The co-existence of an aberrant origin of the right subclavian artery and a coronary myocardial bridge

• Autorzy: Sakuma E , Kato H. , Honda N. , Mabuchi Y. , Soji T.
• Języki publikacji: EN

Abstrakty

EN

We encountered the co-existence of an aberrant origin of the right subclavian artery and a myocardial bridge on the left anterior descending coronary artery in the cadaver of an 80-year-old Japanese woman during the course of educational dissection at Nagoya City University Medical School. We document the precise gross anatomical findings with some morphometric measurements. Neither an aberrant origin of the right subclavian artery nor the cardial myocardial bridge is a very rare anomaly, but a case of both anomalies being found in the same body is very rare. We believe this is the first report of the simultaneous occurrence of these two anomalies.

Słowa kluczowe

EN

coexistence; aberrant origin; right subclavian artery; coronary artery; myocardial bridge

• Wydawca: -
• Czasopismo: Folia Morphologica
• Rocznik: 2005
• Tom: 64
• Numer: 2
• Opis fizyczny: p.109-114,fig.,ref.

Twórcy

autor

Sakuma E

• Nagoya City University Graduate School of Medical Sciences, Nagoya City, Aichi, Japan

autor

Kato H.

autor

Honda N.

autor

Mabuchi Y.

autor

Soji T.

Bibliografia

• 1. Adachi B (1928) Das Arteriensystem der Japaner. Bd I. Verlage der Kaiserlich-Japanichen Universitat zu Kyoto, Kyoto, pp. 22–41.
• 2. Agirbasli M, Martin GS, Stout JB (1997) Myocardial bridge as a cause of thrombus formation and myocardial infarction in a young athlete. Clin Cardiol, 20: 230–237.
• 3. Akers DL Jr., Fowl RJ, Plettner J, Kempczinski RF (1991) Complications of anomalous origin of the right subclavian artery: case report and review of the literature. Ann Vasc Surg, 5: 385–388.
• 4. Angelini P, Trivellato M, Donis M, Leachman RD (1983) Myocardial bridges: A review. Prog Cardivasc Dis, 26: 75–88.
• 5. Anson BJ (1936) The anomalous right subclavian artery. Surg Gynecol Obstet, 62: 708–712.
• 6. Asami Y, Murata E, Fujita K, Akita M, Kaneko K (2001) A case of the right subclavian artery as the last branch of the aortic arch passing behind the esophagus. Acta Anat Nippon, 76: 77 (in Japanese).
• 7. Austin EH, Wolfe WG (1985) Aneurysm of aberrant subclavian artery with a review of the literature. J Vasc Surg, 2: 571–577.
• 8. Bayford D (1794) An account of a singular case of obstructed deglutition. Memoirs Med Soc London, 275–286.
• 9. Berry JF, von Mering GO, Schmalfuss C, Hill JA, Kerensky RA (2002) Systolic compression of the left anterior descending coronary artery: a case series, review of the literature, and therapeutic options including stenting. Catheter Cardiovasc Interv, 56: 58–63.
• 10. Brown DL, Chapman WC, Edwards WH, Coltharp WH, Stoney WS (1993) Dysphagia lusoria: aberrant right subclavian artery with a Kommerell’s diverticulum. Am Surg, 59: 582–586.
• 11. Cairney J (1925) The anomalous right subclavian artery considered in the light of recent findings in arterial development; with a note on two cases of an unusual relation of the innominate artery to the trachea. J Anat, 59: 265–296.
• 12. Conte G, Pellegrini A (1984) On the development of the coronary arteries in human embryos, stages 14–19. Anat Embryol, 169: 209–218.
• 13. Edwards JC, Burnsides C, Swarm R, Lansing AI (1956) Arteriosclerosis in the intramural and extramural portions of coronary arteries in the human heart. Circulation, 13: 235–241.
• 14. Geiringer E (1951) The mural coronary. Am Heart J, 41: 350–368.
• 15. Goldbloom AA (1922) The anomalous right subclavian artery and its possible clinical significance. Surg Gynecol Obstet, 34: 378–384.
• 16. Higashi N, Hirai K (1999) A case of right subclavian artery as the last branch of aortic arch with various anomalies. Acta Anat Nippon, 74: 32 (in Japanese).
• 17. Hirakow R (1983) Development of the cardiac blood vessels in staged human embryos. Acta Anat, 115: 220–230.
• 18. Holzapfel G (1899) Ungewohnlicher Ursprung und Verlauf der Arteria subclavia dextra. Anat Hefte, 12: 369–523.
• 19. Horiguchi M, Yamada T, Uchiyama Y (1982) A case of retroesophageal right subclavian artery — with special reference to the morphology of cardiac nerves. Acta Anat Nippon, 57: 1–8 (in Japanese).
• 20. Hutchins GM, Kessler-Hanna A, Moore GW (1988) Development of the coronary arteries in the embryonic human heart. Circulation, 77: 1250–1257.
• 21. Irvin RG (1982) The angiographic prevalence of myocardial bridging in man. Chest, 81: 198–202.
• 22. Ishimori T, Raizner AE, Chahine RA (1977) Myocardial bridges in man: Clinical correlations and angiographic accentuation with nitroglycerin. Cathet Cardiovasc Diagn, 3: 59–65.
• 23. Kawai K, Kodama K, Maeda S, Sugiyama M, Kumagai Y, Yasuda Y, Yoshinaga K (1997) On the aberrant right subclavian artery passing behind the esophagus. Acta Anat Nippon, 72: 288 (in Japanese).
• 24. Kawashima T, Sato K, Sato F, Sasaki H (2002) Topographical relationships of a retroesophageal right subclavian artery and it’s surrounding structures: With special reference to the autonomic nerve distribution to the heart. Abstract Book of Japan. Res Soc Clin Anat, 2: 16–17 (in Japanese).
• 25. Kodama J, Toh H, Ohmori T (1992) Aberrant right subclavian artery passing behind the esophagus. J Fukuoka Dent Coll, 18: 471–476 (in Japanese).
• 26. Komiyama M, Matsuno Y, Shimada Y (1995) Variation of the right subclavian artery as the last branch of the aortic arch in two Japanese cadavers. Okajima Folia Anat Jpn, 72: 245–248.
• 27. Kramer JR, Kitazume H, Proudfit WL, Sones FM (1982) Clinical significance of isolated coronary bridge, benign and frequent conditions involving the left anterior descending artery. Am Heart J, 103: 283–288.
• 28. Lescalie F, Peret M, Reigner B, Cronier P, Pillet J (1992) Reconstruction of an abnormal artery observed in an 11 mm embryo: considerations on the embryologic origin of the subclavian artery. Surg Radiol Anat, 14: 71–79.
• 29. Matsuno Y, Komiyama M, Shimada Y (1996) An anomalous case of the right subclavian artery as the last branch of the aortic arch. Chiba Med J, 72: 315–317.
• 30. Morales AR, Romanelli R, Stout JB (1980) The mural left anterior descending coronary artery, strenuous exercise and sudden death. Circulation, 62: 230–237.
• 31. Nakagawa M (1939) On the branching pattern of the aortic arch. J Juzen Med Soc, 44: 243–259 (in Japanese).
• 32. Nakatani T, Tanaka S, Mizukami S, Okamoto K, Shiraishi Y, Nakamura T (1996) Retroesophageal right subclavian artery originating from the aortic arch distal and dorsal to the left subclavian artery. Ann Anat, 178: 269–271.
• 33. Oda S, Kakuta S, Kimura A, Gomi T, Chen SY, Shiino M, Kishi K (1996) A case report of the subclavian artery as the last branch of the aortic arch. Acta Anat Nippon, 71: 380.
• 34. Ortega-Carnicer J, Fernandez-Medina V (1999) Impending acute myocardial infarction during severe exercise associated with a myocardial bridge. J Electrocardiol, 32: 285–288.
• 35. Polacek P (1961) Relation of myocardial bridges and loops on the coronary arteries to coronary occlusions. Am Heart J, 61: 44–52.
• 36. Rahman HA, Sakurai A, Dong K, Setsu T, Umetani T, Yamadori T (1993) The retroesophageal subclavian artery — A case report and review. Acta Anat Nippon, 68: 281–287.
• 37. Sakaino M, Saga T, Hiratsuka M, Kitashima S, Kanazawa T, Yamaki K, Yoshizuka M (2002) A case of the right subclavian artery as the last branch of the aortic arch. Acta Anat Nippon, 77: 60 (in Japanese).
• 38. Shimada K, Shibata M, Tanaka J, Setoyama S, Suzuki M, Ito J (1997) A rare variation of the right subclavian artery combined with a variation of the right vertebral artery. Showa Med J, 57: 349–353 (in Japanese).
• 39. Stolte M, Weis P, Prestele H (1977) Die koronare Muskelbrucke des Ramus desendens anterior. Virchows Arch A Pathol Anat Histol, 375: 23–36.
• 40. Suzuki T, Li XW, Chiba S (1991) Vertebral artery in the so-called Adachi’s type-G aortic arch. Hirosaki Med J, 43: 191–197 (in Japanese).
• 41. Takahashi S, Hirata K (1997) A case of right subclavian artery as the last branch of aortic arch. St. Marianna Med J, 25: 75–80 (in Japanese).
• 42. Takahashi S, Hirata K (1998) A case of right subclavian artery as the last branch of aortic arch with anomaly of thoracic duct. St. Marianna Med J, 26: 127–132 (in Japanese).
• 43. Takemura A, Matsumoto M, Mori T (1979) A case of the right subclavian artery as the last branch of the aortic arch. Okajima Fol Anat Jpn, 56: 317–328.
• 44. Takemura A, Okuda H, Oda K, Fang YR, Hsieh HM, Ohta Y (1990) A case of the right subclavian artery as the last branch of the aortic arch in the human fetus and a new classification on these variations. Acta Anat Nippon, 65: 374–380.
• 45. Takemura A, Okuda H, Takenobu T, Toda I, Ike H, Ota Y (1993) A case of the right subclavian artery as the last branch of the aortic arch and two cases of the duplication of the inferior vena cava. Acta Anat Nippon, 68: 479 (in Japanese).
• 46. Tanuma K, Suzuki K, Kitazawa M, Kawaguchi T, Hara I, Koide S, Yoshida A (1987) The right subclavian artery as the last branch from the aortic arch. J Nippon Med Sch, 54: 673–680.
• 47. Tomanek RJ, Lotun K, Clark EB, Suvarna PR, Hu N (1998) VEGF and bFGF stimulate myocardial vascularization in embryonic chick. Am J Physiol, 274: 1620–1626.
• 48. Tomanek RJ, Zheng W, Peters KG, Lin P, Holifield JS, Suvarna PR (2001) Multiple growth factors regulate coronary embryonic vasculogenesis. Dev Dyn, 221: 265–273.
• 49. Tubbs RS, Oakers WJ, Salter EG, Zehren SJ (2004) Retroesophageal right subclavian artery with persistent ductus arteriosus. Anat Sci Int, 79: 98–100.
• 50. Vitelli F, Taddei I, Morishima M, Meyers EN, Lindsay EA, Baldini A (2002) A genetic link between Tbx1 and fibroblast growth factor signaling. Development, 129: 4605–4611.
• 51. Williams GD, Affe HM, Scheckebier M, Edmonds HW, Graul EG (1932) Variations in the arrangement of the branches arising from the aortic arch in American whites and negroes. Anat Rec, 54: 247–251.
• 52. Xu H, Morishima M, Wylie JN, Schwartz RJ, Bruneau BG, Lindsay EA, Baldini A (2004) Tbx1 has a dual role in the morphogenesis of the cardiac outflow tract. Development, 131: 3217–3227.
• 53. Yagi H, Furutani Y, Hamada H, Sasaki T, Asakawa S, Minoshima S, Ichida F, Joo K, Kimura M, Imamura S, Kamatani N, Momma K, Takao A, Nakazawa M, Shimizu N, Matsuoka R (2003) Role of TBX1 in human del22q11.2 syndrome. Lancet, 362: 1366–1373.
• 54. Yamaguchi M, Tangawattana P, Hamlin RL (1996) Myocardial bridging as a factor in heart disorders: Critical review and hypothesis. Acta Anat, 157: 248–260.
• 55. Yoshida Y, Fukuyama U (1975) A case of an anomalous origin of the right subclavian artery and analysis of the right recurrent nerve fibers. Chiba Med J, 51: 195–199 (in Japanese).
• 56. Yoshitomi M, Kanemura E, Ohtomo G, Ishibashi K, Saiki H, Ariyoshi T (1977) An anomalous case on four branches of the aortic arch. J Kurume Med Ass, 40: 853–858 (in Japanese).
• 57. Zukeran C, Sensui N, Doi N, Ishida H, Suitsu T, Shimada N, Sasaki T, Shimada H, Shimizu A, Shiino Y (2001) A case of an anomalous origin of the right subclavian artery. Acta Anat Nippon, 76: 424 (in Japanese).