foi realizado com a instalação de 4 termopares, os quais registraram a variação da temperatura durante gengivoplastia realizada com o LD calibrado com os mesmos parâmetros do teste in vivo. Observou-se haver variação máxima de temperatura entre 1C e 6C, dependendo da região analisada. A expressão da Hsp27 mostrou-se aumentada no grupo irradiado com laser em relação ao bisturi em praticamente todos os períodos experimentais. A Hsp47 também expressou-se mais intensivamente no grupo laser, porém mais tardiamente. A expressão de ambas as proteínas foi mais intensa na região irradiada, porém nas demais regiões medidas não foi possível relacionar as variações imunoistoquímicas com as de temperatura. Concluiu-se que o LD provoca modificações na expressão das Hsp27 e Hsp47, as quais podem estar relacionadas ao aumento da temperatura provocado pelo laser.
Title in English
Immunohistochemical expression of heat shock proteins in rat periodontal tissues irradiated with Diodo Laser
Keywords in English
Diode laser
Gingivoplasty and immunohistochemical
Heat shock proteins
Temperature variation
Abstract in English
Heat shock proteins (HSP) are expressed in all human cells, and are overexpressed under conditions of cellular stress, such as hyper- or hypothermia, ischemia, inflammation and repair. Among the various families of HSP, there are Hsp27 and Hsp47, whose overexpression is related to the inhibition of apoptosis, maintenance of cytoskeletal actin filaments (Hsp27) and maintenance of the procollagen and collagen production system (Hsp47). At present, diode laser (DL) has broad clinical applications with proven therapeutic advantages; however, there is still controversy about the thermal effects it may have on tissues. In this study, the influence of DL on the immunohistochemical expression of Hsp27 and Hsp47 on dental tissue submitted to gingivoplasty with DL and a conventional scalpel was evaluated, as well as how this influence was related to the variations in temperature caused by laser irradiation. Twenty-four adult rats were divided into two groups: Group 1 12 animals submitted to gingivoplasty in the mandibular left central incisor using diode laser (ZAP soft lase, 810 nm, 0.3 W, energy density 113.63 J/cm2); Group 2 12 animals submitted to gingivoplasty in the same site using a conventional scalpel. The animals were euthanized in the periods of 0h, 24h, 72h and 120h, and the central incisors were removed and decalcified. Afterwards they were submitted to immunohistochemical analysis using monoclonal antibodies against Hsp27 and Hsp47. The in vitro test was performed, using the extirpated central incisors of rats, which were kept chilled until the time of the test. This was done by installing 4 thermocouples that recorded the variation in temperature during the gingivoplasty performed with DL calibrated with the same parameters as those of the in vivo test. It was observed that there was a maximum variation in temperature of between 1C and 6C, depending on the region analyzed. Hsp27 expression was shown to be increased in the laser-irradiated group when compared with the group treated by scalpel in practically all the experimental periods. Hsp47 was also more intensely expressed in the laser group, however, much later. The expression of both proteins was more intense in the irradiated region, but in the other regions measured, it was not possible to relate the immunohistochemical variations with those of temperature. It was concluded that DL causes changes in the expression of Hsp27 and Hsp47, which may be related to the temperature increase caused by laser.
 
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Publishing Date
2010-01-28
 
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