Microscopic qualitative evaluation of fixation time and decalcification media in rat maxillary periodontium Avaliação microscópica qualitativa do tempo de fixação e dos meios de descalcificação do periodonto de ratos

The rat model is widely used in periodontal research and the quality of histological sections is essential. The purpose of this study was to evaluate the histological characteristics of periodontal tissues in Wistar rat maxillae, with different times of fixation and decalcified by nitric acid or formic acid (Anna Morse Solution). Fifteen rats were used. Fixation was performed for 24, 48 and 72 hours. The maxillae were hemi-sectioned and each part was decalcified either in nitric acid for 7 days or in Anna Morse solution for 35 days. Two trained and blinded examiners performed the evaluation. Fourty eight hours of fixation and decalcification with Anna Morse solution showed more clear characteristics of the epithelium-connective tissue interface and of the periodontal structures. Mean measurements between the cementum-enamel junction and the bone crest varied in the different experimental times from 176.5 (± 60.45) to 210.94 (± 39.33) pixels on the buccal aspect, and from 199.69 (± 38.33) to 298.55 (± 70.81) pixels on the palatal aspect, with no statistically significant differences (ANOVA, p > 0.05). In the same fixation period, decalcification with nitric acid or Anna Morse solution did not display any statistically significant differences. It may be concluded that for a qualitative histological analysis, fixation should preferably be for 48 hours and the demineralization should be made by Anna Morse solution. For a histomorphometric analysis, the decalcification solution does not interfere in the results. Descriptors: Histology; Periodontium; Dental research. Resumo: O modelo rato é extensamente usado na pesquisa periodontal, e a qualidade dos cortes histológicos é essencial. A proposta deste estudo foi avaliar as características histológicas dos tecidos periodontais nas maxilas de ratos Wistar, após diferentes períodos de fixação e descalcificação pelo ácido nítrico ou pelo ácido fórmico (Solução de Anna Morse). Quinze ratos foram usados. A fixação foi realizada nos períodos de 24, 48 e 72 horas. As maxilas foram divididas e parte foi descalcificada em ácido nítrico durante 7 dias e parte com solução de Anna Morse por 35 dias. Dois examinadores treinados e cegos executaram a avaliação. Quarenta e oito horas de fixação e descalcificação com solução de Anna Morse mostraram características mais evidentes da interface epitélio-conjuntivo, assim como das estruturas periodontais. As médias, por vestibular, entre a junção cemento-esmalte e a crista óssea nos diferentes tempos experimentais variaram entre 176,5 (± 60,45) e 210,94 (± 39,33) “pixels”, e, na face palatina, entre 199,69 (± 38,33) e 298,55 (± 70,81) “pixels”, sem nenhuma diferença estatisticamente significativa (ANOVA, p > 0,05). No mesmo período de fixação, a descalcificação com ácido nítrico ou solução de Anna Morse não mostrou diferenças estatisticamente significantes. Pode-se concluir que, para a análise histológica qualitativa, a fixação deve ser preferivelmente em 48 horas e a desmineralização por solução de Anna Morse. Para a análise histo-morfométrica, a solução descalcificadora não interferiu nos resultados. Descritores: Histologia; Periodonto; Pesquisa em odontologia. Marilene Issa Fernandes(a) Eduardo José Gaio(b) Cassiano Kuchenbecker Rosing(a) Rui Vicente Oppermann(a) Pantelis Varvaki Rado(c) (a) Professors of Periodontology; (b)Graduate Student; (c)Professor of Oral Pathology – School of Dentistry, Federal University of Rio Grande do Sul. Periodontal Research Corresponding author: Eduardo José Gaio Av. Montenegro, 160/701, Bairro Petrópolis Porto Alegre RS Brazil CEP: 90460160 E-mail: [email protected] Received for publication on Apr 25, 2006 Sent for alterations on Oct 09, 2006 Accepted for publication on Dec 18, 2006 Fernandes MI, Gaio EJ, Rosing CK, Oppermann RV, Rado PV Braz Oral Res 2007;21(2):134-9 135 Introduction Animal models are used to investigate events associated with periodontal diseases. Wistar rats are utilized as an experimental model due to their characteristics, which are similar to those of humans, as well as to their similar patterns of periodontal disease development, mainly in the molar region.4,6,12 Studies reporting on periodontal disease in animals are not standardized regarding histological procedures such as fixation time, decalcification and type of decalcification substances used. The fixation time of the histological specimens varies, and pre-established evaluation criteria are not presented, especially concerning the relationship between the fixation method and decalcification. Nishikawa et al.10 (1996) used 10% neutral buffered formalin in 20-day-old rats for 48 hours, not informing which decalcification method was used. Chiu et al.2 (2001) used 10% formalin and 5% hydrochloric acid for decalcification, not specifying the time periods. Shimizu et al.14 (2002) did not state the fixation period neither which decalcifier was used. It is important to point out that the fixation time and decalcifying agent used are relevant to the quality of the histological sections and, consequently, to the accuracy of the research results. It is necessary that the sections preparation process be also efficient without loss of quality. Thus, Stevens et al.15 (1996) reported that the fixation process involves a series of chemical events that differ depending on the tissues to be preserved, and have as the main objective to avoid autolysis of the specimens. The use of the decalcifying agent depends on four factors: urgency of the case, mineralization stage, aim of the research and staining technique to be used. All acids somehow affect tissue stability. This is dependent on the solution acidity and the time it will take to decalcify. Thus, the quicker the decalcifications, the greater will be the injury and its effects on H/E.15 Correa et al.3 (2003) reported that the decalcification process causes important molecular and morphological alterations in the tissues such as edema, vacuolation and ruptures not attributable to the pathologic condition. Decalcifying agents are divided into strong and weak acids and chelators. The choice will depend on the way the agent affects cell elements. Small specimens can rapidly be demineralized; however, with the purpose of removing the calcium from the center of the specimens, the superficial portion will be in contact with the acid for longer periods of time. This might lead to distortion of the specimens, reducing stability and affecting staining, especially with eosin.15 Anna Morse solution, composed of 50% formic acid and 20% sodium citrate apparently has shown the best decalcification results. The cell elements are practically not affected, and the staining looks as if the tissues had not been submitted to the decalcification process. Frequent alterations such as the tendency to cellular edema, caused by formic acid, can be minimized by using sodium citrate.9 Quantitative and qualitative analyses are used when examining periodontal specimens. Measurement of bone loss and attachment, analysis of sulcular epithelium characteristics, analysis of the junctional epithelium, observation of the presence of inflammatory infiltrate, and observation of the blastic and clastic cells require a histological evaluation of utmost quality, standardized and reproducible.5 Considering the need to optimize results with the fixation and decalcification of the specimens, the aim of this study was to evaluate the histological characteristics of the periodontal tissues in Wistar rat maxillae by comparing different fixation times associated with the decalcification of the specimens by means of 5% nitric acid or Anna Morse solution (50% formic acid + 20% sodium citrate).9 Material and Methods Fifteen 60-day-old male Wistar rats were used. They were sacrificed by cervical displacement; their maxillae were removed and fixed in 10% buffered formalin for 24, 48 and 72 hours. Following a middle-line sectioning of the maxilla, half-maxilla was decalcified by 5% nitric acid for 7 days while the other half was decalcified in Anna Morse solution for 35 days. The specimens of around 4 mm2 were immersed in single vials with 15 ml of acid and maintained at a room temperature of around 21°C. The acid solution was changed every 24 hours, without any adjunct procedure as vacuum Microscopic qualitative evaluation of fixation time and decalcification media in rat maxillary periodontium Braz Oral Res 2007;21(2):134-9 136 agitation or heating. The decalcification process was monitored radiographically (Dabi Atlante, Ribeirão Preto, SP, Brazil) and by means of an explorer. Daily, the specimens were tested with a histologic needle. The decalcified specimens were each submitted to a neutralization process with sodium bicarbonate (buffered solution for 1 hour) and then submitted to a histological processing which comprised four sequential immersions in 95% alcohol (Pró-Cito, Porto Alegre, RS, Brazil) (80 minutes), one immersion in absolute alcohol (60 minutes), three immersions in xylol (Pró-Cito, Porto Alegre, RS, Brazil) (80 minutes) and two immersions in liquid paraffin (Biotec, Porto Alegre, RS, Brazil) at 60°C (120 minutes each), and, at last, embedment in paraffin. Care was taken during embedment so that the mesial aspect of the first molar faced the block section plan. Three μ thick sections were sliced in a microtome (E. Leitz, Wetzlar, Hessen, Germany) until reaching the second molar. From each block, three sections were chosen, after each 20 μ, and evaluated by light microscopy. They should meet the following criteria in order to be included in the study: presence of the tooth with radicular and coronary portions, cementum-enamel junction evident in at least one side, buccal or palatal, and identifiable bone crest. The sections were mounted and submitted to two xylol immersions (10 minutes each), dehydration with two absolute alcohol immersions (5 minutes each), hydration (1 minute) and staining by means of Harris Hematoxylin (Pró-Cito, Porto Alegre, RS, Brazil) (2 minutes) and eosin and fuchsin (1 minute), sequentially followed by quick dehydration by means of three immersions in absolute alcohol (1 minute each) and clearing (“diaphanization”) carried out in two xylol immersions (10 minutes each). Final mounting was carried out with the aid of Entelan (Merck Sharp & Dohme, São Paulo, São Paulo, Brazil).8 Sections were analysed by two trained examiners blinded for fixation time and type of decalcification. Analysis of the sections was performed in an optical microscope (Zeiss, Jena, Turíngia, Germany) (40 X magnification) with the aim of evaluating sulcular epithelium (intact or not); cementum dislocation (absent, present at cervical third, present at medium/ apical third); dentine demineralization (adequate or inadequate and whether coronal, cervical or apical); bone demineralization (adequate or inadequate). Measurement of the distance from the cementumenamel junction to the most coronal portion of the bone crest was carried out by analyzing pictures in a transmitted light microscope (Zeiss, Jena, Turíngia, Germany), attached to a color video camera model TK – C 620 (JVC, Oyama, Tochigi, Japan) with the following specifications: standard NTCS signal system, 1/3 inch picture, 479 horizontal lines resolution on TV, 380,000 pixels, 771 (H) and 490 (V). The CCD of the camera digitalized the pictures that were then processed by the Picture Analysis and Processing System Imagelab (Sausage, Blaine, Washington, USA), installed in a Unisys computer (Univac, New York city, NY, USA). Statistical analysis Differences in the variables described in the histological evaluation were tested using the Wilcoxon test. ANOVA (p = 0.05) was used to analyze differences in distance between the cementum-enamel junction and the bone crest of the experimental groups. Results Linear evaluation of the distance between the bone crest and the cementum-enamel junction, measured in pixels, showed that no statistically significant differences were observed (p > 0.05) when the buccal and palatal surfaces were compared for both nitric acid and Anna Morse solution, regardless of the experimental times (Table 1). Table 2 shows the situation of the acellular cementum after decalcification by nitric acid or Anna Morse solution after the different fixation times in 10% buffered formalin. The lowest rates of dislocation occurred after the 48-hour fixation period, especially when performed with Anna Morse solution. Under such conditions, 73.3% of the samples did not present any displacement; however, when nitric acid was used for the same experimental period, only 23.1% did not present dislocation. For all periods, statistically significant differences were Fernandes MI, Gaio EJ, Rosing CK, Oppermann RV, Rado PV Braz Oral Res 2007;21(2):134-9 137 observed between nitric acid and Anna Morse solution. Table 3 shows the dentine demineralization pattern, in percentage values, using nitric acid or Anna Morse solution after the different fixation times in 10% buffered formalin. The results showed a variety of situations in the different stages of the experiment, for the different decalcifiers, which did not follow a pattern. Forty eight hours was found to be the best time for nitric acid, where 38.5% of the samples were considered adequate, whereas for Anna Morse solution the fixation time did not present an established pattern. Descriptive microscopic evaluation of the histological sections showed more uniformity in staining and better differentiation between the epithelial and connective tissues when a 48-hour fixation period and Anna Morse solution decalcification were used. After the 24 hours and 72 hours periods, the tissues were less preserved and affinity to eosin and hematoxylin was diminished for both nitric acid and Anna Morse solution. When the histological processing patterns were analyzed, it was noticeable that the best results obtained regarding the integrity of the sulcular epithelium were found after the 48-hour fixation period (Graph 1). Analysis of the jaw bone decalcification pattern revealed that the best decalcification conditions were found after 48 hours of fixation. Nitric acid, in that period of time, showed the best demineralization results (Graph 2). Table 2 Frequency distribution (%) of cementum dislocation.