Fowlpox: identification and adoption of prophylactic measures in backyard chickens in Bahia, Brazil

Silva, PS da; Batinga, T de B; Sales, TS; Herval, EFG; Ramos, I; Maia, PCC; Fernandes, LMB

doi:10.1590/S1516-635X2009000200007

Abstract

This paper describes the identification of an outbreak of fowlpox in backyard chickens in two villages the state of Bahia, the intervention strategy to control the disease by adopting health measures and vaccination, as well as the impact of the intervention. The diagnosis was based in clinical and laboratory data. After the diagnosis was confirmed, control measures and the vaccination of non-infected birds were recommended. Finally, the impact of the intervention on re-incidence of the disease was evaluated. A number of 700 chickens was vaccinated, after which only 9% of the farmers reported the occurrence of new cases, and 70% informed the acquisition of new birds after vaccination. The information reported in this paper can be useful to design strategic plans to control fowlpox in backyard chickens.

Backyard chickens; control and prevention; fowlpox

Fowlpox: identification and adoption of prophylactic measures in backyard chickens in Bahia, Brazil

Silva PS da^I; Batinga T de B^II; Sales TS^III; Herval EFG^IV; Ramos I^V; Maia PCC^VI; Fernandes LMB^VII

^IDVM, Poultry Health Laboratory of Bahia (LASAB)/UFBA

^IIDVM, Poultry Health Laboratory of Bahia (LASAB)/UFBA

^IIIDVM, graduate student in Tropical Animal Science, School of Veterinary Medicine /UFBA

^IVDVM, graduate student in Tropical Animal Science, School of Veterinary Medicine /UFBA

^VDVM, Poultry Health Laboratory of Bahia (LASAB)/UFBA

^VIDVM, M. Sc. in Animal Pathology, Professor of the Departament of Preventive Veterinary Medicine, School of Veterinary Medicine /UFBA

^VIIDVM, Ph.D. in Immunology, Professor of the Departament of Preventive Veterinary Medicine, School of Veterinary Medicine/UFBA, coordinator of the Poultry Health Laboratory of Bahia (LASAB)/UFBA

^{Mail Address} Mail Address: Priscila Sousa da Silva E-mail: estrelamaior@gmail.com

ABSTRACT

This paper describes the identification of an outbreak of fowlpox in backyard chickens in two villages the state of Bahia, the intervention strategy to control the disease by adopting health measures and vaccination, as well as the impact of the intervention. The diagnosis was based in clinical and laboratory data. After the diagnosis was confirmed, control measures and the vaccination of non-infected birds were recommended. Finally, the impact of the intervention on re-incidence of the disease was evaluated. A number of 700 chickens was vaccinated, after which only 9% of the farmers reported the occurrence of new cases, and 70% informed the acquisition of new birds after vaccination. The information reported in this paper can be useful to design strategic plans to control fowlpox in backyard chickens.

Keywords: Backyard chickens, control and prevention, fowlpox.

INTRODUCTION

Fowlpox is a viral disease characterized by proliferative and nodular lesions in the featherless parts of the skin or fibrino-necrotic and proliferative in the mouth, esophagus, and mucous membrane of the upper respiratory tract (Hsieh, 2005). Clinical signs may vary according to host susceptibility, virulence of the virus strain, and lesion distribution (Tripathy & Reed, 2003). The disease has been described in chickens, turkeys, pigeons, ostriches, quails, pheasants, and canaries (Back et al., 1995), and the emergence of outbreaks is associated to environmental conditions, vector populations, and the habits of the affected species (Hansen, 1999; Van Ripper III et al., 2002).

Fowlpox is globally distributed (Isa et al., 2002; Tripathy & Reed, 2003; Pledger, 2005), despite being considered recent in North America (Pledger, 2005). The incidence is higher in tropical and subtropical countries (Beytut & Haligur, 2007). This disease is economically important in commercial poultry production, as it may cause decline in egg production, mortality (Isa et al., 2002; Ariyshi et al., 2003), and lower growth rate (Isa et al., 2002).

However, in addition to commercial poultry production, small farmers are also affected. Despite the increase in the number of backyard chicken farms in the last few years, little attention has been given to the health care and diseases of these birds (Santos, 2005).

According to Caporal & Costabeber (2000), rural extension is the process of intervention that has an educational and transforming character. This process is based on participating investigation-action methodologies that promote the development of social-economic-cultural practices, allowing the participants of the process to build and to systematize knowledge in order to consciously change reality. In this context, the Poultry Health Education Group (GESAV), which includes undergraduate students of the School of Veterinary Medicine of the Federal University of Bahia (EMEV/UFBA), has carried out research and extension activities in rural communities aiming at developing management and production practices for backyard chickens. The identification of health problems and the recommendation of prevention and control alternatives are emphasized (Batinga et al., 2007).

This study aimed at reporting fowlpox incidence in backyard chickens in two villages in the state of Bahia, describing the prophylactic measures adopted to control the infection, and evaluating the impact of the intervention measures on the reemergence of the disease.

MATERIAL AND METHODS

The study was carried out in the villages of Terra Branca and Tatu, located in the district of Algodões, Quijingue, Bahia, Brazil. The municipality of Quijingue is located in the northeastern region of the state of Bahia, in the micro-region of Euclides da Cunha, located 322 km from the state capital city, Salvador.

The villages were visited three times. Terra Branca and Tatu were visited for the first time on November 3 and 4, 2006, respectively. During this first visit, the students organized a field day with the local farmers, when the participants discussed the most frequent problems found, and assessed the activities being carried out. The farmers' notes and observation indicated that most backyard birds from those villages could be suffering from fowlpox.

In order to investigate this suspicion, the students visited the local farms and the disease was clinically diagnosed by the lesions in the featherless skin parts of the birds. In addition, samples were collected and placed in formaldehyde at 10% for subsequent laboratory diagnosis. Samples were submitted to the Pathology Lab of the Veterinary Hospital of UFBA, and analyzed according to the method described by TIMM (2005).

Between January 16 and 20, 2007, the villages were visited a second time to provide the farmers with general guidelines for fowlpox prevention, and to vaccinate the birds against the disease. A freeze-dried vaccine against fowlpox (Hertape Calier) was applied. The flask was opened at the time of use, and was kept in a styrofoam box to ensure the preservation of the optimal temperature, as this is a live vaccine. Bird vaccination was carried out by a wing puncture using a vaccine applicator. Approximately 700 birds were vaccinated.

On April 29 and 30, 2007, meetings were carried out with the farmers of the two villages, and questionnaires were applied to assess the impact of the adopted prophylactic measures.

RESULTS AND DISCUSSION

The clinical signs observed in the flocks of the visited villages were similar to those reported by Jacob et al. (1998) in an extensive chicken rearing system in the USA. Those authors observed lesions in the skin and/or mouth and upper respiratory tract membranes, low growth rate, poor feed efficiency, and reduction of egg production. Beytut & Haligur (2007) described a similar condition in naturally-infected chickens in Turkey, where the birds presented conjutivitis, depression, anorexia, and crusts or nodules in the skin, comb, wattle, and eyelids.

In order to further investigate the problems, some farms were visited to observe the birds and the general conditions of the farms, looking for environmental factors that could favor the disease. Extensive crusty lesions were found on the corner of eyes and ears, which are consistent with fowlpox (Figure 1).

Butcher & Rossi (1990) mention that fowlpox is a disease that can be readily diagnosed by veterinarians, based on the flock's history and the presence of typical lesions. However, in some instances, the microscopic examination of the affected tissues may be required. During the visits to the flocks, material was collected for laboratory diagnosis. The material was stored according to the recommendations of Borja (2007), and subsequently processed at the Pathology Lab of the Veterinary School of UFBA. The histological examination confirmed the suspicion of fowlpox, revealing the presence of Bollinger bodies, which are characteristic of this viral infection (Figure 2). These inclusion bodies cause cytoplasmic distention, resulting in cell necrosis (Tanizaki et al., 1986; Yoshikkawa & Alam, 2002; Beytut & Haligur, 2007).

The main aim of the second visit - two months after the first visit - was to vaccinate birds and to check general management conditions. The representatives of the communities were previously contacted, and the vaccination day was scheduled. The farmers were asked to have the birds gathered the previous day, placing them in enclosures to make the vaccination process easier.

Butcher & Rossi (1990) suggest vaccination as a prevention measure against fowlpox, associated to insect control. Those authors emphasize, however, than only healthy birds should be vaccinated, as the vaccine induces mild infection.

There were no problems during vaccination. Most flocks were vaccinated, except for those which owners were not present or did not allow their birds to be vaccinated. Approximately 700 birds were immunized, and this number was considered satisfactory, as 93.9% of the flocks consisted of less than 30 birds.

Although vaccination is the main prevention strategy suggested in literature, many authors point out that the efficacy of the vaccination programs is very variable, and depend on epidemiological conditions (Butcher & Rossi, 1990; Figueiredo et al., 2001; Permin & Pedersen, 2002).

The vaccine against fowlpox can be purchased in the capital city, Salvador, and other localities of the state of Bahia, where commercial poultry production is an important economic activity. Nevertheless, dwellers of distant villages have no knowledge of the existence of this vaccine, nor have veterinary technical services available.

Permin & Pedersen (2002), in studies carried out in Africa and Asia, observed that most small farmers did not vaccinate their birds against fowlpox.

When farmers do not have access to the vaccine to prevent the disease, farmers apply traditional home-made treatments when birds present skin lesions. The application of burnt oil, powder, or lemon is a common practice when warts emerge. Jugessur et al. (2006), in a study developed with small poultry farmers of the Republic of Mauritius, described a traditional treatment for fowlpox based on iodine, tomato, and cooking oil or shoe polisher.

However, to date, no single treatment for fowlpox has been successfully developed. Antibiotics can be used to control secondary bacterial infections, particularly in birds with respiratory and gastrointestinal lesions (Pledger, 2005).

The communities were visited again three months after vaccination. Between the second and the third visits, contact was made by telephone. During the third visits, meetings were held, and questionnaires were applied to assess the impact of the adoption of the prophylactic measures recommended. In both communities, the women are usually the family members responsible for bird care. This had already been observed in another study performed in the state of Bahia (Batinga, 2007) and it is consistent with information published by FAO (Food and Agriculture Organization) in 2006. The Coordinated Research Council (CRC) on Family Poultry Production of FAO concluded that, in 13 countries of Africa, women are also the main responsible people for the domestic rearing of chickens, and pointed out that better poultry performance may generate better life conditions to women and children (FAO/IAEA, 2006).

Butcher & Rossi (1990) stress that the fowlpox virus may remain stable for a long time in the environment, favoring the infection of new birds introduced in the affected farms.

Today, the disease is under control in both villages where the intervention was carried out, as farmers have not reported the incidence of new outbreak, as informed by local representatives. However, further work must be developed both in the studied villages and in other communities to develop prevention strategies and to implement health education programs, which should be coordinated by government authorities. These programs should enhance the capacity of disease identification, after which, in a partnership with the community, a control and prevention plan based on general and specific measures should be developed. The plan must consider environmental and management characteristics, such as rainfall period, and consequently the presence of vector insects, as well as the frequency of introduction of new birds in the flocks.

CONCLUSIONS

The present article describes the process of clinical and laboratory identification of fowlpox in backyard chickens reared in two villages in the state of Bahia, Brazil. Based on this identification, we report the recommended and applied prophylactic measures to control the disease, and discuss the impact of these measures on the reemergence of the disease. Although fowlpox is responsible for significant economic losses, particularly for small farmers, and can be controlled by vaccination and the implementation of hygiene measures, to date there are no established programs for the diagnosis and prevention of this disease in backyard chicken farming. Considering the importance of family poultry production to ensure food and income to small farmers, it is essential to develop strategies to reduce the losses caused by fowlpox.

Arrived: September/2008

Approved: March/2009

Ariyoshi R, Takase K, Matsuura Y, Deguchi K, Ginnaga A, Fujikawa H. Vaccination against fowlpox virus via drinking water. Journal of Veterinary Medical Science 2003; 65(10):1127-1130.
Back A, Soncini RA, Ruthes O, Madureira Júnior S, Flores R. An atypical fowl pox outbreak in broilers in southern Brazil. Avian Diseases 1995; 39:902-906.
Batinga TB. Análise sorológica e avaliação epidemiológica de salmoneloses e micoplasmoses em galinhas de quintal na Bahia [monografia]. Salvador (MG): Universidade Federal da Bahia; 2007.
Batinga TB, Silva PS, César AR, Ramos I, Fernandes L. Avaliação da ocorrência de Salmoneloses e Micoplasmoses, e de seu impacto, na criação de galinhas caipiras em pequenas propriedades rurais do Estado da Bahia. Anais do 1ş Congresso Nordestino de Extensão Universitária; 2007; Salvador, Bahia. Brasil.
Beytut E, Haligur M. Pathological, immunochemical, and electron microscopic findings in the respiratory tract and skin of chickens naturally infected with avipoxvirus. Turkish Journal of Veterinary Animal Science 2007; 31(1):1-7.
Borja F. Métodos de estudos histológicos [citado em 12 set 2007]. Disponível em: http://www.cstr.ufcg.edu.br/histologia
Butcher GD, Miles RD. Diseases prevention in commercial poultry [Fact Sheet CIR1079]. Gainsville: Florida Cooperative Extension Service, Institute of Food and Agricultural Sciences, University of Florida; 1993.
Butcher GD, Rossi F. Prevention and control of fowl pox in backyard chicken flocks [Fact Sheet VM65]. Gaisnville: Florida Cooperative Extension Service, Institute of Food and Agricultural Sciences, University of Florida; 1990.
Caporal FR, Costabeber JA. Agroecologia e desenvolvimento rural sustentável: perspectivas para uma nova Extensão Rural. Agroecologia e Desenvolvimento Rural Sustentável 2000; 1(1):16-37.
FAO - Food Agricultural Organization. Improving farmyard poultry production in Africa: interventions and their economic assessment. Vienna: IAEA; 2006.
Figueiredo EAP. Diferentes denominações e classificação brasileira de produção alternativa de frangos. Anais da Conferência de Ciência e Tecnologia Avícola; 2001; Campinas, São Paulo. Brasil. Campinas: Facta; 2001. p.209-222.
Hansen W. Avian pox. In: Friend M, Franson JC. Field manual of wildlife diseases: general field procedures and diseases of wild birds. Washington: US Department of the Interior, United States Geological Survey; 1999. p. 163-170.
Hsieh YC, Chen SH, Wang CW, Lee YF, Chung WC, Tsai MC, Chang TC, Lien YY, Tsai SS. Unsual pox lesions found in Chinese jungle mynahs (Acridotheres cristatellus). Avian Pathology 2005; 34(5): 415-417.
Isa G, Pfister K, Kaaden OR, Czerny CP. Development of a monoclonal blocking ELISA for the detection of antibodies against fowlpox virus. Journal of Veterinary Medicine 2002; 49:21-23.
Jacob JP, Wilson HR, Miles RD, Butcher GD, Mather FB. Factors affecting egg production in backyard chicken flocks [Fact Sheet PS 35]. Gainsville: Animal Science Department, Florida Cooperative Extension Service, Institute of Food and Agricultural Sciences, University of Florida; 1998.
Jugessur VS, Pillay MM, Ramnauth R, Allas MJ. The socio-economic importance of family poultry production in the republic of Mauritius. In:FAO/IAEA. Improving farmyard poultry production in Africa: Interventions and their economic assessment. Vienna: IAEA; 2006. p. 164-178.
Permin A, Pedersen G. The need for a holistic view on disease problems in free-range chickens. In: FAO/IAEA. Characteristics and parameters of family poultry production in Africa. Vienna: IAEA; 2002. p.1-8.
Pledger A. Avian pox virus infection in a mourning dove. Canadian Veterinay Journal 2006; 46:1143-1145.
Santos MSV. Biosseguridade em todos os níveis [cited 09 set 2005]. Available from: http://www.aviculturaindustrial.com.br
Tanizaki E, Kotani T, Odagiri Y. Pathological changes of tracheal mucosa in chickens infected with fowl pox virus. Avian Diseases 1986; 31(1):169-175.
Timm LL. Técnicas rotineiras de preparação e análise de lâminas histológicas. Caderno La Salle XI 2005; 2(1):231-239.
Tripathy DN, Reed WM. Pox. In: Saif YM. Diseases of poultry [CD-ROM]. 11th ed. Ames: Iowa State University Press; 2003. p. 253-269.
Van Riper III C, Van Riper SG, Hansen WR. Epizootiology and effect of avian pox on Hawaiian forest birds. The Auk 2002; 119(4):929-942.
Yoshikkawa MGT, Alam J. Histopathological studies of fowl pox in bantams. International Journal of Poultry Science 2002; 1(6):197-199.

Mail Address:

Priscila Sousa da Silva

E-mail:

estrelamaior@gmail.com

Publication Dates

Publication in this collection
24 Aug 2009
Date of issue
June 2009

History

Accepted
Mar 2009
Received
Sept 2008

This work is licensed under a Creative Commons Attribution 4.0 International License.

[1] Ariyoshi R, Takase K, Matsuura Y, Deguchi K, Ginnaga A, Fujikawa H. Vaccination against fowlpox virus via drinking water. Journal of Veterinary Medical Science 2003; 65(10):1127-1130.

[2] Back A, Soncini RA, Ruthes O, Madureira Júnior S, Flores R. An atypical fowl pox outbreak in broilers in southern Brazil. Avian Diseases 1995; 39:902-906.

[3] Batinga TB. Análise sorológica e avaliação epidemiológica de salmoneloses e micoplasmoses em galinhas de quintal na Bahia [monografia]. Salvador (MG): Universidade Federal da Bahia; 2007.

[4] Batinga TB, Silva PS, César AR, Ramos I, Fernandes L. Avaliação da ocorrência de Salmoneloses e Micoplasmoses, e de seu impacto, na criação de galinhas caipiras em pequenas propriedades rurais do Estado da Bahia. Anais do 1ş Congresso Nordestino de Extensão Universitária; 2007; Salvador, Bahia. Brasil.

[5] Beytut E, Haligur M. Pathological, immunochemical, and electron microscopic findings in the respiratory tract and skin of chickens naturally infected with avipoxvirus. Turkish Journal of Veterinary Animal Science 2007; 31(1):1-7.

[6] Borja F. Métodos de estudos histológicos [citado em 12 set 2007]. Disponível em: http://www.cstr.ufcg.edu.br/histologia

[7] Butcher GD, Miles RD. Diseases prevention in commercial poultry [Fact Sheet CIR1079]. Gainsville: Florida Cooperative Extension Service, Institute of Food and Agricultural Sciences, University of Florida; 1993.

[8] Butcher GD, Rossi F. Prevention and control of fowl pox in backyard chicken flocks [Fact Sheet VM65]. Gaisnville: Florida Cooperative Extension Service, Institute of Food and Agricultural Sciences, University of Florida; 1990.

[9] Caporal FR, Costabeber JA. Agroecologia e desenvolvimento rural sustentável: perspectivas para uma nova Extensão Rural. Agroecologia e Desenvolvimento Rural Sustentável 2000; 1(1):16-37.

[10] FAO - Food Agricultural Organization. Improving farmyard poultry production in Africa: interventions and their economic assessment. Vienna: IAEA; 2006.

[11] Figueiredo EAP. Diferentes denominações e classificação brasileira de produção alternativa de frangos. Anais da Conferência de Ciência e Tecnologia Avícola; 2001; Campinas, São Paulo. Brasil. Campinas: Facta; 2001. p.209-222.

[12] Hansen W. Avian pox. In: Friend M, Franson JC. Field manual of wildlife diseases: general field procedures and diseases of wild birds. Washington: US Department of the Interior, United States Geological Survey; 1999. p. 163-170.

[13] Hsieh YC, Chen SH, Wang CW, Lee YF, Chung WC, Tsai MC, Chang TC, Lien YY, Tsai SS. Unsual pox lesions found in Chinese jungle mynahs (Acridotheres cristatellus). Avian Pathology 2005; 34(5): 415-417.

[14] Isa G, Pfister K, Kaaden OR, Czerny CP. Development of a monoclonal blocking ELISA for the detection of antibodies against fowlpox virus. Journal of Veterinary Medicine 2002; 49:21-23.

[15] Jacob JP, Wilson HR, Miles RD, Butcher GD, Mather FB. Factors affecting egg production in backyard chicken flocks [Fact Sheet PS 35]. Gainsville: Animal Science Department, Florida Cooperative Extension Service, Institute of Food and Agricultural Sciences, University of Florida; 1998.

[16] Jugessur VS, Pillay MM, Ramnauth R, Allas MJ. The socio-economic importance of family poultry production in the republic of Mauritius. In:FAO/IAEA. Improving farmyard poultry production in Africa: Interventions and their economic assessment. Vienna: IAEA; 2006. p. 164-178.

[17] Permin A, Pedersen G. The need for a holistic view on disease problems in free-range chickens. In: FAO/IAEA. Characteristics and parameters of family poultry production in Africa. Vienna: IAEA; 2002. p.1-8.

[18] Pledger A. Avian pox virus infection in a mourning dove. Canadian Veterinay Journal 2006; 46:1143-1145.

[19] Santos MSV. Biosseguridade em todos os níveis [cited 09 set 2005]. Available from: http://www.aviculturaindustrial.com.br

[20] Tanizaki E, Kotani T, Odagiri Y. Pathological changes of tracheal mucosa in chickens infected with fowl pox virus. Avian Diseases 1986; 31(1):169-175.

[21] Timm LL. Técnicas rotineiras de preparação e análise de lâminas histológicas. Caderno La Salle XI 2005; 2(1):231-239.

[22] Tripathy DN, Reed WM. Pox. In: Saif YM. Diseases of poultry [CD-ROM]. 11th ed. Ames: Iowa State University Press; 2003. p. 253-269.

[23] Van Riper III C, Van Riper SG, Hansen WR. Epizootiology and effect of avian pox on Hawaiian forest birds. The Auk 2002; 119(4):929-942.

[24] Yoshikkawa MGT, Alam J. Histopathological studies of fowl pox in bantams. International Journal of Poultry Science 2002; 1(6):197-199.

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Fowlpox: identification and adoption of prophylactic measures in backyard chickens in Bahia, Brazil

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