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Characterization of coronary arteries in Giant Anteater (Myrmecophaga tridactyla: Myrmecophagidae)

Caracterização da artéria coronária em tamanduá-bandeira (Myrmecophaga tridactyla: Myrmecophagidae)]

ABSTRACT

Were used twelve (12) adult anteaters (Myrmecophaga tridactyla), adults, 6 (six) males and 6 (six) females, weighing from 20 to 27.32kg from free life. The thoracic cavity was opened until visualization of the whole heart and lungs and later injection of the coronary vessels. The right coronary artery emerged through a single coronary ostium of the aorta, 50%, emitting the intermediate branch and the subsinuous interventricular branch, had a path directed to the subsurface interventricular groove. In the other 50%, the right coronary artery was not present, showing only its branches, intermediate branch and subsurface interventricular branch with emergence of the aorta. Left coronary artery presented, in 83.33%, origin from the aorta in single ostium, issuing the circumflex and interventricular paraconal branches. In 16.66%, the left coronary artery was not evidenced originating from the aorta, but its branches, circumflex and interventricular paraconal.

Keywords:
heart; coronary artery; wild animals; giant anteaters

RESUMO

Foram utilizados 12 tamanduás-bandeira (Myrmecophaga tridactyla), adultos, sendo seis machos e seis fêmeas, pesando de 20 a 27,32kg, provenientes de vida livre. Foi realizada abertura da cavidade torácica até a visualização do conjunto coração e pulmões e, posteriormente, injeção dos vasos coronários. A artéria coronária direita emergia, 50% dela, por um único óstio coronário da aorta, emitindo o ramo intermédio e o ramo interventricular subsinuoso; tinha trajeto direcionado ao sulco interventricular subsinuoso. Nos outros 50%, a artéria coronária direita não estava presente, exibindo somente seus ramos, ramo intermédio e ramo interventricular subsinuoso com emergência da aorta. A artéria coronária esquerda apresentou, em 83,33%, origem a partir da aorta em óstio único, emitindo os ramos circunflexo e interventricular paraconal. Em 16,66%, a artéria coronária esquerda não foi evidenciada originando-se da aorta, mas, sim, de seus ramos, circunflexo e interventricular paraconal.

Palavras-chave:
coração; artéria coronária; tamanduá-bandeira

INTRODUCTION

The heart is an organ with great functional importance, considering that a great amount of the human population suffers from functional problems which might require a transplant or even new experimental and remodeling techniques (Taylor et al., 2007TAYLOR, D.O.; EDWARDS, L.B.; BOUCEK, M.M.; TRULOCK, E.P. et al. Registry of the International Society for Heart and Lung Transplantation: twenty-fourth official adult heart transplant report. 2007. J. Heart Lung Transpl., v.26, p.769-781, 2007.; Copeland et al., 2004COPELAND, J.G.; SMITH, R.G.; ARABIA, F.A. et al. Cardiac replacement with a total artificial heart as a bridge to transplantation. N. Engl. J. Med., v.351, p.859-867, 2004.; Morgan et al., 2004MORGAN, J.A.; JOHN, R.; RAO, V. et al. Bridging to transplant with the Heart Mate left ventricular assist device: the columbia presbyterian 12-year experience. J. Thoracic Cardiovasc. Surg., v.127, p.1309-1316, 2004.; Hanes et al., 2015HANES, D.W.; WONG, M.L.; CHANG, C.J. et al. Embolization of the first diagonal branch of the left anterior descending coronary artery as a porcine model of chronic trans-mural myocardial infarction. J. Transl. Med., v.13, p.187, 2015.). The organ has a specialized arterial supply, the right and left coronary arteries, which originate from the aorta (Schummer et al., 1981SCHUMMER, A.; WILKENS, H.; VOLLMERHAUS, B.; HABERMEHL, K.H. The circulatory system, the skin, and the cutaneous organs of the domestic mammals. In: NICKEL, R.; SCHUMMER, A.; SEIFERLE, E. (Eds.). The Anatomy of the domestic animals. Berlin: Paul Parey, 1981. p.52-53.; Ghoshal and Getty, 1986GHOSHAL, N.G.; GETTY, R. Coração e artérias do carnívoro. In: GETTY, R. Sisson/Grossman anatomia dos animais domésticos. Rio de Janeiro: Guanabara Koogan, 1986. p.1497-1550.; Ghoshal, 1986, Oliveira, 2013OLIVEIRA, M.C., HERNANDEZ, J.M.F.; ABIDU-FIGUEIREDO, M. Morfometria cardíaca e distribuição das artérias coronárias em bovinos mestiços. Biotemas, v.26, n.2, p.199-207, 2013.).

These arteries can vary as to their origin, path and number (Schlesinger et al., 1949SCHLESINGER, M.J.; ZOLL, P.M.; WESSLER, S. The conus artery: a third coronary artery. Am. Heart J. v.38, p.823-836, 1949.; Cervený and Kaman, 1963CERVENÝ, C.; KAMAN, J. Common stem of coronary arteries in a calf. Anat. Anz., v.113, p.29, 1963.; Schummer et al., 1981SCHUMMER, A.; WILKENS, H.; VOLLMERHAUS, B.; HABERMEHL, K.H. The circulatory system, the skin, and the cutaneous organs of the domestic mammals. In: NICKEL, R.; SCHUMMER, A.; SEIFERLE, E. (Eds.). The Anatomy of the domestic animals. Berlin: Paul Parey, 1981. p.52-53.; Ghoshal and Getty, 1986GHOSHAL, N.G.; GETTY, R. Coração e artérias do carnívoro. In: GETTY, R. Sisson/Grossman anatomia dos animais domésticos. Rio de Janeiro: Guanabara Koogan, 1986. p.1497-1550.; Vicentini et al., 1991VICENTINI, C.A.; ORSI, A.M.; DIAS, S.M. Anatomical observations of the coronary artery vascularization in the guinea pigs (Cavia porcellus, L.). Anat. Anz., v.172, p.209-212, 1991.; Valentina et al., 2003VALENTINA, N.; SLOBODAN, M.; MALIŠ, M.; GORDANA, T.P.; STANKOVIĆ, I. Distribution of left coronary artery branches in the african green monkey. Acta Vet., v.53, p.139-150, 2003.; Olabu et al., 2007OLABU, B.O.; SAIDI, H.S.; HASSANALI, J.; OGENG’O, J.A. Prevalence and distribution of the third coronary artery in Kenyans. Int. J. Morphol., v.25, p.851-854, 2007.; Yuan et al., 2009YUAN, G.; MA, J.; YE, W.; BAI, Z.; WANG, J. Macroanatomy of coronary arteries in Bactrian camel (Camelus bactrianus). Vet. Res. Commun., v.33, p.367-377, 2009.; Agustin et al., 2010AGUSTIN J.A.; MARCOS-ALBERCA, P.; HERNÁNDEZ-ANTOLÍN, R. et al. Circulación colateral de arteria conal a descendente anterior: valoración con tomografía coronaria multidetector. Rev. Esp. Cardiol., v.63, p.347-51, 2010., Srour, 2011SROUR, H.A. Origin and ventricular ramifications of the left coronary artery in capuchin monkey (Cebus apella). 2011. 36f. Dissertação (Mestrado em Ciências Agrárias) - Universidade Federal de Uberlândia, Uberlândia, 2011.; Kareem et al., 2014KAREEM, H.; DEVASIA, T.; PRASAD, R.; PAI, U. Dual left anterior descending artery circulation: a rare anomaly of the coronary arteries: case reports. BMJ, v.2014, p.bcr2014205053.)) and they can be presented completely intramyocardial (Sans Coma et al., 1993) or partially (Bezerra et al.,1985BEZERRA, A.J.; DIDIO, A.S.; DIDIO, L.J. Bridges of myocardium over branches of the coronary arteries in Camelus dromedarius. Arch. Anat. Ital. Embriol., v.90, n.4, p.267-274, 1985. and Machado et al., 2002MACHADO, M.R.F.; BORGES, E.M.; OLIVEIRA, F.S. et al. Intramyocardial course of the coronary arteries in the marsh deer (Blastocerus dichotomus). Braz. J. Vet. Res. Anim. Sci., v.39, p.285-287, 2002.). In instances where part of the artery is covered by the myocardium, structures called myocardial bridges can be observed and their functions are widely discussed (Berg, 1964BERG, R. Beitrag zur phylogenese des verhaltens der koronarterien zum myokard beim hausschwein (Sus scrofa domesticus). Anat. Anz., v.115, p.184-192, 1964. and Corban et al., 2014CORBAN, M.T.; HUNG, O.Y.; ESHTEHARDI, P. et al. Myocardial bridging: contemporary understanding of pathophysiology with implications for diagnostic and therapeutic strategies. J. Am. Coll. Cardiol., v.63, p.2346-2355, 2014.).

The right and left coronary arteries emerge from the aorta, each one presenting a single coronary ostium (Schummer et al., 1981SCHUMMER, A.; WILKENS, H.; VOLLMERHAUS, B.; HABERMEHL, K.H. The circulatory system, the skin, and the cutaneous organs of the domestic mammals. In: NICKEL, R.; SCHUMMER, A.; SEIFERLE, E. (Eds.). The Anatomy of the domestic animals. Berlin: Paul Parey, 1981. p.52-53.; Ghoshal and Getty, 1986GHOSHAL, N.G.; GETTY, R. Coração e artérias do carnívoro. In: GETTY, R. Sisson/Grossman anatomia dos animais domésticos. Rio de Janeiro: Guanabara Koogan, 1986. p.1497-1550.; Ghoshal, 1986, Valentina et al. 2003VALENTINA, N.; SLOBODAN, M.; MALIŠ, M.; GORDANA, T.P.; STANKOVIĆ, I. Distribution of left coronary artery branches in the african green monkey. Acta Vet., v.53, p.139-150, 2003. and Oliveira et al., 2013OLIVEIRA, M.C., HERNANDEZ, J.M.F.; ABIDU-FIGUEIREDO, M. Morfometria cardíaca e distribuição das artérias coronárias em bovinos mestiços. Biotemas, v.26, n.2, p.199-207, 2013.). There are cases in calves and humans with only one coronary artery being responsible for the whole heart’s irrigation, presenting only one ostium from the aorta (Cervený and Kaman, 1963CERVENÝ, C.; KAMAN, J. Common stem of coronary arteries in a calf. Anat. Anz., v.113, p.29, 1963. and Koizumi et al., 2000KOIZUMI, M.; KAWAI, K.; HONMA, S.; KODAMA, K. Anatomical study of a left single coronary artery with special reference to the various distribution patterns of bilateral coronary arteries. Ann. Anat. Anat. Anz., v.182, p.549-557, 2000.) and in the Syrian Hamster and man, where the left coronary artery is absent, presenting only the branches originating from the aorta (Durán et al., 2006DURÁN, A.C.; FERNÁNDEZ-GALLEGO, T.; FERNÁNDEZ, B. et al. Anomalous origin of the left coronary artery from the right side of the aortic valve in Syrian hamsters (Mesocricetus auratus). J. Pathol., v.134, p.290-296, 2006. and Ajayi et al., 2015AJAYI, N.O.; LAZARUS, L.; VANKER, E.A.; SATYAPAL, K.S. Absent left main coronary artery with variation in the origin of its branches in a South African population. Anat. Histol. Embryol., v.44, p.81-85, 2015.).

The left coronary artery is divided into paraconal interventricular branch and circumflex branch in donkeys (Ozgel et al., 2004OZGEL, O.; HALIGUR, A.; DURSUN, A.; KARAKURUM, E. The macroanatomy of coronary arteries in donkeys (Equus asinus L.). Anat. Histol. Embryol., v.33, p.278-283, 2004.), North American beavers ((Bisaillon, 1981BISAILLON, A. Gross anatomy of the cardiac blood vessels in the North American beaver (Castor canadensis). Anat. Anz., v.150, n.3, p.248-258, 1981.), rabbits (Dursun et al., 1996DURSUN, N.; YILDIZ, D.; KABAK, M. Yeni Zelanda tavsaninda (Oryctolagus cuniculus L.) septum interventriculare`nin arteriel vaskularizasyonu. Ankara Oniv. Vet. Fak. Derg., v.43, p.391-395,1996.), crab-eating macaques (Buss et al., 1982BUSS, D.D.; HYDE, D.M.; POULOS, P.W. Coronary artery distribution in bonnet monkeys (Macaca radiata). Anat. Rec., v.203, p.411-417, 1982.; Mandarim and Hureau, 1986; Teofilovski-Parapid et al., 1993; Shimada et al., 1994SHIMADA, K.; SATO, I.; INOKUCHI, S.; TEOFILOVSKI-PARAPID, G. Distribution of the coronary arteries in monkey (Macaca fuscate, Cercopithecus aethiops). In: FEDERATIVE INTERNATIONAL CONGRESS OF ANATOMY, 14., Lisbon. Proceedings… Lisbon: [s.n.], 1994. Abstract, p.288.; Teofilovski-Parapid and Kreclovi, 1998), ruminants (Schummer et al., 1981SCHUMMER, A.; WILKENS, H.; VOLLMERHAUS, B.; HABERMEHL, K.H. The circulatory system, the skin, and the cutaneous organs of the domestic mammals. In: NICKEL, R.; SCHUMMER, A.; SEIFERLE, E. (Eds.). The Anatomy of the domestic animals. Berlin: Paul Parey, 1981. p.52-53.; Ghoshal and Getty, 1986GHOSHAL, N.G.; GETTY, R. Coração e artérias do carnívoro. In: GETTY, R. Sisson/Grossman anatomia dos animais domésticos. Rio de Janeiro: Guanabara Koogan, 1986. p.1497-1550.; Oliveira et al., 2013OLIVEIRA, M.C., HERNANDEZ, J.M.F.; ABIDU-FIGUEIREDO, M. Morfometria cardíaca e distribuição das artérias coronárias em bovinos mestiços. Biotemas, v.26, n.2, p.199-207, 2013.), spotted pacas (Ávila et al., 2009ÁVILA, B.H.P.; MACHADO, M.R.F.; GERBASI, S.H.B.; OLIVEIRA, F.S. As artérias coronárias da paca (Agouti рaca Linnaeus, 1766). Biotemas, v.22, p.159-162, 2009.), porcupines (Atalar et al., 2003ATALAR, Ö.; YILMAZ, S.; BURMA, O.; ILKAY, E. The macroanatomical investigations on the aortic arch in porcupines (Hystrix cristata). Anat. Histol. Embryol., v.32, p.367-369, 2003.) and pigs (Moura-Junior et al., 2008), or it can trifurcate into another branch in rodents in a frequency up to 45% (Aikawa and Kawano, 1985AIKAWA, E.; KAWANO, J. Genetic basis of the “posterior” coronary artery in mice. In: INTERNATIONAL ANATOMICAL CONGRESS, 12., 1985, London. Proceedings… London: [s.n.], 1985. Abstracts, p.4.; Sans Coma et al., 1993) and green monkey (Valentina et al., 2003VALENTINA, N.; SLOBODAN, M.; MALIŠ, M.; GORDANA, T.P.; STANKOVIĆ, I. Distribution of left coronary artery branches in the african green monkey. Acta Vet., v.53, p.139-150, 2003.). This branch can be named diagonal (Baptista et al., 1991BAPTISTA, C.A.C.; DIDIO, L.J.A.; PRATES, J.C. Types of division of the left coronary artery and the ramus diagonalis of the human heart. Jpn. Heart J., v.32, p.323-335, 1991.; Moura-Junior et al., 2008; Sahni et al., 2008SAHNI, D.; KAUR, G.D.; JIT, H.; JIT, I. Anatomy and distribution of coronary arteries in pig in comparison with man. Indian J. Med. Res., v.127, p.564-570, 2008.; Oliveira et al., 2010; Oliveira et al., 2013), ramus marginalis sinister (Valentina et al., 2003), obtuse marginal artery (Durán et al., 2006DURÁN, A.C.; FERNÁNDEZ-GALLEGO, T.; FERNÁNDEZ, B. et al. Anomalous origin of the left coronary artery from the right side of the aortic valve in Syrian hamsters (Mesocricetus auratus). J. Pathol., v.134, p.290-296, 2006.) or ramus marginis concavi (Yuan et al., 2009YUAN, G.; MA, J.; YE, W.; BAI, Z.; WANG, J. Macroanatomy of coronary arteries in Bactrian camel (Camelus bactrianus). Vet. Res. Commun., v.33, p.367-377, 2009.).

The right coronary artery is presented with different patterns among species, which can have the subsinuosal interventricular branch in pigs and horses and in dogs and ruminants, the circumflex branch (Schummer et al., 1981SCHUMMER, A.; WILKENS, H.; VOLLMERHAUS, B.; HABERMEHL, K.H. The circulatory system, the skin, and the cutaneous organs of the domestic mammals. In: NICKEL, R.; SCHUMMER, A.; SEIFERLE, E. (Eds.). The Anatomy of the domestic animals. Berlin: Paul Parey, 1981. p.52-53.; Ghoshal and Getty, 1986GHOSHAL, N.G.; GETTY, R. Coração e artérias do carnívoro. In: GETTY, R. Sisson/Grossman anatomia dos animais domésticos. Rio de Janeiro: Guanabara Koogan, 1986. p.1497-1550.; Ozgel et al., 2004OZGEL, O.; HALIGUR, A.; DURSUN, A.; KARAKURUM, E. The macroanatomy of coronary arteries in donkeys (Equus asinus L.). Anat. Histol. Embryol., v.33, p.278-283, 2004.). In camels there can be the ramus cone arteriosi, which is directed to the arterial cone towards the cardiac apex (Yan et al., 2009).

Apart from the heart’s importance to the organism function, Myrmecophaga tridactyla is included in the “vulnerable” category on the List of Brazilian Fauna Threatened Species (MMA 2003 and Medri and Mourão, 2008MEDRI, I.M.; MOURÃO, G. Myrmecophaga tridactyla (Tamanduá-bandeira). Livro vermelho da fauna brasileira ameaçada de extinção. Brasília: MMA, 2008. p.711-713.), being listed on the “Apendix II” of CITES (Brasil, 2009). Nowadays this species is included in the “vulnerable” category of The IUNC Red List of Threatened Species (Red…, 2012).

Given the great importance of this species and the need for comparative studies, this research describes the vascular architecture of the coronary arteries, aiming to establish a coronary pattern of the species.

MATERIALS AND METHODS

This study analized 12 adult Giant anteaters (Myrmecophaga tridactyla), 6 them were males and 6 females, weighing from 20 to 27,32kg. All animals were free-living and were donated by the Department of Wildlife Clinical and Surgical Care (SACCAS) of the Veterinary Hospital “Dr. Halim Atique” and properly sent to the Veterinary Anatomy Laboratory from the University Center of Rio Preto (UNIRP). The research had authorization of the Ethics Committee on Animal Use from the Faculty of Veterinary Medicine and Animal Science, University of Sao Paulo nº 2583/2012.

The thoracic cavity was opened by a scalpel incision of the skin and muscles and removal of the sternum by rupturing the costochondral joints. Subsequently, the heart and lungs were identified. The set of lungs and heart was removed and after isolating the heart it was performed the injection of a latex substance1 colored with a specific pigment2 at the origin of both coronary arteries, then fixated in a 10% Formaldehyde solution for 72 hours. After this time, the coronary arteries were dissected, and the results found in each specimen were registered. The Nomina Anatomica Veterinária (2017) for the description of the anatomical structures.

RESULTS

In 50.0% of the animals studied the right coronary artery emerged through a single coronary ostium of the aorta emitting the intermediate branch, which continues under the arterial cone towards the cardiac apex, and the subsinuous interventricular branch, which had a path directed to the subsurface interventricular groove (Figure 1). In the other 50.0% the right coronary artery was absent, showing only its branches, the intermediate branch and subusinuosal interventricular branch emerging from the aorta (Figure 2A e 2B), taking the same trajectory. It always presented its trajectory superficial to the epicardium.

Figure 1
Photograph of the atrial face of the giant anteater heart (Myrmecophaga tridactyla). Observe the right coronary artery (arrow) by issuing the interventricular subsinuous branch (ISR) and the intermediate branch (IR), right ventricle (RV) and Left ventricle (LV).

Figure 2
A) Photograph of the right coronary ostio (RCO) of the Giant Anteater, resulting in the right circumflex branch and the conal artery. (20X magnification). B) Photograph of the heart base of the giant anteater (Myrmecophaga tridactyla). We observe the right auricle (RA), left auricle (LA), aorta (A), pulmonary trunk (PT), right coronary artery (RCA), conal artery (CA), interventricular paraconal branch (IPB) and left circumflex branch (LCB).

The left coronary artery has its trajectory upon the epicardium and presented, in 83.33% of the cases, its origin from the aorta in a single ostium, emitting the circumflex and paraconal interventricular branches (Figure 3). The circumflex branch ran through the coronary sulcus in cranial directon, when in the cranial border of the organ, emitted the left marginal artery. The paraconal interventricular branch coursed the paraconal interventricular sulcus ending at the cardiac apical incisure. This branch emitted during its trajectory the intermediate branch, which is more evident and several septal branches (Figure 4). In 16.66%, the left coronary artery was not detected originating from the aorta, but from its circumflex and paraconal branches, presenting ostio emerging directly from the aorta (Figure 2).

Figure 3
Photograph of the heart base of the Giant Anteater. We observe the left auricle (LA), aorta (A), pulmonary trunk (PT), right coronary artery (RCA), conal artery (CA), left coronary artery (LCA), interventricular paraconal branch (IPB) and left circumflex branch (LCB).

Figure 4
Photograph of the cranial face of the heart of the Giant Anteater. We observe the left circumflex branch (LCB) starting the left marginal artery (LMA), which goes towards the cardiac apex (LV).

DISCUSSION

The right and left coronary arteries were present superficially to the epicardium and it was not observed deepening vessels in any of the animals as related in other species Sans Coma et al. (1993), Bezerra et al. (1985BEZERRA, A.J.; DIDIO, A.S.; DIDIO, L.J. Bridges of myocardium over branches of the coronary arteries in Camelus dromedarius. Arch. Anat. Ital. Embriol., v.90, n.4, p.267-274, 1985.), Machado et al. (2002MACHADO, M.R.F.; BORGES, E.M.; OLIVEIRA, F.S. et al. Intramyocardial course of the coronary arteries in the marsh deer (Blastocerus dichotomus). Braz. J. Vet. Res. Anim. Sci., v.39, p.285-287, 2002.). They are the heart suppliers, beginning in the right and left aortic sinuses, therefore, occupying the atrioventricular and interventricular coronary sulcus (Schummer et al., 1981SCHUMMER, A.; WILKENS, H.; VOLLMERHAUS, B.; HABERMEHL, K.H. The circulatory system, the skin, and the cutaneous organs of the domestic mammals. In: NICKEL, R.; SCHUMMER, A.; SEIFERLE, E. (Eds.). The Anatomy of the domestic animals. Berlin: Paul Parey, 1981. p.52-53.; Ghoshal and Getty, 1986GHOSHAL, N.G.; GETTY, R. Coração e artérias do carnívoro. In: GETTY, R. Sisson/Grossman anatomia dos animais domésticos. Rio de Janeiro: Guanabara Koogan, 1986. p.1497-1550.; Valentina et al., 2003VALENTINA, N.; SLOBODAN, M.; MALIŠ, M.; GORDANA, T.P.; STANKOVIĆ, I. Distribution of left coronary artery branches in the african green monkey. Acta Vet., v.53, p.139-150, 2003.; Oliveira et al., 2013OLIVEIRA, M.C., HERNANDEZ, J.M.F.; ABIDU-FIGUEIREDO, M. Morfometria cardíaca e distribuição das artérias coronárias em bovinos mestiços. Biotemas, v.26, n.2, p.199-207, 2013.) including in giant anteaters.

The right coronary artery was observed with its emission from the aorta as reported by Banchi (1904BANCHI, A. Morfologia delle arteriae coronariae cordis. Arch. Ital. Anat. Embriol., v.3, p.164, 1904.), Abramson and Eisenberg (1935ABRAMSON, D.I.; EISENBERG, I.J. The coronary blood supply in the Rhesus monkey. J. Anat., v.69, p.520-525, 1935.), Schlesinger et al. (1949SCHLESINGER, M.J.; ZOLL, P.M.; WESSLER, S. The conus artery: a third coronary artery. Am. Heart J. v.38, p.823-836, 1949.), Ghoshal and Getty, (1986GHOSHAL, N.G.; GETTY, R. Coração e artérias do carnívoro. In: GETTY, R. Sisson/Grossman anatomia dos animais domésticos. Rio de Janeiro: Guanabara Koogan, 1986. p.1497-1550.), Vicentini et al. (1991VICENTINI, C.A.; ORSI, A.M.; DIAS, S.M. Anatomical observations of the coronary artery vascularization in the guinea pigs (Cavia porcellus, L.). Anat. Anz., v.172, p.209-212, 1991.), Machado et al. (2002MACHADO, M.R.F.; BORGES, E.M.; OLIVEIRA, F.S. et al. Intramyocardial course of the coronary arteries in the marsh deer (Blastocerus dichotomus). Braz. J. Vet. Res. Anim. Sci., v.39, p.285-287, 2002.), Pérez and Lima (2006PÉREZ, W.; LIMA, M. Anatomia cardíaca de Pontoporia blainvillei. Int. J. Morphol., v.24, p.351-356, 2006.), Rade et al. (2006RADE, W.; PEREIRA, W.F.; CARNEIRO, F.O. Origem, trajeto, distribuição e ramificações dos ramos ventriculares da artéria coronária direita no macaco prego (Cebus apella). Biosci. J., v.22, p.133-137, 2006.), Olabu et al. (2007OLABU, B.O.; SAIDI, H.S.; HASSANALI, J.; OGENG’O, J.A. Prevalence and distribution of the third coronary artery in Kenyans. Int. J. Morphol., v.25, p.851-854, 2007.), Moura-Junior et al. (2008), Yuan et al. (2009YUAN, G.; MA, J.; YE, W.; BAI, Z.; WANG, J. Macroanatomy of coronary arteries in Bactrian camel (Camelus bactrianus). Vet. Res. Commun., v.33, p.367-377, 2009.), Agustín et al. (2010)), Tenani et al. (2010TENANI, S.C.; MELO, A.P.F.; RODRIGUES, R.F. Estudo da vascularização arterial em corações de capivara (Hydrochaeris hydrochaeris-Carleton, MD 1984). Braz. J. Vet. Res. Anim. Sci., v.47, p.203-207, 2010.), Srour (2011SROUR, H.A. Origin and ventricular ramifications of the left coronary artery in capuchin monkey (Cebus apella). 2011. 36f. Dissertação (Mestrado em Ciências Agrárias) - Universidade Federal de Uberlândia, Uberlândia, 2011.) and Oliveira et al. (2013OLIVEIRA, M.C., HERNANDEZ, J.M.F.; ABIDU-FIGUEIREDO, M. Morfometria cardíaca e distribuição das artérias coronárias em bovinos mestiços. Biotemas, v.26, n.2, p.199-207, 2013.). It is worth mentioning this statement was evidenced in 50% of the animals studied. In 16.66% of the cases, in Giant Anteaters, the left coronary artery was absent, presenting only its paraconal interventricular and circumflex branches, a fact also observed by Vicentini (1991), who evidenced in guinea pigs four branches originating from the aorta, and by Tenani et al. (2010) in capybaras, where in 3.3% of the cases the paraconal interventricular and circumflex branches of the left coronary artery have their origin directly from the aorta. In 50% of the Giant Anteaters, the right coronary artery presented only its branches emerging from the aorta, this variation was also reported in other mammal species, like the Syrian hamster (Durán et al., 2006DURÁN, A.C.; FERNÁNDEZ-GALLEGO, T.; FERNÁNDEZ, B. et al. Anomalous origin of the left coronary artery from the right side of the aortic valve in Syrian hamsters (Mesocricetus auratus). J. Pathol., v.134, p.290-296, 2006.) and even in humans (Ajayi et al., 2014). This variation, as to the presence, was evidenced in Syrian hamster with a lot of consanguinity (Durán et al., 2006), which could also happen in Giant Anteaters, considering they are found in the “vulnerable” list of animals. The subsinuosal interventricular branch, which is one of the branches of the right coronary artery, is similar to those of swines and equines (Schummer et al., 1981SCHUMMER, A.; WILKENS, H.; VOLLMERHAUS, B.; HABERMEHL, K.H. The circulatory system, the skin, and the cutaneous organs of the domestic mammals. In: NICKEL, R.; SCHUMMER, A.; SEIFERLE, E. (Eds.). The Anatomy of the domestic animals. Berlin: Paul Parey, 1981. p.52-53. and Ghoshal and Getty, 1986) donkeys (Ozgel et al., 2004OZGEL, O.; HALIGUR, A.; DURSUN, A.; KARAKURUM, E. The macroanatomy of coronary arteries in donkeys (Equus asinus L.). Anat. Histol. Embryol., v.33, p.278-283, 2004.) and Angora rabbits (Bahar et al., 2007BAHAR, S.; OZDEMIR, V.; EKEN, E.; TIPIRDAMAZ, S. The distribution of the coronary arteries in the Angora rabbit. Anat. Histol. Embryol., v.36, p.321-327, 2007.).

The other branch was named intermediate branch due to the fact of the Nomina Anatomica Veterinária (2017) report the presence of the branch in the left coronary artery, and, in Giant Anteaters, this branch presents itself basically at the same position of this branch of the left coronary artery. This vessel was reported in Angora rabbits (Bahar et al., 2007BAHAR, S.; OZDEMIR, V.; EKEN, E.; TIPIRDAMAZ, S. The distribution of the coronary arteries in the Angora rabbit. Anat. Histol. Embryol., v.36, p.321-327, 2007.), also belonging to the right coronary artery as the r. intermedius atrii desxtri, in donkeys (Ozgel et al., 2004OZGEL, O.; HALIGUR, A.; DURSUN, A.; KARAKURUM, E. The macroanatomy of coronary arteries in donkeys (Equus asinus L.). Anat. Histol. Embryol., v.33, p.278-283, 2004.) as the ramus marginalis convexi and in camels Yuan et al. (2009YUAN, G.; MA, J.; YE, W.; BAI, Z.; WANG, J. Macroanatomy of coronary arteries in Bactrian camel (Camelus bactrianus). Vet. Res. Commun., v.33, p.367-377, 2009.) as the ramus cone arteriosi. In carnivores, sometimes an accessory right coronary artery emerged from the aorta, close to the origin of the right coronary artery, and that normally ended around the arterial cone (Ghoshal and Getty, 1986GHOSHAL, N.G.; GETTY, R. Coração e artérias do carnívoro. In: GETTY, R. Sisson/Grossman anatomia dos animais domésticos. Rio de Janeiro: Guanabara Koogan, 1986. p.1497-1550.). The same observation was found in humans (Schlesinger et al. 1949SCHLESINGER, M.J.; ZOLL, P.M.; WESSLER, S. The conus artery: a third coronary artery. Am. Heart J. v.38, p.823-836, 1949.), however, describing the existence of a third coronary artery, the conal artery, with direct origin from the aorta or with its origin in the right coronary artery. As reported above, in 50% of the Giant Anteaters, it was evidenced the intermediate branch emerging directly from the aorta. This artery has the function of nurturing the arterial cone region, besides being an alternative route of blood supply (Schlesinger et al. 1949; Vicentini et al., 1991VICENTINI, C.A.; ORSI, A.M.; DIAS, S.M. Anatomical observations of the coronary artery vascularization in the guinea pigs (Cavia porcellus, L.). Anat. Anz., v.172, p.209-212, 1991.; Olabu et al., 2007OLABU, B.O.; SAIDI, H.S.; HASSANALI, J.; OGENG’O, J.A. Prevalence and distribution of the third coronary artery in Kenyans. Int. J. Morphol., v.25, p.851-854, 2007.; Yuan et al., 2009; Agustín et al., 2010 and Srour, 2011SROUR, H.A. Origin and ventricular ramifications of the left coronary artery in capuchin monkey (Cebus apella). 2011. 36f. Dissertação (Mestrado em Ciências Agrárias) - Universidade Federal de Uberlândia, Uberlândia, 2011.). In the present study, it was observed in 100% of the hearts from the Giant Anteaters the presence of the intermediate branch, where 50% presented its own coronary ostium from the aorta and in the other 50% with its origin from a common ostium with the right coronary artery.

The left coronary artery was present in 83,66% of the cases in Giant Anteaters, dividing itself in circumflex and paraconal interventricular branches as well as in donkeys (Ozgel et al., 2004OZGEL, O.; HALIGUR, A.; DURSUN, A.; KARAKURUM, E. The macroanatomy of coronary arteries in donkeys (Equus asinus L.). Anat. Histol. Embryol., v.33, p.278-283, 2004.), guinea pigs (Vicentini et al., 1991VICENTINI, C.A.; ORSI, A.M.; DIAS, S.M. Anatomical observations of the coronary artery vascularization in the guinea pigs (Cavia porcellus, L.). Anat. Anz., v.172, p.209-212, 1991.), capybaras (Tenani et al., 2010TENANI, S.C.; MELO, A.P.F.; RODRIGUES, R.F. Estudo da vascularização arterial em corações de capivara (Hydrochaeris hydrochaeris-Carleton, MD 1984). Braz. J. Vet. Res. Anim. Sci., v.47, p.203-207, 2010.), North American beavers (Bisaillon, 1981BISAILLON, A. Gross anatomy of the cardiac blood vessels in the North American beaver (Castor canadensis). Anat. Anz., v.150, n.3, p.248-258, 1981.), camels (Yuan et al., 2009YUAN, G.; MA, J.; YE, W.; BAI, Z.; WANG, J. Macroanatomy of coronary arteries in Bactrian camel (Camelus bactrianus). Vet. Res. Commun., v.33, p.367-377, 2009.), rabbits (Dursun et al., 1996DURSUN, N.; YILDIZ, D.; KABAK, M. Yeni Zelanda tavsaninda (Oryctolagus cuniculus L.) septum interventriculare`nin arteriel vaskularizasyonu. Ankara Oniv. Vet. Fak. Derg., v.43, p.391-395,1996.); dolphins (Pérez and Lima 2006PÉREZ, W.; LIMA, M. Anatomia cardíaca de Pontoporia blainvillei. Int. J. Morphol., v.24, p.351-356, 2006.), monkeys (Abramson and Eisenberg 1935ABRAMSON, D.I.; EISENBERG, I.J. The coronary blood supply in the Rhesus monkey. J. Anat., v.69, p.520-525, 1935.; Buss et al., 1982BUSS, D.D.; HYDE, D.M.; POULOS, P.W. Coronary artery distribution in bonnet monkeys (Macaca radiata). Anat. Rec., v.203, p.411-417, 1982.; Mandarim and Hureau, 1986; Teofilovski-Parapid et al., 1993; Shimada et al., 1994SHIMADA, K.; SATO, I.; INOKUCHI, S.; TEOFILOVSKI-PARAPID, G. Distribution of the coronary arteries in monkey (Macaca fuscate, Cercopithecus aethiops). In: FEDERATIVE INTERNATIONAL CONGRESS OF ANATOMY, 14., Lisbon. Proceedings… Lisbon: [s.n.], 1994. Abstract, p.288.; Teofilovski-Parapid and Kreclovi 1998; Rade et al., 2006RADE, W.; PEREIRA, W.F.; CARNEIRO, F.O. Origem, trajeto, distribuição e ramificações dos ramos ventriculares da artéria coronária direita no macaco prego (Cebus apella). Biosci. J., v.22, p.133-137, 2006.), spotted pacas (Ávila et al., 2009ÁVILA, B.H.P.; MACHADO, M.R.F.; GERBASI, S.H.B.; OLIVEIRA, F.S. As artérias coronárias da paca (Agouti рaca Linnaeus, 1766). Biotemas, v.22, p.159-162, 2009.), porcupines (Atalar et al., 2003ATALAR, Ö.; YILMAZ, S.; BURMA, O.; ILKAY, E. The macroanatomical investigations on the aortic arch in porcupines (Hystrix cristata). Anat. Histol. Embryol., v.32, p.367-369, 2003. and Srour, 2011SROUR, H.A. Origin and ventricular ramifications of the left coronary artery in capuchin monkey (Cebus apella). 2011. 36f. Dissertação (Mestrado em Ciências Agrárias) - Universidade Federal de Uberlândia, Uberlândia, 2011.), ruminants (Schummer et al., 1981SCHUMMER, A.; WILKENS, H.; VOLLMERHAUS, B.; HABERMEHL, K.H. The circulatory system, the skin, and the cutaneous organs of the domestic mammals. In: NICKEL, R.; SCHUMMER, A.; SEIFERLE, E. (Eds.). The Anatomy of the domestic animals. Berlin: Paul Parey, 1981. p.52-53.; Ghoshal and Getty, 1986GHOSHAL, N.G.; GETTY, R. Coração e artérias do carnívoro. In: GETTY, R. Sisson/Grossman anatomia dos animais domésticos. Rio de Janeiro: Guanabara Koogan, 1986. p.1497-1550.; Machado et al., 2002MACHADO, M.R.F.; BORGES, E.M.; OLIVEIRA, F.S. et al. Intramyocardial course of the coronary arteries in the marsh deer (Blastocerus dichotomus). Braz. J. Vet. Res. Anim. Sci., v.39, p.285-287, 2002.; Oliveira, et al., 2013OLIVEIRA, M.C., HERNANDEZ, J.M.F.; ABIDU-FIGUEIREDO, M. Morfometria cardíaca e distribuição das artérias coronárias em bovinos mestiços. Biotemas, v.26, n.2, p.199-207, 2013.) and swines (Moura-Junior et al., 2008). In 16.66% of the cases, this vessel did not present its origin from the aorta, but only its branches, a fact that has not been reported in literature. It was not observed absence of the left coronary artery, as reported in Syrian hamsters (Durán et al., 2006DURÁN, A.C.; FERNÁNDEZ-GALLEGO, T.; FERNÁNDEZ, B. et al. Anomalous origin of the left coronary artery from the right side of the aortic valve in Syrian hamsters (Mesocricetus auratus). J. Pathol., v.134, p.290-296, 2006.) and humans (Ajayi et al., 2015AJAYI, N.O.; LAZARUS, L.; VANKER, E.A.; SATYAPAL, K.S. Absent left main coronary artery with variation in the origin of its branches in a South African population. Anat. Histol. Embryol., v.44, p.81-85, 2015.), or even the artery presenting itself duplicated (Kareem et al., 2014KAREEM, H.; DEVASIA, T.; PRASAD, R.; PAI, U. Dual left anterior descending artery circulation: a rare anomaly of the coronary arteries: case reports. BMJ, v.2014, p.bcr2014205053.).

As for the fact of the heart presenting a single vessel responsible for its supply such as in calves (Cervený and Kaman, 1963CERVENÝ, C.; KAMAN, J. Common stem of coronary arteries in a calf. Anat. Anz., v.113, p.29, 1963.), Syrian hamsters (Durán et al., 2006DURÁN, A.C.; FERNÁNDEZ-GALLEGO, T.; FERNÁNDEZ, B. et al. Anomalous origin of the left coronary artery from the right side of the aortic valve in Syrian hamsters (Mesocricetus auratus). J. Pathol., v.134, p.290-296, 2006.) or even in humans Koizumi et al. (2000KOIZUMI, M.; KAWAI, K.; HONMA, S.; KODAMA, K. Anatomical study of a left single coronary artery with special reference to the various distribution patterns of bilateral coronary arteries. Ann. Anat. Anat. Anz., v.182, p.549-557, 2000.), this aspect was not observed.

Regarding the coronary pattern, considering the classification proposed by Banchi (1904BANCHI, A. Morfologia delle arteriae coronariae cordis. Arch. Ital. Anat. Embriol., v.3, p.164, 1904.), for the present research, 91.66% of the Giant Anteaters presented the normal or balanced coronary pattern, where the right coronary artery provides the subsinuosal interventricular branch, and the left coronary artery provides the paraconal interventricular branch, a feature also observed in spotted pacas (Ávila et al., 2009ÁVILA, B.H.P.; MACHADO, M.R.F.; GERBASI, S.H.B.; OLIVEIRA, F.S. As artérias coronárias da paca (Agouti рaca Linnaeus, 1766). Biotemas, v.22, p.159-162, 2009.), in hearts of equines, swines and also, in 50.0% of the cats (Marques, 1962MARQUES, M.P.R. Alguns aspectos morfológicos comparativos do coração dos mamíferos domésticos. Lisboa: Tipografia Nunes, 1962. p.320.). In swines, the balanced pattern was the dominant (Pinto et al., 2016PINTO, M.G.; FAVARON, P.O.; ALCÂNTARA, D. et al. Padrões de vascularização arterial em corações de suínos. Pesqui. Vet. Bras., v.36, p.417-422, 2016.). In 8.33% of the Giant Anteaters, the left coronary artery provides both the paraconal interventricular and the subsinuosal interventricular branches, therefore characterizing the type A coronary pattern or left, also evidenced in most ruminants, dogs, in 50% of the cats (Marques, 1962), in capybaras (Tenani et al., 2010TENANI, S.C.; MELO, A.P.F.; RODRIGUES, R.F. Estudo da vascularização arterial em corações de capivara (Hydrochaeris hydrochaeris-Carleton, MD 1984). Braz. J. Vet. Res. Anim. Sci., v.47, p.203-207, 2010.) and in the dolphin (Pérez and Lima, 2006PÉREZ, W.; LIMA, M. Anatomia cardíaca de Pontoporia blainvillei. Int. J. Morphol., v.24, p.351-356, 2006.).

There is a notable need of more profound studies in animals, since some of them could be presented as coronary model for studies, as already demonstrated in monkeys (Valentina et al., 2003VALENTINA, N.; SLOBODAN, M.; MALIŠ, M.; GORDANA, T.P.; STANKOVIĆ, I. Distribution of left coronary artery branches in the african green monkey. Acta Vet., v.53, p.139-150, 2003.) and in bovines (Oliveira et al., 2013OLIVEIRA, M.C., HERNANDEZ, J.M.F.; ABIDU-FIGUEIREDO, M. Morfometria cardíaca e distribuição das artérias coronárias em bovinos mestiços. Biotemas, v.26, n.2, p.199-207, 2013.).

ACKNOWLEDGMENTS

The Research Foundation of the State of São Paulo - FAPESP by financial incentive of scientific initiation scholarship process: 09/54025-9.

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Publication Dates

  • Publication in this collection
    06 June 2019
  • Date of issue
    Mar-Apr 2019

History

  • Received
    12 June 2017
  • Accepted
    17 Apr 2018
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