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Megaesophagus in sheep and goats/Megaesofago em ovinos e caprinos.


In ruminants, the esophagus is responsible for the transport of liquids and solids from mouth to stomach, for eructation and for regurgitation of the bolus for rumination (SPILLMANN, 2007). Unlike other species, in ruminants, the muscle layer of the esophagus is composed only by striated muscles (McGAVIN, 2013).

Megaesophagus is an esophageal dysfunction resulting from atony of the esophageal musculature characterized by flaccidity and luminal dilation, as a consequence of segmental or diffused motor dysfunction of the esophageal body (TORRES, 1997). Findings usually observed in the clinical examination are regurgitation of food or water, salivation, retaining of food in the esophagus, progressive weight loss, cough and nasal discharge (LONGSHORE, 2008). In ruminants, megaesophagus can cause bloat by obstructing the eructation (RADOSTITS et al., 2007). Animals with megaesophagus eventually succumb to the effects of chronic malnutrition, and have the risk of aspiration pneumonia (SPILLMANN, 2007).

The disease has been reported in several domestic species, being quite common in dogs (MILLER et al., 1983). It may be congenital and hereditary, associated to abnormalities in the development of esophageal innervation, persistence of the fourth right aortic arch or vagus nerve disorders (SHELTON et al., 2003). Congenital megaesophagus, possibly hereditary, was also reported in Murrah buffalo (DAME et al., 2013). Cases of megaesophagus can also be caused by traumas or by compression or obstruction of the esophagus by food, foreign bodies, neoplasia and hiatal hernia (VALENTINE & McGAVIN, 2013). The disease is rare in sheep and goats. In these species it was described in an one year old sheep with signs of food regurgitation (BRAUN et al., 1990) and in a 2 years old goat with regurgitation and increased neck volume (distal neck) (MOZAFFARI & VASOUGH, 2007).

This paper reports the clinical signs and gross and microscopic changes of a disease observed in two sheep and two goats in the state of Paraiba, characterized by regurgitation and megaesophagus.


The affected animals belonged to Empresa Estadual de Pesquisa Agropecuaria da Paraiba (EMEPA--Farming Research Company of the State of Paraiba) and were raised in the Experimental Station of Pendencia, located in the city of Soledade, state of Paraiba. The epidemiologic data were gathered during visits to the farm for observation of the animals and inspection of the pastures. Two sheep and two goats showing clinical signs of regurgitation were sent to the Veterinary Hospital of UFCG (Universidade Federal de Campina Grande) in the city of Patos.

A blood sample from one of the sheep (Sheep 1) was taken and sent to Instituto Biologico de Sao Paulo (Biological Institute of the State of Sao Paulo) to detect blue tongue virus antibodies by ELISA. Total blood and muscle samples from Goat 2 were sent to the Virology Laboratory of Universidade Federal de Santa Maria (Santa Maria Federal University) for detection of blue tongue virus by RT PCR using starter oligonucleotides for segment 7 of this virus. Serum samples from this goat were sent to the Instituto Biologico de Sao Paulo for detection of blue tongue antibodies by ELISA.

The four affected animals were euthanized in accordance with the Resolution number 1000 of the Brazilian Veterinary Medicine Board, from May 11th, 2012. Samples from skeletal muscles, esophagus, tongue, thyroids, peripheral lymph nodes, central nervous system and organs of the abdominal and thoracic cavities were fixed in 10% neutral formalin, embedded in paraffin, sectioned at 5 um and stained by hematoxylin and eosin for histological study


In the farm were raised 270 animals, including goats and sheep from different breeds and ages. The disease occurred between October 2010 and April 2014, in two sheep and two goats in a flock composed by 50 bucks and 40 rams, raised in semi-extensive system. Those animals were grazing every morning in a 50 hectare paddock with native caatinga pasture and led in the evening to pens where they were fed with Brachiaria grass, corn and sorghum silage, Buffel grass hay, and corn and soy concentrate. Volumous feed was offered ad libitum and the concentrate at 1% of live weight.

In October 2010 two Dopper rams (Sheep 1 and 2) showed weight loss and regurgitation, with permanent presence of rumen content in the stall floor. After 20 days from the first signs the animals were taken to the Veterinary Hospital of Universidade Federal de Campina Grande.

Sheep 1 was a 3-years-old ram and in the clinical examination we found moderate dehydration, diarrheic feces and mouth stained by regurgitated rumen content (Figure 1 A). The animal stayed in the Hospital for two months and due to the progressive weight loss it was euthanized.

Sheep 2 was a 5-years-old ram and had a less intense regurgitation than sheep 1. For two months the clinical signs remained unchanged, leading to the decision to send it back to the Experimental Station of Pendencia, where it remained with the signs until September 2011, when it was taken again to the Hospital. In a new physical exam it was noticed a difficulty to hold food and frequent regurgitation of rumen content often happening 40 to 60 minutes after ingestion of food and during the night. Due to the worsening of the clinical signs the animal was euthanized eight days after its admission in the hospital.


Goat 1 was a 2-years and 9-months-old Savanna breed buck. It was attended in the Veterinary Hospital in April 2012 with intense regurgitation and progressive weight loss. At the physical examination the animal was apathetic, thin and had difficulty to hold and swallow food. Considering the irreversibility and the seriousness of the signs, it was euthanized and sent to necropsy after one day in the hospital.

Goat 2 was a 5-years-old Alpine Brown breed buck. It was attended in the Veterinary Hospital in June 2014 with a six month regurgitation history, cough and progressive weight loss. At the clinical examination the animal was apathetic, thin and had regurgitation episodes, mainly during feeding. After 20 days in the hospital and a worsening in the clinical picture, it was euthanized. Serum samples from sheep 1 and goat 2 were negative for blue tongue virus antibodies and whole blood and muscles of goat 2 were negative to blue tongue virus by RT PCR.

During the necropsies of the four animals, esophageal dilation was observed and it was more evident in sheep 1 (Figure IB and 1C) and in goat 2. In the lung of sheep 1 the ventral lobes showed reddish, consolidated areas with yellowed multifocal nodules. Histologically the muscular layer of the esophagus showed polyphasic segmental necrosis characterized by enlarged and fragmented eosinophilic muscle fibers with loss of cross striations, with the presence of scarce macrophages randomly distributed in the lesion (Figure ID). Some muscle fibers showed clear and granulated cytoplasm, with few areas of mineralization. Several skeletal muscles showed polyphasic segmental necrosis (Figure 2) characterized by enlarged eosinophilic fibers with loss of cross striations, and nuclear pyknosis. A few fragmented degenerated fibers showed mineralized areas. Proliferation of satellite cells and mild to moderated mononuclear inflammatory infiltrate mainly composed of macrophages and lymphocytes were also observed.


In sheep 1, the semi membranosus, longissimus lumborum and biceps femoris muscles were more affected. Less severe lesions were seen in the tongue, temporal, diaphragm, psoas major and teres major muscles. Lung was congested, with mild thickening of the alveolar septa and focal to coalescent areas infiltrated by neutrophils, lymphocytes and rare epithelioid macrophages. In sheep 2, areas with moderate muscle fiber segmental necrosis were observed in masseter, semi membranosus, longissimus lumborum and triceps brachii muscles. In the diaphragm muscle the lesions were affecting a fewer number of fibers. In goat 1 the lesions were similar ranging from mild to moderate, located in all muscles collected, but more intense in the masseter, semimembranosus, longissimus lumborum and triceps brachial muscles. In goat 2 the lesions were mainly observed in the semimembranosus, cranial tibial, biceps femoris, superficial gluteal and intercostal muscles. Other organs of all animals did not show significant histological injuries.


Megaesophagus is a rare illness in ruminants whose causes are not well known (RAMADAN, 1993). In a retrospective study of 15 llamas with megaesophagus the etiology was not established for 11 animals. In two animals the illness was associated to degenerative myopathy of the esophagus, one case was attributed to vagal neuropathy and other to toxicity by organophosphorate (WATROUS et al., 1995).

Upon studying the cases in this report it was found that the clinical signs showed by the animals resulted from segmental necrosis observed in the esophageal musculature and skeletal muscles. Thus, infection by blue tongue virus, a disease that causes megaesophagus, skeletal musculature necrosis and infiltration by inflammatory cells (ANTONIAS SI et al., 2010), was considered among the presumptive diagnoses. Other causes for muscle segmental necrosis are intoxication by ionophore antibiotics and by plants such as Senna occidentalis and Senna obtusifolia (RISSI, 2010; TOKARNIA et al., 2012), in addition to selenium and vitamin E deficiency, already diagnosed in the region (AMORIM et al., 2005). However, the negative results for blue tongue in sheep 1 and goat 2 and the absence of Senna spp. in the pasture exclude both possibilities. There was no history of supplementation with ionophore antibiotics and the epidemiologic aspects and esophageal lesions were not consistent with Se and vitamin E deficiency, since such illness affects mainly rapid growing young animals and there is no record of megaesophagus in the reported clinical picture (AMORIM et al., 2005; RISSI, 2010).

One of the most distinguished aspects in those cases is the fact that, despite the most obvious clinical signs being a result of the megaesophagus, all animals showed segmental muscle necrosis in several muscles. In the description of outbreaks of intoxication by a plant of the genus Geigeria in bovine and sheep in South Africa, in addition to megaesophagus it was also observed degeneration and necrosis in skeletal and esophageal muscles (VANDER, 1993). Thus, it is possible that the cases described are due to the ingestion of a toxic plant not identified yet, since plants of the genus Geigeria are not reported in Brazil.


It was concluded that cases of megaesophagus, with skeletal muscle segmental necrosis, occurs sporadically in goats and sheep in the state of Paraiba and that the disease may be caused by a toxic plant that still unknown as a cause for muscle segmental necrosis.


The paper was approved by the ethics and animal trial committee of the Universidade Federal de Campina Grande (UFCG), process CEP 69-2013. 10.1590/0103-8478cr20151414


The authors acknowledge to Dr. Eduardo Flores from the Universidade Federal de Santa Maria (UFSM) and to Dra E.M. Pituco from the Instituto Biologico de Sao Paulo for the research on blue tongue virus. This research was financially supported by the Conselho Nacional de Desenvolvimento Cientifico e Tecnologico (CNPq) for the Control of Plant Poisonings plants (grant CNPq 573534/2008-0).


ANTONIAS SI, N.A.B, et al. Clinical and pathological changes in sheep naturally infected with bluetongue virus in Rio Grande do Sul, Brazil. Pesquisa Veterinaria Brasileira, V.30, p. 1010-1016, 2010. Available from: <http://www. ?pid=S0100736X2010001200002&script =sci_arttt>. Accessed: May 13, 2014. doi: 10.1590/S0100-736X2010001200002.

AMORIM, S.L. et al. Nutritional muscular dystrophy in sheep in Paraiba. Pesquisa Veterinaria Brasileira, v.25, p. 120-124, 2005. Available from: < php?script=sci_arttext&pid=SO 100736X2005000200010&lng= en&nrm=iso>. Accessed: Sept. 04, 2013. doi: 10.1590/S0100-736X2005000200010.

BRAUN, U. et al. Regurgitation due to megaesophagus in a ram. Canadian Veterinary Journal, v.31, p.391-392, 1990.

DAME, M.C.F. et al. Doencas hereditarias e defeitos congenitos diagnosticados em Bufalos (Bubalus bubalis) no Brasil. Pesquisa Veterinaria Brasileira, v.33, p.831-839, 2013. Available from: <http://www. ?script=sci_arttext&pid=S01007 36X201300070000l&lng=en&nrm=iso>. Accessed: Oct. 5, 2013. doi: 10.1590/S0100-736X2013000700001.

LONGSHORE, R.C. Megaesofago. In: TILLEY, L.P.; SMITH, F.W.K. Consulta Veterinaria em 5 minutos: Canina e felina. 3.ed. Sao Paulo: Manole, 2008. p.950-951.

MILLER, L.M. et al. Congenital myasthenia gravis in 13 smooth fox terriers. Journal of American Veterinary Medical Association, v. 182, p.694-697, 1983.

MOZAFFARI, A.A.; VOSOUGH, D. Idiopathic megaesophagus in a goat: clinical and radiological features. Iranian Journal of Veterinary Sugeiy, v.2, p.94-96, 2007.

RADOSTITS, O.M. et al. Veterinary Medicine. 10.ed. Elsevier: London, 2007. 2156p.

RAMADAN, R.O. Megaesophagus in a goat. Agri-Practice, v. 14, p.26-28, 1993.

RISSI, D.R. et al. Intoxicacao espontanea por antibioticos ionoforos em ovinos no Rio Grande do Sul. Pesquisa Veterinaria Brasileira, v.30, p.219-221, 2010. Available from: <http://www. ?script=sci_arttext&pid=S0100736X20100003 0005&lng=en&nrm=iso>. Accessed: Sept. 02, 2013, doi: 10.1590/ S0100-736X2010000300005.

SHELTON, G.D. Disturbios musculares e de juncao neuromuscular. In: BIRCHARD, S.J.; SHERDING R.G. Manual Saunders de clinica de pequenos animais. 2.ed. Sao Paulo: Roca, 2003. p.1438.

SPILLMANN, T. Esophageal diseases diagnostic and therapeutic approach. In: ANNUAL WSAVA CONGRESS, 32., Sydney. Proceedings ... Sydney: WSAVA Congress. 2007. Available from: < content/defaultadv l.aspx?pld=l 1242&meta=Generic& catld=31937&id=3 860784&ind=288&objTypeID= 17>. Accessed: Sept. 02, 2013.

TOKARNIA, C.H. et al. Plantas toxicas do Brasil. 2.ed. Rio de Janeiro: Helianthus, 2012. p.586.

TORRES, R Megaesophagus in the dog: a bibliographic review and a new classification proposal. Archivos de Medicina Veterinaria, v.29, n.l, 1997. Available from: < = sci_artt ext&pid = S 03 01732X1997000 100002&lng = es&nrm = iso>. Accessed: Nov. 17, 2013. doi: 10.4067/S0301-732X1997000100002.

VANDER LUGT, J.J., VAN HEERDEN, J. Experimental vereersiekte (Geigeria ornativa O. Hoffm. poisoning) in sheep. II: Histological and ultrastructural lesions. Journal of the South African Veterinary Association, v.64, n.2, p.82-88, 1993. Available from: <>. Accessed: Jun.10, 2014.

WATROUS, B.J., et al. Megaesophagus in 15 llamas: a retrospective study (1985-1993). Journal of Veterinary Internal Medicine, V.9, p.92-99, 1995. Available from: < pubmed/7760315>. Accessed: Jul. 6, 2014. doi: 10.1111/j.1939-1676.1995.tb03278.x.

VALENTINE, B.A.; McGAVIN, M.D. Skeletal muscle. In: McGAVIN, M.D.; ZACHARY, J.F. Pathologic basis of veterinary disease. 5.ed. St. Louis: Elsevier, 2013. p.871-919.

Eduardo Melo Nascimento (I) Edipo Moreira Campos (I) Lisanka Angelo Maia (I) Rosane Maria Trindade Medeiros (I) Maria Dalva Bezerra de Alcantara" Sara Dantas Vilar (I) Franklin Riet-Correa (I) * (III)

(I) Hospital Veterinario, Universidade Federal de Campina Grande (UFCG), Av. Universitaria, s/n, 58.708-110, Patos, PB, Brasil. E-mail: 'Corresponding author.

(II) Empresa Paraibana de Pesquisa Agropecuaria (EMEPA), Soledade, PB, Brasil.

(III) Instituto Nacional de Investigacion Agropecuaria (INIA), Estacion Experimental La Estanzuela, Colonia del Sacramento, Colonia, Uruguay.

Received 10.10.15

Approved 02.08.16

Returned by the author 03.28.16

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Title Annotation:patologia; texto en ingles
Author:Nascimento, Eduardo Melo; Campos, Edipo Moreira; Maia, Lisanka Angelo; Medeiros, Rosane Maria Trinda
Publication:Ciencia Rural
Date:Aug 1, 2016
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