Variant anatomy of the coronary sinus and left inferior phrenic vein in the aspect of interventional arythmology

Objective: to study the variants of the structure of the coronary sinus valves and the left  inferior phrenic vein in the aspect of interventional arythmology. Materials and methods: We studied 30 preparations of hearts and 120 preparations of the veins of the diaphragm of people who died between the ages of 22 and 75 and the left  inferior phrenic vein in 30 patients of both sexes of the same age. Sectional, dissection, injection, morphometric, angiographic and statistical methods of investigation were used. Results: Analysis of the results obtained with the help of various sectional and clinical methods of investigation revealed that in 13% of cases an alternative way of conducting the left  ventricular electrode through the left  inferior phrenic vein with cardiac resynchronization therapy is possible. Conclusions: Venous sinus as the main pathway for implantation of the left  ventricular electrode may be suitable for catheterization in 86% of patients, and for 13% of patients an alternative route for conducting the left  ventricular electrode is needed. Th e left  inferior phrenic vein, which fl ows into the inferior vena cava in 60% of cases, is freely or conditionally catheterized and can serve as an alternative route for conducting the left  ventricular electrode.

coronary sinus valves, left inferior phrenic vein

1. Revishvili ASh. Resynchronization therapy for chronic heart failure. Zhurnal Serdechnaya nedostatochnost’. 2009;10(6):56. (In Russ).

2. Jackson KP, Steen T. Getting the LV Lead in the Right Spot. Netherlands Heart Journal. 2016;24(1):82-84. doi: 10.1007/s12471-015-0774-6

3. Gibson F, Bodenham A. Misplaced central venous catheters: applied anatomy and practical management. BJA: British Journal of Anaesthesia. 2013;110(3):333–346. doi: 10.1093/bja/aes497

4. Jackson KP, Hegland DD, Frazier-Mills C, Piccini JP, Koontz JI, et al. Impact of Using a Telescoping-Support Catheter System for Left Ventricular Lead Placement on Implant Success and Procedure Time of Cardiac Resynchronization Th erapy. Pacing and clinical electrophysiology. 2013;36(5):5538. doi: 10.1111/pace/12103.

5. Khan FZ, Virdee MS, Fynn SP, Dutka DP. Left Ventricular Lead Placement in Cardiac Resynchronization Th erapy: where and how? EP Europace. 2009;11(5):554–561. doi: 10.1093/europace/eup076.

6. Khalameizer V, Pancheva N, Drogenikova T, Penev At, Katz A. Impossible is not an option! Two cases of CRT-d implantation with collateral left ventricular access in patients with coronary sinus obstruction. Българска кардиология. 2010;ХVІ(1):16-17.

7. Trisvetova EL, Yudina OA. Anatomy of small heart anomalies. Minsk; 2006. (In Russ).

8. Duda В, Grzybiak M. Variability of valve confi guration in the lumen of the coronary sinus in the adult human hearts. Folia Morphol. 2000;59(3):207-209.

9. Kowalski O, Prokopczuk J, Lenarczyk R, PruszkowskaSkzep P, Polonski L, Kalarus Z. Coronary sinus stenting for the stabilization of the left ventricular and during resynchronization therapy. Europace. 2006;8:367-370. doi: 10.1093/europact/eu1022

10. Preobrazhenskaya IN. Th e veins of the diaphragm. In: Voprosy anatomii i operativnoi khirurgii. Leningrad; 1955. (In Russ).

11. Bachinskii YuS. Arteries of the human diaphragm and their connection with the vessels of other organs and tissues. Vrach. delo. 1957;(10):1047-1052. (In Russ).

12. Bramante CT, Westlund R, Weinhaus A. Suitability of the pericardiophrenic veins for phrenic nerve stimulation: an anatomic study. Neuromodulation. 2011,14(4):337-341. doi: 10.1111/j.1525-1403/2011/00369.x.

13. Chaplygina EV, Kornienko NA, Kaplunova OA, Kornienko AA, Mukanjan SS. Clinical anatomy of transvenous endocardial access systems. Fundamental’nye issledovaniya. 2013;(5):176-179. (In Russ).

14. Chaplygina EV, Kaplunova OA, Mukanjan SS. Clinical value of anatomical variability bottom left phrenic vein. Zhurnal fundamental’noi meditsiny i biologii. 2015;(1):61-64.(In Russ).