Major adverse cardiac and cerebrovascular event and patients' quality of life after endoscopic vein harvesting as compared with open vein harvest (MAQEH): a pilot study.

Background: This is a prospective, comparative, pilot and follow-up (2-year postoperatively) study in patients undergoing coronary artery bypass graft surgery where the long saphenous vein was harvested either by the endoscopic vein harvest (EVH) technique or open vein harvest (OVH) technique. Quality of life (QOL) and major adverse cardiac and cerebrovascular events (MACCE) were assessed.
Methods: Alive patients who were initially part of a pilot study when EVH was introduced in our institution were included (n=48 EVH, n=49 OVH). Patients were sent a QOL questionnaire (SF12v2; 12-item medical outcomes study short form health survey version 2.0), and their cardiologist and general practitioner were contacted to assess MACCE.
Results: Median follow-up was 32 and 33 months, respectively. Three patients died (2 EVH, 1 OVH). Of the remaining 97 patients who were sent a questionnaire, 76% patients returned the form. More patients from the EVH group returned the QOL questionnaire (82% vs 71%). Time taken to return to normal daily activities was much shorter in EVH (median 6 (2-30) weeks) compared with OVH (median 9 (2-50) weeks) (P<0.05). QOL questionnaire revealed significant difference in physical score at follow-up: 45.3 (10.2) for EVH group and 40.7 (11.0) for OVH group (P<0.05). There was no difference in mental scores (46.9 (10.5) vs 49.2 (9.1), P=0.4). There were no significant differences in MACCEs including death between the two groups (12.2% vs 13.9%, P=0.5).
Conclusion: EVH patients returned to normal daily activities faster than OVH patients and experienced better physical QOL even after 2 years postoperatively with no increase in MACCE during follow-up.

There have been some concerns regarding major adverse cardiac and cerebrovascular events (MACCEs) after endoscopic vein harvesting (EVH) for coronary artery bypass graft (CABG) surgery. Moreover, quality of life (QOL) after CABG has not been reported when based on long saphenous vein (LSV) harvest technique.

This article confirmed that MACCE rates were similar between EVH and open vein harvest (OVH) techniques for LSV harvest for CABG. In addition, it also showed that the physical aspect of the QOL was significantly better in patients who had EVH for LSV harvest as compared with OVH even 2 years after their surgery.

This will serve as a pilot study to generate a randomised control trial to confirm these benefits. Once confirmed, patients will benefit from a better QOL without jeopardising graft patency.

Introduction

Coronary artery bypass grafting (CABG) is recognised as one of the options in the management of patients with coronary artery disease. The short-term and long-term outcomes after CABG are excellent, with a very low mortality.1 However, early morbidity from long saphenous vein (LSV) harvesting via the open vein harvest (OVH) technique has been high, with leg wound problems reported in a significant number of patients2 and leg wound infection in up to 20%.3 The development of endoscopic vein harvesting (EVH) has been reported to be associated with better leg wound outcomes.4–6 This has been appraised by the National Institute for Health and Care Excellence (NICE), and the latest NICE guidelines have endorsed the use of EVH.7

However, there were some initial concerns regarding vein graft patency,8 9 but more recent meta-analyses have not supported these concerns.10 EVH was introduced to our practice as part of service improvement in 2012. The short-term benefit of EVH as compared with OVH in our population group has already been proven, and included reduction in leg wound problems and infection, a reduction in leg wound pain and a shorter inhospital stay.11 The benefit of EVH has also been supported by the 2014 European Society of Cardiology/European Association for Cardio-Thoracic Surgery guidelines for myocardial revascularisation.12

Currently, there are no randomised control trials or large observational reports of quality of life (QOL) after EVH reported in the literature.

The use of EVH is becoming more popular in the Western world. This technology was introduced in our unit a few years ago and is now used in most patients as there is evidence that there has been a significant cost-benefit in our patient group.11

This study aimed to assess the intermediate outcome including major adverse cardiac and cerebrovascular event (MACCE) and QOL in the EVH and a matched OVH group.

Methods

Patients who were initially part of a prospective matched study comparing the initial experience with EVH with OVH (n=100) were included. These patients were at high risk of developing leg wound problems and had at least two of the following factors: female gender, age over 75 years, diabetes, body mass index >28 kg/m2, smoker and presence of peripheral vascular disease. Fifty continuous patients who were suitable for EVH were selected for this modality of LSV harvest and were matched prospectively with 50 continuous patients who had OVH during the same time period. All patients who were still alive at the time of this current study (n=97) were sent a QOL questionnaire (SF12v2), - 12-item medical outcomes study short form health surgey version 2.0 and their cardiologist and general practitioner were contacted to assess MACCE based on clinical assessment but not angiography. EVH was performed using the Vasoview Hemopro II Endoscopic Vessel Harvesting System (Cardiovascular, Wayne, New Jersey, USA). All patients underwent cardiac procedure using the cardiopulmonary bypass machine.

All patients consented for their cardiologist/general practitioner to be approached to determine if there were any MACCE.

Continuous variables are expressed as mean (SD) or median (minimum, maximum) for Gaussian and skewed distributed data, respectively. Group comparisons were carried out using the t-test or non-parametric (Mann-Whitney U) test accordingly. Categorical data are expressed as percentage, and differences between the two groups were assessed using the χ2 test of independence. Tests were considered significant at P≤0.05. Statistical analyses were carried out in SPSS V.20.

Results

There were no significant differences in patients’ preoperative characteristics (table 1).

Table 1

Patients’ preoperative characteristics

	EVH (n=50)	OVH (n=50)	P value
Age*, years	67.4 (10.6)	68.7 (8.6)	0.6
Male (%, n)	82, 41	82, 41	1
Patients >75 years (%, n)	24, 12	22, 11	0.9
Non-diabetic (%, n)	60, 30	60, 30	1
Smokers (%, n)	18, 9	14, 7	0.6
PVD (%, n)	26, 13	24, 12	0.9
Impaired LVEF (%, n)	32, 16	38, 19	0.7
BMI >28 kg/m2 (%, n)	62, 31	62, 31	1
Elective (%, n)	54, 27	58, 29	0.8
Log Euro score†	3.92 (0.88, 33.63)	4.99 (0.88, 30.1)	0.6
Isolated CABG (%, n)	78, 39	76, 38	0.9

*Denotes mean (SD).

†Denotes median (minimum, maximum).

BMI, body mass index; CABG, coronary artery bypass graft surgery; EVH, endoscopic vein harvest; LVEF, left ventricular ejection fraction; OVH, open vein harvest; PVD, peripheral vascular disease.

The median follow-up was 32 (28–43) months and 33 (28–42) months for the EVH and OVH groups, respectively (P=0.6). Three patients died (2 EVH, 1 OVH) during that period. Of the remaining 97 patients who were sent a questionnaire, 76% patients returned the form. Interestingly more patients from the EVH group returned the QOL questionnaire (82% vs 71%).

The time taken to return to normal daily activities was much shorter in EVH (median 6 (2–30) weeks) compared with OVH (median 9 (2–50) weeks) (P<0.05). The QOL questionnaire revealed significant difference in physical score at follow-up: 45.3 (10.2) for EVH group and 40.7 (11.0) for OVH group (P<0.05) (figure 1). There was no difference in mental scores (46.9 (10.5) vs 49.2 (9.1), P=0.4). There were no significant differences in MACCEs including death between the two groups (12.2% vs 13.9%, P=0.5). The MACCEs reported for each group are listed in table 2.

Figure 1

Physical scores (SF12v2 - 12-item medical outcomes study short form helath survey version 2.0) of the EVH and OVH groups. EVH, endoscopic vein harvest; LSV, long saphenous vein; OVH, open vein harvest.

Table 2

MACCEs for the two groups

MACCEs	Time to event
EVH group (n=41)
Death	Immediate postoperatively: multiorgan failure
Death	19 months postoperatively: pneumonia
Angina	10 months postoperatively
Decompensated cardiac failure	6 months postoperatively (poor LVEF preoperatively)
Right occipital small infarct	2 weeks postoperatively
OVH group (n=36)
Death	34 months postoperatively: heart failure
AF with decompensated heart failure	3 months postoperatively
Angina—stenosis of OM	6 weeks postoperatively
Intracerebral haemorrhage	4 weeks postoperatively
Heart failure	3 months postoperatively

AF, atrial fibrillation; EVH, endoscopic vein harvest; LVEF, left ventricular ejection fraction; MACCE, major adverse cardiac and cerebrovascular event; OM, obtuse marginal artery; OVH, open vein harvest.

Discussion

This is the first report on QOL post-CABG taking into account the modality of LSV harvest. Previously, QOL post-CABG has been compared with percutaneous coronary intervention,13 14 where no significant differences were reported between the two groups. The effect of on-pump and off-pump CABG on QOL has also been assessed, and it has been shown that there were no significant differences between these two groups.15 Longitudinal QOL assessment showed an important improvement in QOL after CABG.16 The effects of age on QOL in CABG have also been documented in the literature,17 18 with the greatest benefit seen in the more elderly population. This current study assessed the QOL as a function of the type of LSV harvest (EVH vs OVH). However, there was not a preprocedure QOL assessment, but given that the patients were selected continuously and that the two groups were matched on their preoperative characteristics, the risk of any bias would have been minimal. The SF12v2 assessments showed a clear benefit at the time of follow-up (median around 32 months) in terms of physical performance, when EVH was used. There was no significant impact on mental performance at follow-up between the two techniques (EVH or OVH).

Persistent leg wound problems even months after CABG have previously been reported,19 with harvest site pain, numbness and dysaesthesia. Similar findings were reported by Zhu et al 2 as part of a subanalysis in the RAPCO (Radial Artery Patency and Clinical Outcomes) trial. In the initial study for the current study group, worst pain was also documented in the OVH arm when compared with the EVH arm.11

There have been some concerns regarding the patency of LSV grafts when EVH is used. These were initially highlighted in the substudy of the ROOBY (Randomized On/Off Bypass) trial8 and also with the PREVENT IV (Prevention of autogenous vein graft failure in coronary artery bypass procedures) trial.9 However, more recent data with the latest EVH technology suggested that LSV graft patency is not affected as compared with OVH.10 20 Similar outcomes have been reported when the LSV had been harvested by EVH for lower limb vascular procedures.21 In the current study, only a small percentage of patients post-CABG had either an ischaemic event or evidence of blocked grafts on angiography: 2.4% (1/41) for EVH and 2.8% (1/36) for OVH.

Overall MACCE rates in this current study were 12.2% for EVH vs 13.9% for OVH. These rates are fairly similar to the rate reported in the NOBLE (coronary artery bypass grafting vs drug eluting stent percutaneous coronary angioplasty in the treatment of unprotected left main stenosis) trial: 19% for CABG at 5 years.22 Thus, within this small series, EVH use was not associated with an increased MACCE rate.

Limitations

This was a single-centre, pilot study. Moreover, preoperative QOL data were not available for both groups of patients. Treatment assignments were not blinded. Knowledge of treatment status may have affected QOL responses. QOL measures reflect a subjective assessment of health status; participants from diverse cultures may attach different significance to symptoms/limitations. Because of lack of randomisation, such differences could have affected the scores. Many biological and socioeconomic factors not included in this analysis may also impact QOL.

Conclusion

EVH patients returned to normal daily activities faster than OVH patients. The former also experienced better physical QOL even after 2 years postoperatively with no increase in MACCE during follow-up when compared with OVH patients. However, given that this was only a pilot study involving a small number of patients, a larger randomised control trial would be beneficial to confirm these findings.