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The Journal of Advances in Parasitology

JAP_6_2_12-15

 

 

Research Article

 

Prevalence of Gastro-Intestinal Nematodiasis in Goat at Sylhet Sadar Upazilla, Sylhet, Bangladesh

 

Md. Nazrul Islam1, Md. Rafiqul Islam2, Kazi Mehetazul Islam3, A.H.M. Musleh Uddin4, Md. Irtija Ahsan5

1Nourish Poultry and Hatchery Ltd., Uttara, Dhaka-1230, Bangladesh; 2Department of Medicine, Faculty of Veterinary, Animal and Biomedical Sciences, Sylhet Agricultural University, Sylhet-3100, Bangladesh; 3Department of Parasitology, Faculty of Veterinary, Animal and Biomedical Sciences, Sylhet Agricultural University, Sylhet-3100, Bangladesh; 4Department of Surgery and Theriogenology, Faculty of Veterinary, Animal and Biomedical Sciences, Sylhet Agricultural University, Sylhet-3100, Bangladesh; 5Department of Epidemiology and Public Health, Faculty of Veterinary, Animal and Biomedical Sciences, Sylhet Agricultural University, Sylhet-3100, Bangladesh.

 

Abstract | A cross-sectional study was carried out from June 2015 to November 2015 taking 150 faecal samples collected from 150 randomly chosen goats following simple random sampling from Sylhet Sadar upazilla of Sylhet district to explore the prevalence of gastro-intestinal nematodiasis (GIN). From the collected faecal samples EPG of nematodal species was counted by simple McMaster technique using saturated salt and sugar solution. A goat was considered having GIN if one gram of its faeces contains ≥ 50 eggs of one or more nematodal species. The overall prevalence of GIN was 82.66% (95% CL: 76.54-88.79) in goat. In respect of age, 86.51% young (≤2 years) and 77.04% adult (>2 years) were found infected with GIN. The prevalence was observed 80.41% in female while 86.79% in male in this study. Therefore, it may infer that the prevalence of GIN was exceedingly high in goat reared at Sylhet Sadar upazilla and require effective control regime.

 

Keywords | Prevalence, Goat, Nematodiasis, Sylhet, Bangladesh

 

Editor | Muhammad Imran Rashid, Department of Parasitology, University of Veterinary and Animal Sciences, Lahore, Pakistan.

Received | December 24, 2018; Accepted | February 06, 2019; Published | April 16, 2019

*Correspondence | Md. Irtija Ahsan, Department of Epidemiology and Public Health, Faculty of Veterinary, Animal and Biomedical Sciences, Sylhet Agricultural University, Sylhet-3100, Bangladesh; Email: [email protected]

Citation | Islam MN, Islam MR, Islam KM, Uddin AHMM, Ahsan MI (2019). Prevalence of gastro-intestinal nematodiasis in goat at sylhet sadar upazilla, sylhet, bangladesh. J. Adv. Parasitol. 6(2): 12-15.

DOI | http://dx.doi.org/10.17582/journal.jap/2019/6.2.12.15

Copyright © 2019 Islam et al. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

 

Introduction

 

Gastro-intestinal nematodiais (GIN), caused by nematodes occupying and affecting GI tract, is considered as one of the major constraints of livestock production and economy worldwide (Vercruysse and Claerebout, 2001). Like other animals, goats are highly susceptible to GIN facing a considerable health hazard and reduced productive performances throughout the world due to the associated morbidity, mortality and cost of treatment and control measures (Iqbal et al., 1993). The most important GI nematodal species for goats include Haemonchus contortus, Oesophagostomum spp., Ostertagia spp., Nematodirus spp., Moniezia spp. and Trichuris ovis. Severely infected goats suffer from unthriftiness and anorexia resulting decrease in body weight, birth weight and dystocia. The condition worsens and prognosis becomes too poor when blood sucking GI nematodes infect young while adult develops anaemia (Husnain and Usmani, 2006).

 

Goat rearing, very popular in Bangladesh with total population is 25.12 million, plays a key role in socio-economic development and meeting up protein deficit (BER, 2012). Unfortunately, the progress of goat farming is in threat due to many hazardous infectious diseases including GIN. Kamal et al. (1993) and Nahar et al. (2012) reported the prevalence of GIN in Chittagong and Rajshahi district, respectively.

 

The study area, Sylhet Sadar upazilla, located at the heart of Sylhet district and in the north-east of Bangladesh, is very prospective for goat rearing due to its geo-climatic condition. The topography hot and humid summer as well as relatively cool weather of this upazilla create a favorable environment for the survival of various parasites with their intermediate hosts (Sahlu et al., 2009; Wikipedia, 2014) and goats mostly raised either semi-intensive or free ranging grazing system increasing the chance of contact with the causal agents and intermediate hosts. GIN is supposed to be a common problem and strong barrier for goat rearing in this upazilla. However, the epidemiology of GIN has yet remained undisclosed at this upazilla needed for planning of successful control strategies. Therefore, this study was undertaken to estimate the prevalence of GIN in goat at this upazilla.

 

Materials and methods

 

Study Area

The study was conducted at Sylhet Sadar upazilla under Sylhet district of Bangladesh possessing sub-tropical climate covering an area of 301.80 sq. km. including 5.84 sq. km. 8.10 sq. km. river and forest areas, respectively. It is geographically positioned between 24°43´ and 24°77´ north latitude and between 91°40´and 91°01´ east longitudes and surrounded by Companiganj and Gowainghat upazillas in the north, Golapganj and Jaintiapur upazillas in the east, Dakshin Surma upazilla in the south and Chatak upazilla of Sunamganj district and Bishwanath upazilla in the west (BBS, 2013).

 

Study Design

Cross-sectional study design was used in this study during June 2015 to November 2015 to determine the prevalence of GIN in goat at Sylhet Sadar upazilla of Sylhet district.

 

Target Population and Sample Size Calculation

Total goat population at Sylhet Sadar upazilla was the target population. Only from the Sylhet Government Goat Developing Farm, situated at this upazilla, goats were circulated as well as sold for rearing throughout the study area and Akanda et al. (2012) reported the prevalence of GIN was 100% at this farm. Therefore, considering expected prevalence (p) as 1, 95% confidence level (z) as 1.96 and desired absolute precision (d) as 0.05, the sample size was calculated as zero by using the following formula for estimating prevalence according to Thrusfield (2005). So, from the target population 150 goats were randomly selected using simple random sampling scheme by computerized random number generator as a representative portion which was supposed to be rational considering the circumstances. Age of the goat was defined by examining teeth as suggested by Rahman and Hossain (1997) and sex was identified observing the presence of penis or uterus (Hossain et al., 2011).

 

Image279349.PNG 

 

Collection of Fecal Sample

A twenty gram of faecal sample was collected aseptically from the rectum through index figure from each of the selected goats. A separate labeled mini plastic container was used to keep individual faecal sample then placed into icebox at 80C and transported to the Medicine laboratory of Sylhet Agricultural University, Sylhet and stored in a refrigerator under 4ºC.

 

Faecal Sample Examination and Determination of Nematodal Species

Simple McMaster technique with saturated salt and sugar solution, described by Permin and Hansen (1998), was employed to examine collected faecal samples for the identification of nematodal species based morphological characters of their eggs (Soulsby, 1982) and quantification of EPG.

 

Statistical Analysis

The data from animal source (age and sex) and laboratory work was firstly entered into Microsoft excel spread sheet and coded for analysis. Goats were divided into two age groups, namely, young (≤ 2 years) and adult (> 2 years) according to strategy devised by Nahar et al. (2012) with some modification. A case definition was used based on EPG, suggested by Permin and Hansen (1998), to define a goat either having GIN or not; if a gram of faeces of a goat contained ≥ 50 eggs of one or more nematodal species, then that goat was considered to be positive for GIN. The prevalence was determined as a proportion of GIN positive goats among sampled goats. The precision of the estimate was authenticated by calculating 95% Confidence Limit (CL) of proprortion. The analysis was performed using statistical software packages SPSS (version 15.2) and SAS (version 9.4).

 

Results

 

Overall Prevalence of GIN

Among 150 samples, we found 124 samples having one or more eggs of one or more nematodes, hence, overall prevalence of GIN was 82.66% (95% CL: 76.54-88.79) in goat at Sylhet Sadar upazilla under

 

Table 1: Overall and sex wise prevalence of GIN estimated from 150 faecal samples of 150 randomly selected goats from Sylhet Sadar during Juneto November 2015

 

Sex No. of goat examined No of goat positive for GIN Prevalence (%) 95% Confidence Limit
Female 97 78 80.41 72.37-88.45
Male 53 46 86.79 77.37-96.21
Total (Overall) 150 124 82.66 76.54-88.79

 

Table 2: Age wise prevalence of GIN estimated from 150 faecal samples of 150 randomly selected goats

 

Sex Young (≤2years) Adult (>2years)

No. of goat examined No. of goat positive for GIN Prevalence (%) (95% Confidence Limit) No. of goat examined No. of goat positive for GIN Prevalence (%) (95% Confidence Limit)
Female 52 44

84.61

(74.47-94.76)

45 34

75.55

(62.50-88.61)

Male 37 33

89.18

(78.69-99.69)

16 13

81.25

(59.77-100.00)

Total 89 77

86.51

(79.28-93.75)

61 47

77.04

(66.20-87.91)

 

 

Sylhet distrct of Bangladesh (Table 1).

 

Sex Wise Prevalence of GIN

Among 150 randomly selected goats, numbers of male and female were 97 and 53, respectively of which 78 males and 46 females were found to have GIN resulting prevalence 86.79% in male whereas 80.11% in female (Table 1).

 

Age Wise Prevalence of GIN

According to the definition of category of age groups, from 150 chosen goats numbers of young and adult were 89 and 61, respectively. The numbers of positive young and adults were noted 77 and 47, correspondingly. Therefore, the prevalence of GIN was 86.51% in young while 77.04% in adult. Again among the young 89.18% male and 84.61% female were affected with GIN whereas among adult prevalence was 81.25% and 75.55% in male and female, respectively (Table 2).

 

Discussion

 

Present study revealed that the prevalence of GIN was 82.66% in goat at Sylhet Sadar upazilla in Sylhet district of Bangladesh. But this high prevalence was not unpredicted. The geo-climatic condition suits the survival of various parasites and their intermediate hosts in this region. Besides goats rose in semi-intensive and free ranging rearing system that allow them to expose to various parasites and increase the risk of being infected. These might contribute to such high prevalence, even 100% prevalence of GIN was found by Akanda et al. (2012) in goat from Sylhet Government Goat Development Farm located at this upazilla. This finding also agrees with the finding of Kamal et al. (1993) who reported 78.41% prevalence in Chittagong district of Bangladesh having geo-climatic resemblance with the study area. High prevalence of GIN was also reported from neighbouring country India (86.80%) by Yadav and Tandon (1989).

 

Current study disclosed that, GIN was more prevalent in male than female. This is might be due the immunosuppressive activity of Androden and Testosterone in male to GI nematodes (Barger et al., 1993; Seli and Arici, 2002). The results of the present study are also line with the findings of Nabi et al. (2014) who found higher prevalence of GIN in male than female.

 

In this study, the higher prevalence of GIN was obtained in young than adult. Higher prevalence in young animals can be contributed due to contaminated environment, over stocking, lack of immunity and relation between age and immunity that is young animals are more susceptible than adult (Biu et al., 2009). This might be another reason of such fingdings. The results of this study are also in accordance with finding of Nabi et al. (2014).

 

Acknowledgements

 

The authors would like to thank the respondents for participating in this study and the laboratory staff for maintenance of laboratory arrangement. This research did not receive any specific grant from funding agencies in the public, commercial, or not-for-profit sectors.

 

Conflict of interest

 

The authors confirm that there is no conflict of interests.

 

Authors Contribution

 

Md. Nazrul Islam developed the conception and design of the study. He also collected data and fecal samples, and did laboratory examination of fecal samples. Md. Rafiqul Islamand Kazi Mehetazul Islam had substantial contributions to design of the work with overall supervision. A. H. M. Musleh Uddin helped in data collection and laboratory examination of fecal samples.Md. Irtija Ahsan performed data analysis, drafted and revised the manuscript critically from the Thesis for intellectual content, and did necessary corrections.

 

References

 

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