Abstracts

Food passage time through the alimentary tract of a brazilian teleost fish, Prochilodus scrofa (Steindachner, 1881) using radiography

Tempo de trânsito alimentar no trato digestivo de um teleósteo brasileiro, Prochilodus scrofa (Steindachner, 1881) com o uso da radiografia

Renato Lamounier BARBIERI¹ 1 Departamento de Histologia e Embriologia do Instituto de Ciências Biomédicas da USP - SP 2 Divisão de Pesca Interior do Instituto de Pesca da Secretaria de Agricultura e Abastecimento - SP 3 Disciplina de Radiologia do Departamento de Cirurgia da Faculdade de Medicina Veterinária e Zootecnia da USP - SP 4 Departamento de Ciências Básicas da Faculdade de Zootecnia e Engenharia de Alimentos da USP, Pirassununga - SP ; Rodolpho Guião LEITE² 1 Departamento de Histologia e Embriologia do Instituto de Ciências Biomédicas da USP - SP 2 Divisão de Pesca Interior do Instituto de Pesca da Secretaria de Agricultura e Abastecimento - SP 3 Disciplina de Radiologia do Departamento de Cirurgia da Faculdade de Medicina Veterinária e Zootecnia da USP - SP 4 Departamento de Ciências Básicas da Faculdade de Zootecnia e Engenharia de Alimentos da USP, Pirassununga - SP ; Franklin de Almeida STERMAN³ 1 Departamento de Histologia e Embriologia do Instituto de Ciências Biomédicas da USP - SP 2 Divisão de Pesca Interior do Instituto de Pesca da Secretaria de Agricultura e Abastecimento - SP 3 Disciplina de Radiologia do Departamento de Cirurgia da Faculdade de Medicina Veterinária e Zootecnia da USP - SP 4 Departamento de Ciências Básicas da Faculdade de Zootecnia e Engenharia de Alimentos da USP, Pirassununga - SP ; Francisco Javier HERNANDEZ-BLAZQUEZ⁴ 1 Departamento de Histologia e Embriologia do Instituto de Ciências Biomédicas da USP - SP 2 Divisão de Pesca Interior do Instituto de Pesca da Secretaria de Agricultura e Abastecimento - SP 3 Disciplina de Radiologia do Departamento de Cirurgia da Faculdade de Medicina Veterinária e Zootecnia da USP - SP 4 Departamento de Ciências Básicas da Faculdade de Zootecnia e Engenharia de Alimentos da USP, Pirassununga - SP

Correspondence to:

Franklin de Almeida Sterman

Departamento de Cirurgia

Serviço de Radiologia da Faculdade de Medicina Veterinária e Zootecnia da USP

Cidade Universitária Armando de Salles Oliveira

Av. Orlando Marques de Paiva, 87

05508-000 – São Paulo – SP

e-mail: fsterman@usp.br

SUMMARY

Food passage time through the digestive tract of a detritivorous freshwater fish (Prochilodus scrofa) was determinate by radiographic techniques using barium sulfate as a contrast medium. The fish were kept in tanks at a constant temperature of 23.5ºC and received by an oral catheter a mixture of 2.5 parts of ground ration and 1 part of oral suspension of contrast medium (Celobar). Radiographs were taken at intervals of 3 hours. Immediately after the introduction of the mixture the stomach was outlined by the contrast. A sphincter was observed between the cardiac and the muscular stomachs. After 3 hours, 80 per cent of the proximal intestine was filled. After 6 hours the contrast reached the proximal, medial and distal portions of the intestine. After 9 hours 70 per cent of the distal intestine was filled and after 12 hours, the rectum segment was still marked (25 per cent of the distal portion of the intestine).

UNITERMS: Intestine; Digestive system; Radiography; Fish.

INTRODUCTION

The interest in fish culture in Brazil has increased considerably during the last years. Lack of nutrition data and food management of the native species are among the difficulties found by our breeders, turning their production objectives towards non native species, which already have technology developed in these areas.

Prochilodusscrofa is among the native species with good performance for fish culture, exhibiting high rusticity in management and high fertility (Santos³⁸), besides being an excellent nutritive source, with energetic values similar to those showed by other fish with high protein level (Lessi²⁶).

For this species, the available literature contains a number of works related to its farming, reproduction, histophysiology and anatomy of digestive tract (Leite et al.^22,23,25; Godinho et al.¹²; Fenerich-Verani et al.¹⁰; Nachi^31,30; Barbieri et al.¹).

The determination of food income of a population in its habitat is a recurrent problem in ecological studies of fish. This determination provides the basis for research related to development and productive effectiveness, as well as for the calculation of energetic stocks. The time between ingestion and evacuation or the food passage time through the digestive tract is a parameter particularly useful in the calculation of food consumption (Windell⁴³; Tyler⁴²; Hofer et al.¹⁷). The knowledge of gastric emptying time and the food passage time through the intestinal duct constitute important parameters for the determination of fish nutrition management. Ricker³⁶ recognizes the gastric emptying time as an important parameter for the determination of the ration amount to be offered. Magnuson²⁷ points out the relevance of this item, specifying the relationships between the stimulus for feeding and the appetite, the feeding activity and the amount of food in the stomach. Elliott^7,9 establishes the relationship of gastric emptying time to the maximum stomach capacity for food consumed in different temperatures and Pandian^33,34 establishes this relationship for food conversion.

A number of techniques has been used in the determination of the gastric emptying rate and the food passage time through the digestive tract in fish. Among them we can find: dissection (Collins⁵), emetics (Jernejcic¹⁹), stomach suction (Elliott⁸; Strange; Kennedy⁴⁰), radioactive labeled food and radioisotopes (Peters; Hoss³⁵; Storebaken et al.³⁹), monitoring feces production (Lane; Jackson²¹), artificial food (Grove; Crawford¹³) and radiography (Bell; Bateman³; Tyler⁴²; Flowerdew; Grove¹¹; Holmegreen et al.¹⁸; Talbot et al.⁴¹). This last method provides great advantages in studying non osseous structures, like elucidating aspects of functional activity in fish, besides being a non invasive method of enormous convenience (Bell; Bateman³).

An important aspect to be considered in this species is its iliophagous and detritivorous feeding habit, i.e., the ingestion of food with low protein, fat, carbohydrate and energetic levels (Leite; Silva²⁴). This could force this fish to feed continuously in order to satisfy its nutritional needs, filling completely its digestive tract (Barbieri et al.¹).

This work has for its objective the investigation of food passage time through the alimentary channel in P. scrofa, using radiographic techniques and barium sulfate as a contrast medium.

We should still consider the lack of works monitoring food traffic, using radiography (or other techniques) in teleosteans of similar physiology and food habits.

MATERIAL AND METHOD

This assay was taken with a homogeneous group of fish (mean weight = 103.75 g, mean length = 19.1 cm), which were kept in tanks (2.000 liters) at the Instituto de Pesca (Fishery Institute), with continuous air and water flows, at a constant temperature (23.5ºC) kept by thermostat. There was a 4 month period for the adaptation of fish to captivity conditions before the beginning of the experiment.

During this period, assays were made in order to determine the ideal intervals between radiographs, as well as the kilovoltage (40 kV) and milliamperage (6 mAs) of the radiograph equipment (CGR - Chenon C. Paux, model G.T. - 300), besides improving the used techniques.

The population density in tanks did not exceed 5 fishes per aquarium. There was no change in photoperiod, because the tanks were located near windows, allowing penetration of diurnal light.

Before the beginning of the experiment, the fish were fed daily ad libitum with pattern fish food, produced by the Instituto de Pesca.

For the experiment, P. scrofa was submitted to a starvation period of 72 hours in order to ensure the complete emptying of the digestive tract, and after that, they were transferred to test tanks where they were anaesthetized (Benzocaine - 40 ppm).

The fish received simultaneously, directly into the cardiac stomach through a canule coupled to a syringe, ground and siftened ration, added with contrast medium in the proportion of 2.5 parts of ration by 1 part of contrast medium (CELOBAR - barium sulfate/carboximetilcellulose sodic - oral suspension - BEECHAM), being after that returned to the initial tanks. This procedure is essential to ensure precisely the amount of food and the time of ingestion. At each 3 hour interval, 4 fish were collected, anaesthetized and had their radiographs obtained. The experiment was taken in periods of 3, 6, 9 and 12 hours after the administration of the mixture ration/contrast. One radiograph was obtained immediately after the inoculation.

According to the morphometrical analysis developed by Leite et al.²³, for the determination of the relationship of the stomach volume/fish weight, it was possible to establish the ideal amount of mixture to be administered to each fish, approximately 1 ml.

In this paper the anatomical topographic patterns described by Barbieri et al.¹ (Fig. 1 and 2) were used for the recognition of the intestinal segments radiographically marked by the food mixture.

Gastric emptying was considered complete with the disappearance of the residues of the contrast from the cardiac and pyloric stomachs. The intestinal emptying was determinated by the arrival of the food mixture to the last intestinal segment, more precisely the rectum segment.

RESULTS

It can be observed in Fig. 3, which is the radiograph obtained immediately after the introduction of the food mixture, that there is a complete filling of the cardiac and pyloric stomachs. At this point there can be observed the presence of a site between the cardiac and the pyloric stomachs that was not filled by the contrast. When the image is overlaid onto the anatomical scheme of the stomach (Fig. 4), it can be seen that the non-contrasted site corresponds to the small caecal segment, described by Hernandez-Blazquez et al.¹⁶, which remains empty.

The obtained results showed that 3 hours after the introduction of the food mixture, P. scrofa still presented full cardiac and pyloric stomachs, with 80 per cent of the proximal intestinal portion now full, represented by the segments 1D, 1A, 2D and 2A (Fig. 5A, B).

After 6 hours, the complete gastric emptying and the filling of the intestinal proximal, medial and distal portions (segments 1, 2, 3, 4, 5, and 6) were observed (Fig. 6A, B).

After 9 hours (Fig. 7A, B), only 70 per cent of the distal portion were filled (5D, 5A, 6D, 6A and rectum segments) and after 12 hours (Fig. 8) the partial fulfillment (25 per cent) of the distal intestinal portion was observed, more precisely the rectum segment.

DISCUSSION

The anatomy of the digestive tract of P. scrofa is complex, with a composed stomach (cardiac, caecal and pyloric), besides a pyloric caeca and an enormously tangled intestine. This aspect is very common in herbivorous fish and in those that ingest food that is difficult to digest, probably in order to increase the absorption area (Leite et al.²³; Barbieri et al.¹). Although the anatomical aspect of the composed stomach was studied by Hernandez-Blazquez et al.¹⁶, the caecal stomach functions are not yet well defined. From the images obtained immediately after the introduction of the contrast mixture (Fig. 3), we can conclude that the composed stomach is divided in two compartments joined by the caecal stomach, which plays the role of a sphincter, isolating the cardiac stomach from the pyloric (muscular) one, avoiding the reflux of the food that would be produced by smooth muscle under intraluminal pressures.

It is important to emphasize that many factors can change the gastric emptying time and the food traffic through the intestine in fish, e.g. the water temperature, the period of starvation before the experiment, the stress caused by handling, the force feeding, the composition of the food and the fish size (Rozin; Mayer³⁷; Molnár et al.²⁹; Flowerdew; Grove¹¹; Edwards⁶; Hofer et al.¹⁷).

It is necessary to distinguish that, for this last parameter, Elliott⁸ has not detected any effect of fish size on the gastric emptying time in Salmo trutta, like Hofer et al.¹⁷ for the adult carp, Rutilus rutilus (12-18 cm of total length and 30-100 g of total weight) over the food passage time through the intestine. Jobling et al.²⁰, consider that the indication related to the effect of the fish size is controversial.

In addition, concerning the factor of food composition, this investigation was performed with a mixture of ration/contrast, in order to avoid a greater interference in food passage time, this way providing a closer approach to natural conditions. The addition of barium sulfate to the food does not affect significantly the gastric emptying time, when compared to food without the addition of a contrast medium (Jobling et al.²⁰).

In our experiment, the following parameters were standardized and kept unchanged: food composition, ratio of food/contrast, period of starvation, water temperature and fish size.

The data of the food passage time through the gastrointestinal tract obtained in this experiment are similar to those reported by Maliyenko²⁸ - 9:25 h - with juveniles Rutilus rutilus (2.0 - 10.4 cm) and those related by Opuszynski; Shireman³² - 7.1 - 12.8 h - with Aristichtys nobilis (13 cm of total length).

Our results corroborate the thesis that P. scrofa has for its feeding habit the continuous ingestion of food, since the complete gastric emptying occurred 6 hours after the ingestion and 9 hours after being fed, 72 per cent of the digestive tract was found to be empty. Gastric emptying plays the main role in control of appetite in fish (Brett; Higgs⁴). Gwither; Grove¹⁵ connected the gastric emptying to the return of the appetite, and Magnuson²⁷, Beamish² and Grove et al.¹⁴ demonstrated that hunger was determined by the amount of food present in the stomach.

Although some mechanisms involved in the mechanical function and in the control of food traffic by the digestive tract of P. scrofa are still unknown, it is proposed that in similar conditions to those verified in this study, the return of the appetite can occur within 6 hours after feeding, and 24 hours of starvation can assure the complete emptying of the digestive tract of P. scrofa.

ACKNOWLEDGMENTS

The authors are grateful to Dr. Massuka Y. Narahara, Chairwoman of Aquatic Biology Section of the Instituto de Pesca, for the facilities in the obtainment of most of the material used in this experiment.

We are also grateful to the Technicians José Plaza, from the Instituto de Pesca and Paulo G. G. Marin and Jorge L. Sepatini, from the Radiological Service - Clinical Surgery - Veterinary Medicine College - University of São Paulo, for their cooperation during the experiment.

Our special thanks to Dr. Alison Colquhoun, from the University of Oxford, for her helpful hints in the English revision.

RESUMO

O tempo de passagem de alimentos através do trato digestivo do peixe detritívoro de água doce Prochilodus scrofa foi determinado com o uso de técnicas radiográficas e de sulfato de bário como meio de contraste. Os peixes foram mantidos em tanques com temperatura constante de 23ºC e receberam via oral, através de um cateter, uma mistura de 2,5 partes de ração peletizada moída e 1 parte de suspensão oral do meio de contraste (Celobar). As radiografias foram obtidas em intervalos de 3 horas. Imediatamente após a introdução da mistura, visualizou-se o preenchimento gástrico pelo contraste. Foi observado um esfíncter existente entre os estômagos cárdico e pilórico. Após 3 horas, 80 por cento do intestino proximal estava repleto. Após 6 horas, o contraste atingiu as porções proximal, média e distal do intestino. Após 9 horas, 70 por cento do intestino distal estava repleto, e após 12 horas, havia a marcação do segmento do reto (25 por cento da porção distal do intestino).

Unitermos: Intestino; Sistema digestivo; Radiografia; Peixes.

Received: 29/04/1996

Accepted: 30/07/1997

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