Abstract

INTRODUCTION

The poultry industry demands maximum performance from broilers. Consequently, digestive system pathologies are extremely relevant, as they may negatively affect broilers' economic potential and, according to Ferreira et al. (2012)Ferreira TZ, Sesterhenn R, Kindlein L. Perdas econômicas das principais causas de condenações de carcaças de frangos de corte em Matadouros-Frigoríficos sob Inspeção Federal no Rio Grande do Sul, Brasil. Acta Scientiae Veterinariae 2012;40(1):1021., increase processing losses due to lack of flock uniformity.

The intestinal mucosa consists of a layer of simple columnar epithelium (Kalil et al., 2000Kalil M, Zaltman C, Takiya CM. Arquitetura da mucosa intestinal. In: Souza HSP, Elia CCS. Imunologia da mucosa intestinal. São Paulo: Atheneu; 2000. p.11-39.; Luna, 1968Luna GL. Manual of histologic - Staining methods of the armed forces institute of pathology. 3ªed. London: McGraw-Hill Book Company; 1968.) and by villi. These projections of the lamina propria into the intestinal lumen increase nutrient digestion and absorption surface area. Despite the many studies in literature on intestinal morphometry, most do not clearly describe the methodology applied. Relevant data, such as the evaluated intestinal segment, the time between death and sample fixation, how the segments are sectioned, and criteria to measure the microstructures, are not informed (Alvarenga et al., 2004Alvarenga BO, Belletti ME, Fernandes EA, Silva MM, Campos LFB, Ramos SP. Efeitos de fontes alternativas de fósforo nas rações de engorda e abate sobre a morfologia intestinal de frangos de corte. Bioscience Journal 2004;20(3):55-59.; Fukayama et al.; 2005Fukayama EH, Bertechini AG, Geraldo A, Kato RK, Murgas LDS. Extrato de orégano como aditivo em rações para frango de corte. Revista Brasileira de Zootecnia 2005;34(6):2316-2326., Okamoto et al., 2009Okamoto AS, Filho RLA, Lima ET, Moujaim JC. Histopatologia da mucosa intestinal de pintos tratados com Lactobaccillusspp. e desafiadas com Salmonella entérica, Subespécie entérica, Sorotipo Enteritidis. Ciência Animal Brasileira 2009;10(2):568-573. and Shiraishi et al., 2009Shiraishi CS, Azevedo JF, Silva AV, Santana DMG, Araujo EJA. Análise morfométrica da parede intestinal e dinâmica de mucinas secretadas no ileo de frangos infectados por Toxoplasma gondii. Ciência Rural 2009;39(7):2146-2153.). On the other hand, Caruso & Demonte (2005)Caruso M, Demonte A. Histomorfometria do intestino delgado de ratos submetidos a diferentes fontes protéicas. Alimentos e Nutrição 2005;16(2):131-133., studying the histomorphometry of the small intestine of rats, describe the details of the methodology applied and of the measurement criteria used. The authors describe the time between sample collection and fixation, staining technique, the method applied to measure villi and crypt depth, and number of villi evaluated per individual.

Considering the lack of agreement among the different authors that evaluated methods of intestinal sample collection and measured structures, the objective of the present study was to establish essential and clear criteria for broiler intestinal morphometric analysis. Firstly, the best method to collect and section intestinal samples was determined, and then the most adequate combinations of intestinal segment-sectioning method were evaluated.

MATERIAL AND METHODS

Birds

Fifteen 13-day-old Cobb broilers were housed in cages and offered feed and water ad libitum. Birds were sacrificed by neck dislocation, and the intestinal samples were collected immediately after death was confirmed.

Sample collection

In order to obtain samples of adequate size, 3-cm long sections were collected from each intestinal segment (duodenum, jejunum, and ileum). Immediately after samples were cut, the intestinal lumen was washed with 10% buffered formalin in order to remove the lumen content. All samples were placed in individually identified flasks containing 10% buffered formalin.

Each intestinal segment was collected either closed (no exposure of the intestinal mucosa) or opened, with the mucosa exposed by longitudinal incision of the organ from the mesenteric border and then stapled on a paper card measuring 2x3 cm. Samples were stretched and stapled through the mucosa with the serosa placed in contact with the paper card.

Duodenum samples were obtained from two sections: close to the ventriculus (descending part) and close to the jejunum (ascending part). Proximal and distal fragments of the jejunum were collected, considering Meckel's diverticulum as the limit between these two fragments. Ileum samples were collected from the segment located between the ceca.

Sectioning of the samples

The intestinal samples were sectioned using four different methods. All samples were approximately 1-mm thick. The longitudinal sections (hemicylindrical and longitudinal) were 15-mm long. The sections as described in Table 1.

Sample processing for histology

Samples were dehydrated in graded concentrations of alcohol, cleared in xylene, and embedded in paraffin. Samples were then cut into 4-µm thick sections and stained with hematoxylin-eosin.

Observation field count

Microscopic observation fields were counted under optical microscope (10x magnification) for each type of sample (Figure 5) of each intestinal segment, and the total number of observation fields was duly recorded.

Villus count

Only the villi considered adequate for measurements were counted. A villus was considered adequate when its base was clearly embedded in the submucosa (10x magnification; Figure 6); its body did not present any discontinuity or folds (4x magnification; Figure 7); and simple columnar epithelium was present at the tip (40x magnification; Figure 8).

Statistical analysis

The collected data were submitted to one-way analysis of variance and means were compared by the test of Tukey-Kramer.

RESULTS

The results of observation field counts and number of villi considered adequate for measurement according to sample type and intestinal segment are shown in Tables 2 and 3.

LCAD Longitudinal closed ascendant duodenum

HCAD Hemicylindrical closed ascendant duodenum

TCAD Transversal closed ascendant duodenum

SODD Stapled opened descendant duodenum

SODJ Stapled opened distal jejunum

LCPJ Longitudinal closed proximal jejunum

HCPJ Hemicylindrical closed proximal jejunum

TCPJ Transversal closed proximal jejunum

SODI Stapled open distal ileum

LCPI Longitudinal closed proximal ileum

HCPI Hemicylindrical closed proximal ileum

TCPI Transversal closed proximal ileum

The results presented in Table 2 show that, independently of the intestinal segment (duodenum, jejunum, or ileum), the collection of "closed" samples and the "hemicylindrical" section provided the highest numbers of observation fields per sample.

Table 3 shows that jejunum samples provided higher average counts of villi adequate for measurement, and that samples submitted to "hemicylindrical" section presented two out of the three highest average counts of villi adequate for measurement.

LCAD Longitudinal closed ascendant duodenum

HCAD Hemicylindrical closed ascendant duodenum

TCAD Transversal closed ascendant duodenum

SODD Stapled opened descendant duodenum

SODJ Stapled opened distal jejunum

LCPJ Longitudinal closed proximal jejunum

HCPJ Hemicylindrical closed proximal jejunum

TCPJ Transversal closed proximal jejunum

SODI Stapled open distal ileum

LCPI Longitudinal closed proximal ileum

HCPI Hemicylindrical closed proximal ileum

TCPI Transversal closed proximal ileum

DISCUSSION

Literature reports a wide variety of methods for the collection of intestinal samples for histology. For instance, Alvarenga et al. (2004)Alvarenga BO, Belletti ME, Fernandes EA, Silva MM, Campos LFB, Ramos SP. Efeitos de fontes alternativas de fósforo nas rações de engorda e abate sobre a morfologia intestinal de frangos de corte. Bioscience Journal 2004;20(3):55-59. collected 5-cm rings from each small intestine segment, whereas Okamoto et al. (2009)Okamoto AS, Filho RLA, Lima ET, Moujaim JC. Histopatologia da mucosa intestinal de pintos tratados com Lactobaccillusspp. e desafiadas com Salmonella entérica, Subespécie entérica, Sorotipo Enteritidis. Ciência Animal Brasileira 2009;10(2):568-573. collected 1-cm long samples of the proximal duodenum that were opened by the mesenteric border. Shiriashi et al. (2009) collected ring-shaped samples of the ileum and washed them with a 0.9% NaCl solution. Fukayama et al. (2005)Fukayama EH, Bertechini AG, Geraldo A, Kato RK, Murgas LDS. Extrato de orégano como aditivo em rações para frango de corte. Revista Brasileira de Zootecnia 2005;34(6):2316-2326. collected 1.5-cm long intestinal samples, which were immediately washed with distilled water and fixed in Bouin solution for 24 hours. Caruso & Demonte (2005)Caruso M, Demonte A. Histomorfometria do intestino delgado de ratos submetidos a diferentes fontes protéicas. Alimentos e Nutrição 2005;16(2):131-133. collected 1-cm samples of the small intestine of rats, fixed them in 10% formalin, refrigerated the samples for 24 hours, and then transferred them to a medium containing 70% alcohol.

This brief literature review illustrates the diversity of methods applied in histological studies of the intestine. Perhaps the only consistent feature among them is the lack of details on the methods used for sample collection. This was the motivation of the present study, as it was not possible to reproduce the methodology described by those authors. We decided to apply part of the mentioned methodologies and to evaluate some essential aspects, such as the number of observation fields and the number of villi considered adequate for measurement, as well as to clearly define which villus characteristics that are required to determine if the villi are adequate or not. These characteristics were not described in any of the researched studies. Some intestinal samples were collected and the segments opened by the mesenteric border, as described by Okamoto et al. (2009)Okamoto AS, Filho RLA, Lima ET, Moujaim JC. Histopatologia da mucosa intestinal de pintos tratados com Lactobaccillusspp. e desafiadas com Salmonella entérica, Subespécie entérica, Sorotipo Enteritidis. Ciência Animal Brasileira 2009;10(2):568-573., while other samples were collected without opening, as suggested by Shiriashi et al. (2009). All sections were 1.5cm long and were washed with a fixing solution, according to Fukuyama et al. (2005)Fukayama EH, Bertechini AG, Geraldo A, Kato RK, Murgas LDS. Extrato de orégano como aditivo em rações para frango de corte. Revista Brasileira de Zootecnia 2005;34(6):2316-2326..

The small intestine samples that were collected and not opened and submitted to hemicylindrical section presented the highest number of observation fields, independently of intestinal segment. This result is in agreement with Kalil et al.(2000)Kalil M, Zaltman C, Takiya CM. Arquitetura da mucosa intestinal. In: Souza HSP, Elia CCS. Imunologia da mucosa intestinal. São Paulo: Atheneu; 2000. p.11-39., who recommend that small intestine samples should always be sectioned in the longitudinal direction in order to obtain histological section which villi are not unduly increased.

The intestine is a very sensitive organ and needs to be handled with care. In the present study, strict criteria were adopted to consider that a villus was adequate for measurement. The villus body should not present any artifacts (folds, breaks, grooves, etc.), its base should be clearly embedded in the submucosa, and its tip should present simple columnar epithelium. Artifacts in the villus body may "reduce" its size, such as in the case of folds, or increase it, such as in the case of grooves or breaks. A villus base clearly embedded in the submucosa indicates that the villus belongs to the evaluated section, whereas the tip with simple columnar epithelium suggests that it was sectioned close to its sagittal line. The consideration of these characteristics provide higher measurement accuracy, as they prevent possible distortions. When these characteristics were taken into account when evaluating the villi, the samples obtained by hemicylindrical section were shown to be the most adequate for morphological evaluation, because they presented the highest number of microscopic observation fields and the highest number of villi considered adequate for measurement. In addition, because the jejunum presented the highest number of measurable villi and observation field counts, it is suggested that this intestinal segment is the most indicated for morphometric analyses.

CONCLUSIONS

Based on the results obtained in the present study, it was concluded that the samples that were collected closed and submitted to hemicylindrical section presented the highest number of observation fields, independently of intestinal segment. The jejunum is the most indicated intestinal segment for intestinal histomorphometric analysis, because it presented the highest number of villi considered adequate for measurement and due to its importance for nutrient absorption. In addition, it was observed that the structure of the intestines is very frail, requiring extreme care when handled. The present study may be used as the basis of future studies using intestinal morphometric analyses as it elucidated basic issues relative to sample collection method and processing.

REFERENCES

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