The topography of the subthebesian fossa in relation to neighbouring structures within the right atrium

• Autorzy: Kozlowski D , Owerczuk A. , Piwko G. , Kozlowska M. , Bigus K. , Grzybiak M.
• Języki publikacji: EN

Abstrakty

EN

The majority of anatomical structures within the heart during typical atrial flutters’ ablation, right sided accessory pathway ablation or slow pathway ablation are invisible or blurred. Therefore it is very important to know in details interior right atrial structures during such procedures. In the neighborhood of coronary sinus orifice small concavity is visible. This area, called subthebesian fossa, is placed between the os of coronary sinus, the orifice of vena cava inferior and tricuspid annulus. The fossa is on the way of typical atrial flutters’ reentrant circuit and is placed next to the isthmus area, which has become a target site for ablative therapy. Regarding the facts mentioned above we decided to examine the topography of this concavity in relation to neighboring structures. Research was conducted on material consisting of 45 human hearts of both sexes, from 19 to 71 years of age. The hearts came from patients whose death was not cardiologic in origin. The topography of the fossa was examined in relation to coronary sinus orifice (diameter A), vena cava inferior orifice (diameter B) and the attachment of the posterior leaflet of the tricuspid valve (diameter C). Besides we measured two perpendicular sizes in the inlet plane of the fossa. There were the longest size (diameter D) and the shortest size of the fossa (diameter E). We also defined deepness of the fossa (diameter F). Diameter A was from to 2 to 7 mm (avg. 4.9 ± 1.4 mm), diameter B from 2 to 8 mm (avg. 4.0 ± 1.6 mm) and diameter C from 5 to 9 mm (avg. 7.0 ± 1.5 mm). The longest size in inlet plane of the concavity (diameter D) was from 12 to 18 mm (avg.14.1 ± 1.7 mm) and shortest size (diameter E) was from 7 to 14 mm (avg. 9.0 ± 1.7 mm). The deepness of the fossa (diameter F) was from 2 to 7 mm (avg. 4.8 ± 1.2 mm). The subthebesian concavity is inconstant anatomical structure, occurring in all forty five examined hearts (100%). The shape and sizes of the subthebesian fossa were variable in examined group of hearts. Our data suggest that differences in diameters between subthebesian fossa and neighboring structures may have clinical importance during ablation procedure.

Słowa kluczowe

EN

topography; structure; atrial wall; isthmus area; ablation procedure; subthebesian fossa; neurobiology; anatomy; heart; right atrium; atrium

• Wydawca: -
• Czasopismo: Folia Morphologica
• Rocznik: 2003
• Tom: 62
• Numer: 1
• Opis fizyczny: p.65-70,fig.

Twórcy

autor

Kozlowski D

• Medical University, Kieturakisa 1, 80-742 Gdansk, Poland

autor

Owerczuk A.

autor

Piwko G.

autor

Kozlowska M.

autor

Bigus K.

autor

Grzybiak M.

Bibliografia

• 1. Farré J, Moro C (1998) Ten years of radiofrequency ablation. Futura publishing company, Armonk, NY.
• 2. Josephson ME, Horowitz LN, Spielman SR, Greenspan AM, Vandepol C, Harken AH (1980) Comparison of endocardial catheter mapping with intraoperative mapping of ventricular tachycardia. Circulation, 61: 395–404.
• 3. Kirkorian G, Moncada E, Chevalier P (1994) Radiofrequency ablation of atrial flutter: Efficacy of an anatomical guided approach. Circulation, 90: 2804–2811.
• 4. Koch W (1922) Der funktionelle Bau des menschlichen Herzens, Urban und Schwarzenberg, Berlin-Wien.
• 5. Koch W (1907) Über das Ultimum moriens des menschlichen Herzens. Ein Beitrag zur Frage des Sinusgebietes. Beitr Path Anat, 42: 203–224.
• 6. Kosinski D, Grubb BP, Wolfe DA, Mayhew H (1998) Catheter ablation for atrial flutter and fibrillation. Postgrad Med, 103: 103–110.
• 7. Kuta W, Grzybiak M, Kosiński A (1998) Valves of the inferior vena cava and coronary sinus of the adult human heart in the light of statistical analysis. Ann Acad Med Gedan, 28: 9–21.
• 8. Kuta W, Grzybiak M, Nowicka E (2000) The valve of the coronary sinus (Thebesian) in adult human hearts. Folia Morphol, 58: 263–274.
• 9. Lesh MD, Van Hare GF, Epstein LM (1994) Radiofrequency catheter ablation of atrial arrhythmias: results and mechanisms. Circulation, 89: 1074–1089.
• 10. Narula O (1979) Cardiac arrhythmias: Electrophysiology, diagnosis and management. Williams & Wilkins, Baltimore.
• 11. Olshansky B, Okumura K, Hess PG (1990) Demonstration of an area of slow conduction in human atrial flutter. J Am Coll Cardiol, 16: 1639–1645.
• 12. Reithmann C, Hoffmann E, Steinbeck G (1998) Radiofrequency catheter ablation in atrial flutter and atrial fibrillation. Archives – Herz, 4: 209–218.
• 13. Sanchez-Quintana D, Yen Ho S, Cabrera JA, Farré J, Anderson RH (2001) Topographic anatomy of the inferior pyramidal space: relevance to radiofrequency catheter ablation. J Cardiovasc Electrophysiol, 12: 210–217.
• 14. Working group of arrhythmias report of the European Society of Cardiology (1999) Living anatomy of the atrioventricular junctions. E Heart J, 20: 1068–1075.
• 15. Zipes (2001) Cardiac Pacing and Electrophysiology. B. Saunders Comp., 3rd Edition, Philadelphia–Boston.