Научная статья на тему 'Graft flow assessment with transthoracic Doppler after coronary arterial bypass grafting with bilateral internal thoracic arteries using Y-graft technique'

Graft flow assessment with transthoracic Doppler after coronary arterial bypass grafting with bilateral internal thoracic arteries using Y-graft technique Текст научной статьи по специальности «Клиническая медицина»

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Russian Open Medical Journal
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Ключевые слова
Y‐GRAFT BYPASS GRAFTING / TRANSTHORACIC ULTRASOUND / INTERNAL THORACIC ARTERIES

Аннотация научной статьи по клинической медицине, автор научной работы — Akobyan Tigran

Purpose — The aim of our study is to assess the transthoracic Doppler parameters of left internal thoracic artery`s stem (LITA) flow after coronary artery bypass surgery with free right internal thoracic artery using Y graft technique and compare them with such parameters of LITA-LAD (left anterior descending) graft flow after regular coronary artery bypass surgery (CABG). Material and Methods — 51 consecutive patients with coronary artery disease underwent CABG. Comparison between groups was performed using the following parameters: age, body mass index, angina class, presence of hypertension and diabetes, left ventricular ejection fraction and hemoglobin level, hemodynamic parameters during the Doppler investigation. Results — Higher systolic acceleration time value in Y graft group is due to bigger runoff of Y graft compared with the classic group. The diastolic acceleration time is shorter in Y graft group as the distal coronary runoff is bigger and LITA`s peak flow accelerate faster. The systolic and diastolic acceleration times are very sensitive parameters which depend on the distal coronary runoff changes. Conclusions — We conclude that blood flow volume in tha LITA graft depend of coronary artery distal run-off and rising when we using to revascularize more than one coronary artery.

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Текст научной работы на тему «Graft flow assessment with transthoracic Doppler after coronary arterial bypass grafting with bilateral internal thoracic arteries using Y-graft technique»

Original article

Graft flow assessment with transthoracic Doppler after coronary arterial bypass grafting with bilateral

internal thoracic arteries using Y-graft technique

Tigran Akobyan

Center for Innovative Medical Biotechnology, Baltic Federal University, Kaliningrad, Russia

Received 6 May 2013, Revised 2 July 2013, Accepted 18 July 2013

© 2013, Akobyan T.

© 2013, Russian Open Medical Journal

Abstract: Purpose — The aim of our study is to assess the transthoracic Doppler parameters of left internal thoracic artery's stem (LITA) flow after coronary artery bypass surgery with free right internal thoracic artery using Y graft technique and compare them with such parameters of LITA-LAD (left anterior descending) graft flow after regular coronary artery bypass surgery (CABG). Material and Methods — 51 consecutive patients with coronary artery disease underwent CABG. Comparison between groups was performed using the following parameters: age, body mass index, angina class, presence of hypertension and diabetes, left ventricular ejection fraction and hemoglobin level, hemodynamic parameters during the Doppler investigation. Results — Higher systolic acceleration time value in Y graft group is due to bigger runoff of Y graft compared with the classic group. The diastolic acceleration time is shorter in Y graft group as the distal coronary runoff is bigger and LITA's peak flow accelerate faster. The systolic and diastolic acceleration times are very sensitive parameters which depend on the distal coronary runoff changes. Conclusions — We conclude that blood flow volume in tha LITA graft depend of coronary

artery distal run-off and rising when we using to revascularize more than one coronary artery.

Keywords: transthoracic ultrasound, internal thoracic arteries, Y-graft bypass grafting

Cite as Akobyan T. Graft flow assessment with transthoracic Doppler after coronary arterial bypass grafting with bilateral internal thoracic arteries using Y-

graft technique. Russian Open Medical Journal 2013; 2: 0308.

Correspondence to Dr Tigran Akobyan. Address: Klinicheskaya str. 74, Kaliningrad, 236016, Russia. Phone: +7 911 492 51 46.

E-mail: hakobyantigran@yahoo.com

Introduction

The left internal thoracic artery (LITA) has proved to be an excellent conduit as a bypass graft because it has had a better long-term patency rate than other grafts (saphenous vein, radial artery) [1, 2]. Angiography is considered the gold standard for graft assessment, however besides being an invasive and costly test, LITA angiography can be painful for the patient, adds to the risk contrast induced nephropathy. Noninvasive methods (like transthoracic Doppler) for assessment of LITA graft patency may be intermediate procedure before angiography and can preclude need of angiography. The role of recurrent graft Doppler assessment may be more important in patient after CABG (coronary artery bypass grafting) with angina and ECG ischemic changes on the left ventricular anterior wall leads [3, 4].

The new approach in CABG is total arterial revascularization, with both internal thoracic arteries using Y-graft technique. Many surgeons recommended this method give the long term patency rate of internal thoracic arteries [5-7].

The aim of our prospective study was to perform LITA's stem flow evaluation after CABG, comparing data between groups of patients with only LITA to left anterior descending (LAD) grafts (named Classic or Conventional group) and bilateral internal thoracic arteries using Y-graft technique (Y-graft group).

Material and Methods

51 consecutive patients with coronary artery disease underwent CABG in Zeythun Cardio-Vascular Medical Center (Yerevan, Armenia) from September 2007 to December 2008. The mean age was 53.6 years (range 32-71). Preoperative stable angina class I-II (CCS) was in 3.9 % (n=2), stable angina class III-IV in 11.8 % (n=6) and unstable angina in 84.3 % (n=43) patients. Hypertension present in 56.9 % (n=29) and diabetes mellitus in 21.6% (n=11) of patients.

Composite arterial Y-grafting was performed using right internal thoracic artery (RITA) as a free graft attached to LITA in 17.6% (n=9) cases. LITA stem flow assessment was performed by transthoracic Doppler postoperatively. Doppler assessment of LITA stem flow was successful in 62.7% (n=32) patients.

Comparison between groups was performed using the following parameters: age, body mass index, angina class, presence of hypertension and diabetes, left ventricular ejection fraction and hemoglobin level, hemodynamic parameters during the Doppler investigation. All compared patients were male. The significant difference between groups was seen only by age, since we prefer to perform composite arterial grafting in young age patients to expect better long patency rate.

Operative Procedure

LITA was harvest as skeletonized conduit in all patients. Rigth internal thoracic artery (RITA) was harvested skeletonized as a free graft. The LITA graft was always anastomosed to the LAD. In 5 cases LITA was used for revascularization the diagonal branch also by side to side anastomosis. Composite Y-graft was constructed by anastomosing proximal end of RITA to LITA graft at the level of left atrial appendage before starting cardiopulmonary bypass. The RITA graft was used for revascularization the diagonal (n=1), intermedia (n=1), obtuse marginal (n=10) and posterior descending arteries (n=3). The distal and Y anastomoses in all of cases were performed with 8-0 polypropylene running suture.

Transthoracic Doppler

Thransthoracic Doppler assessment of the LITA's stem flow (BIOSOUND A4 echo machine with 7.5 MHz linear transducer) was performed on the 7th day postoperatively. The scanner head was placed in the left upper parasternal space. It is well known that LITA's stem flow type changes after surgery (diastolic flow becomes higher than systolic). The following flow parameters were measured and calculated: velocity flow integral (VFI), pulsating index (PI), resistance index (RI), peak velocity (Vp), mean velocity (Vm), flow acceleration (ACC), acceleration time (AT).

Statistical Methods

The dichotomic variables were compared by Chi square Pearson test, other variables which are not in normal distribution range assessed by Mann-Whitney U test. Outcomes showed in box-plot graphics.

Results

After comparing LIMA flow data in Y graft and classic groups we found the significant difference between the systolic flow acceleration time (AT) (Fig. 1), diastolic flow acceleration (dACC) (Fig. 2) and diastolic flow acceleration time (dAT) (Fig. 3).

It is known from the literature [9, 10] that Doppler evaluation of LIMA graft patentcy is performed by measuring and calculating peak velocity diastolo-systolic (dVp/Vp) (Fig. 4) and velocity flow integral diastolo-systolic ((dVFI/(dVFI+VFI)) x 100) ratios (Fig. 5). In our study we compared those parameters for both groups. No significant difference was found between two groups.

Figure 2. The diastolic flow acceleration (dACC) in groups

Y graft group

Fig. 3. The diastolic flow acceleration times (dAT) in groups

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Classic group Y graft group

Fig. 1. The systolic flow acceleration times (AT)

Y graft group

Fig. 4. The peak velocity diastolo-systolic ratios in groups

Classic group Y graft group

Fig. 5. The velocity flow integral diastolo-systolic ratios in groups

Discussion

Normal graft flow type similar to conventional LITA-LAD graft flow type was observed in the Y graft group.

A major limitation of such flow studies is their incapacity to discriminate between the relative influence of the coronary arteriolar bed and that of the graft conduit itself. Even after a successful revascularization, the presence of some myocardial areas with resistive vessel damage or dysfunction resulting from previous episodes of ischemia or from surgery itself could affect the maximal blood flow. Interestingly, the values of postoperative flow reserve reported in all of these studies are lower than those reported previously in subjects without clinical evidence of coronary artery disease [8]. The independent LIMA graft displays a specific pattern of phasic flow with a transition from systolic-predominant to diastolic-predominant peak flow velocity shifting from the subclavian to the coronary end. This pattern was not confirmed in the Y-graft, in which we detected a diastolic-predominant peak flow velocity in the subclavian end. This peculiar flow pattern is probably related to the reduced vascular resistance of the parallel vascular circuit represented by the Y-graft configuration. Conversely, the independent LIMA graft displays a specific pattern of phasic flow with a transition from systolic-predominant to diastolic-predominant peak flow velocity shifting from the subclavian to the coronary end. This pattern was not confirmed in the Y-graft, in which we detected a diastolic-predominant peak flow velocity in the subclavian end. This peculiar flow pattern is probably related to the reduced vascular resistance of the parallel vascular circuit represented by the Y-graft configuration. Conversely, an impaired diastolic-predominant peak flow velocity in the proximal LIMA may presumably be the expression of high resistance in the RA limb of the Y-graft configuration [10].

Conclusion

We think that the higher systolic acceleration time in Y graft group is due to the bigger run off of the Y-graft as compared with the classic group. The diastolic acceleration time was shorter in the Y graft group since the total bypassed distal coronary run off

diameter is bigger. This is the reason why the LITA's peak flow achieves its maximal value in shorter time. So we think that the systolic and diastolic acceleration times, diastolic acceleration values changes with total bypassed coronary run off diameter. We conclude that blood flow volume in tha LITA graft depend of coronary artery distal run-off and rising when we using to revascularize more than one coronary artery.

Acknowledgments

The author is deeply grateful to Dr. Vahe Gasparyan, head of cariac surgey department, Zeythun Cardio-Vascular Medical Center (Yerevan, Armenia) and Dr. Shahen Khachatryan, general director of this medical center.

Conflict of interest: none declared.

Reference

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Authors:

Tigran Akobyan - PhD, Senior Fellow, Center for Innovative Medical Biotechnology, Baltic Federal University, Kaliningrad, Russia.

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