Quality of Life (QoL) Assessment in the Patients Operated with Either Laparoscopic or an Open Aortobifemoral Bypass for Aortoiliac Occlusive Disease (AIOD): 2 Years Results of a Randomized Controlled Trial.

BACKGROUND: QoL assessment within surgical treatment is seldom investigated and sparsely reported in the medical literature. This study aimed to compare QoL in a randomized fashion in the patients treated with either a laparoscopic aortobifemoral bypass (LABFB) or an open aortobifemoral bypass (OABFB) for the treatment of AIOD. PATIENTS AND METHODS: Seventy-one consecutive patients with AIOD, Trans-Atlantic Inter-Society Consensus II Type D lesions (TASC II, Type D) were randomized to LABFB or OABFB. Thirty-five patients in the LABFB and thirty-six in the OABFB groups were compared for the changes in the QoL, with the short-form health survey (SF-36), EuroQol 5 dimensions (EQ-5D), and EQ-5D visual analog scale (VAS) preoperatively, and postoperatively at 1, 3, 6, 12 and 24 months. Mann-Whitney U-Test and Wilcoxon sign-rank test were used for group comparison. Mixed model analysis was performed to examine the effect of different variables on the QoL.
RESULTS: In the patients treated with LABFB, physical component score (PCS) and mental component score (MCS) in SF-36 were significantly higher than OABFB, at 1 and 3 months postoperatively. PCS was also significantly higher in the LABFB group than OABFB at 24 months postoperatively. The preoperative QoL scores for both the laparoscopy and the open group were significantly lower than the age-matched general Norwegian population. EQ-5D median scores were significantly higher in the LABFB at all postoperative follow-up time points up to 12 months. The patients in the LABFB group also had a statistically significant increase in EQ-5D VAS compared to OABFB, at 1 and 12 months postoperatively (p = 0.005, and p = 0.037, respectively).
CONCLUSION: QoL seems better in patients treated with LABFB than OABFB, particularly during the early months after surgery.

Background

Most of the patients with AIOD, even with advanced TASC II type D lesions, are primarily treated with endovascular procedures.1,2 Although the mid- and long-term patency of the endovascular procedures and the aortobifemoral bypass are comparable, the endovascular treatment option is preferred due to its minimally invasive nature and significantly lower peri-procedural morbidity.3,4 Especially in the elderly patients and those with a high risk of operative complications due to co-morbidities, endovascular treatment is the preferred treatment option. However, in case of unsuccessful endovascular treatment, atherosclerotic lesions not amenable for an endovascular procedure, or in young patients with acceptable risk of perioperative complications, open aortobifemoral bypass is the preferred treatment option.5

Laparoscopic aortobifemoral bypass surgery for treating patients with advanced peripheral arterial disease (PAD) has been progressively established in dedicated centers.6–8 Published literature on PAD often is focused on traditional outcomes like graft patency, maximum walking distance, mortality, and morbidity.4 New treatment modalities should not only be evaluated in terms of patency, complication, and long-term results but also QoL assessments.9–12 Patients with PAD have been shown to have a reduced health-related quality of life (HRQoL).13,14 The literature on QoL for patients with advanced PAD is sparse, and especially, long-time follow-up studies assessing QoL and randomized controlled trials are lacking, especially in the patients with AIOD operated with aortobifemoral bypass.15

Patient-reported outcome measurements (PROMs) are essential tools in evaluating outcomes of different treatment methods in patients with PAD.16 Additionally, these tools provide essential information to the health providers and the taxpayers for assessing health services.11,16 From the patient’s perspective, changes in the physical domains of a QoL tool after a treatment serve as a direct measure of the treatment effect.14,17

This sub-study aimed to evaluate the short and mid-term impact of LABFB and OABFB surgery on the QoL of the patients with TASC II type D lesions with generic questionnaire instruments, SF-36 and EQ-5D. EQ-5D Visual Analogue Scale (VAS) was used to register the patients’ perception of their health at each measuring time point.

Patients and Methods

Design

This study is a sub-study of an ongoing prospective randomized multicenter study, the Norwegian Laparoscopic Aortic Surgery Trial (NLAST). The primary objective of the NLAST trial is postoperative systemic and local complications. One of the secondary objectives was to assess QoL using PROMs. Since QoL was a sub-study, no power analysis was conducted. Between March 2013 and March 2019, seventy-one consecutive patients with AIOD, TASC II type D lesion, were randomized to either LABFB or OABFB (Figure 1). Inclusion and exclusion criteria are described in Table 1. We used two generic PROMs tools, SF-36 version 2 and EQ-5D.19,20

Figure 1

Flow chart of patients with the aortoiliac occlusive disease, with Trans-Atlantic Inter-Society Consensus II Type D lesions, randomized to either laparoscopic or aortobifemoral bypass, and followed-up for changes in the quality of life.2

Table 1

Inclusion and Exclusion Criteria for Patients with the Aortoiliac Occlusive Disease (AIOD), Trans-Atlantic Inter-Society Consensus II (TASC II) Type D Lesions, Treated with Either Open or Laparoscopic Aortobifemoral Bypass.2

Inclusion Criteria	Exclusion Criteria
Patient with AIOD, TASC II type D and symptoms in form of: ● Intermittent claudication, with walking distance < 200 meters and/or ● Chronic limb threatening ischemia with rest pain or ischemia ulcers  with duration of symptoms > 2 weeks	● Fit for endovascular procedure ● COPD stage IV, GOLD classification18 ● Symptomatic coronary heart disease ● Chronic heart failure, EF (Ejection fraction) < 40% ● Active cancer disease ● Hostile abdomen, previous multiple open major abdominal surgeries ● Abdominal aortic aneurysm (AAA)≥ 3.0 cm ● Acute limb threatening ischemia. Duration of symptoms ≤ 2 weeks

Abbreviations: TASC, Trans-Atlantic Inter-Society Consensus; COPD, chronic obstructive pulmonary disease; GOLD, Global Initiative for Chronic Obstructive Lung Disease.

The SF-36 includes eight domains, with individual domain scores and two summary scores: a physical component score (PCS) and a mental component score (MCS). The summary scores are comprised of 4 domains in each component score. Each of the eight individual domains scores from 0 to 100; a higher score indicates better QoL.

In addition, all patients had to provide his/her perception about their current health status with the help of EQ-5D VAS. They could choose a value from a scale ranging from 0 to 100, where 100 depicted the best possible general health status.

The HRQoL questionnaires were answered by the participating patients in the study preoperatively (baseline) and at 1, 3, 6, 12, and 24 months postoperatively. QualityMetric Health Outcome Scoring Software 5.0 program was used to register SF-36 data. This software uses US standard norm from 1998 for scoring of the values, and these summary component scores are validated to be used across European countries.19,21

Statistics

Statistical Package for Social Science, version 25 (SPSS, IBM, ARMONK, NY, USA) was used for statistical analysis. Baseline characteristics were compared by using the Independent Samples t-test. Median and interquartile range (IQR) were calculated for both groups. In addition to the separate analysis of each SF-36 domain, PCS and MCS were analyzed. Mean baseline scores were compared with the age-matched Norwegian population scores. Mann–Whitney U-Test was used to analyze the changes at each measuring time-point between the two groups. The changes over time in SF-36, EQ-5D, and VAS compared to baseline were analyzed by Wilcoxon Signed test. Mixed model analysis was performed to find the effect of different variables on PCS, MCS, and EQ-5D scores. The level of statistical significance was set at 5% (p < 0.05).

Participants

Patients from 3 vascular surgery units in the southeastern region of Norway participated in this study.

Ethical Statement

The Regional Committee for Medical Health Research Ethics (REC, region south-east of Norway, registration number 2012/1367) approved the study. The NLAST trial was also registered at , with the registration number NCT01793662. The study was conducted per the Declaration of Helsinki. All patients gave informed, written consent prior to the study commencement.

Results

Baseline characteristics did not differ in the laparoscopic and open surgery groups. Table 2 summarizes the baseline characteristics.22 Two patients (2.9%), one in each group, did not receive surgical treatment after randomization and were registered as drop-outs. Another (1.4%) in the LABFB group did not follow the postoperative control program and was deemed lost to follow-up. One patient (1.4%) died two days after OABFB.

Table 2

Baseline Characteristics of Patients Included in the Study, Treated with Either a Laparoscopic or an Open Aortobifemoral Bypass to Treat Aortoiliac Occlusive Disease (AIOD), with Trans-Atlantic Inter-Society Consensus II Type D Lesions.2

Baseline Characteristics	LABFB (N=35)	OABFB (N=36)	p-value
Age in years, mean (SD)	63 (7)	64.1 (7.1)	0.49
Male gender n (%)	16 (45.7)	17 (47.2)	0.72
Current smoker n (%)	16 (45.7)	10 (27.7)	0.23
Hypertension n (%)	24 (68.5)	26 (72.2)	0.55
Diabetes Mellitus n (%)	2 (5.7)	4 (11.1)	0.42
CHD n (%)	6 (17.1)	8 (22.2)	0.6
COPD n (%)	8 (22.8)	7 (19.4)	0.73
Fontaine classification n (%)22
Class 2b	27 (77.1)	30 (83)
Class 3	6 (17.1)	6 (16.7)
Class 4	2 (2.7)	0
Cerebrovascular disease n (%)	2 (5.7)	3 (8)	0.67
Previous PTA n (%)	14 (40)	12 (33)	0.74
Previous vascular surgery n (%)	3 (8.5)	3 (8)	0.97

Notes: Independent samples t-test; Fountain classification; a classification of symptoms in peripheral arterial disease22.

Abbreviations: NLAST, Norwegian laparoscopic aortic surgery; CHD, coronary heart disease; COPD, chronic obstructive pulmonary disease; PTA, percutaneous transluminal angioplasty.

The preoperative questionnaire response rate was 97% in the LABFB and 94.4% in the OABFB. The postoperative response rates for laparoscopy and open group were 91.4% versus 91.7% at one month, 88.6% versus 88.9% at 3 months, 94.3% versus 88.9% at 6 months, 94.3% versus 83.3% at 12 months and 91.4% versus 83.3% at 24 months, respectively.

The results of comparing the SF 36 domain scores and the PCS and MCS, between LABFB and OABFB at each follow-up time-point, are given in Table 3 and illustrated in Figure 2. At 1 month time-point, the LABFB had a significantly higher increase in seven of the eight SF-36 domains’ scores (PF p = 0.006, BP p = 0.027, GH p = 0.018, VT p = 0.029, SF p = 0.044, RE p = 0.027, MH p = 0.016) as compared with the OABFB. The summary scores, PCS and MCS, were also significantly higher (p = 0.028 and p = 0.023) in the LABFB group than the OABFB group.

Table 3

Longitudinal Comparison of SF-36 Domain Scores at Different Follow-Up Time-Points Between the Laparoscopic and Open Aortobifemoral Bypass Patients with AIOD, TASC II Type D Lesions.2

	LABFB	OABFB	P-value	LABFB	OABFB	p-value	LABFB	OABFB	p-value
	Median (IQR)	Median (IQR)		Median (IQR)	Median (IQR)		Median (IQR)	Median (IQR)
	Preop.			1 Month			3 Months
PF	30 (25)	30 (16)	0.668	80 (35)	65 (25)	0.006	85 (30)	70 (28)	0.112
RP	25 (44)	15.5(40)	0.871	53 (50)	50 (54)	0.14	88 (31)	75 (38)	0.037
BP	31 (19)	31 (19)	0.995	62 (33)	41 (31)	0.027	74 (40)	57 (43)	0.049
GH	47 (27)	45 (27)	0.895	73.5(30)	60 (31)	0.018	77 (33)	67 (30)	0.19
VT	38 (44)	34.5(33)	0.8	50 (31)	44 (28)	0.029	75 (32)	53 (42)	0.012
SF	56.5(53)	50 (37)	0.947	75 (44)	63 (44)	0.044	100 (25)	75 (42)	0.006
RE	50 (69)	75 (63)	0.45	100 (42)	58 (71)	0.027	100 (25)	75 (42)	0.071
MH	67.5(31)	67.5(35)	0.399	85(28,7)	65(32.5)	0.016	90 (10)	77.5(35)	0.127
PCS	32 (10)	30.5(11)	0.956	47.5(13)	43 (11)	0.023	53 (11)	48 (14)	0.043
MCS	48.5(23)	46 (17)	0.941	54.5(20)	42 (21)	0.028	57 (10)	49 (19)	0.048
	6 Months			12 Months			24 Months
PF	90 (20)	77.5(29)	0.109	90 (25)	80 (30)	0.011	90 (22)	75 (28)	0.018
RP	94 (25)	75 (40)	0.038	94 (25)	75 (50)	0.094	91 (31)	75 (22)	0.122
BP	84 (49)	72 (25)	0.041	79 (49)	72 (33)	0.432	80 (48)	67 (41)	0.054
GH	72 (30)	74.5(45)	0.558	77 (38)	72 (41)	0.296	72 (29)	62 (31)	0.101
VT	69 (29)	63 (34)	0.16	75 (35)	63 (37)	0.102	66 (30)	56 (34)	0.431
SF	100 (12)	88 (37)	0.022	100 (91)	75 (44)	0.022	100 (25)	88 (44)	0.249
RE	100 (4)	87.5(25)	0.016	100 (31)	92 (25)	0.631	100 (6)	92 (25)	0.084
MH	90 (20)	85 (30)	0.239	90 (25)	80 (38)	0.096	85 (14)	85 (23)	0.746
PCS	53 (8)	48 (12)	0.057	53 (10)	46 (38)	0.11	53.5 (14)	47 (10)	0.018
MCS	58 (8)	56 (14)	0.10	57 (15)	51 (18)	0.263	57 (10)	54 (13)	0.964

Note: Statistics Mann–Whitney U-test.

Abbreviations: PF, physical functioning; RP, role physical; BP, bodily pain; GH, general health; VT, vitality; SF, social functioning; RE, role emotional; MH, mental health; PCS, physical component score; MCS, mental component score; LABFB, laparoscopic aortobifemoral bypass; OABFB, open aortobifemoral bypass; IQR, Interquartile range; AIOD, Aortoiliac occlusive disease; TASC, Trans-Atlantic Inter-Society Consensus.

Figure 2

SF-36 individual and summary scores at different time-points for 71 patients randomized to either laparoscopic or open aortobifemoral bypass to treat advanced aortoiliac occlusive disease, TASC II Type D lesions.2 The vertical bars represent interquartile range.

At the 3-month time-point, the LABFB group, as compared with the OABFB group, had a significantly higher increase in four of the eight SF-36 domains’ scores (RP p = 0.037, BP p = 0.049, VT p = 0.012, SF p = 0.006), as well as both PCS (p = 0.043) and MCS (p = 0.048).

At the 6-month time-point, the LABFB group, compared with the OABFB, had a significantly higher increase in four of the eight SF-36 domains’ scores (RP p = 0.038, BP p = 0.041, SF p = 0.022, RE p = 0.016), but MCS and PCS were not significantly different between the groups.

At the 12-month time-point, two SF-36 domains’ scores (SF p = 0.022 and PF p = 0.011) were still significantly higher in favor of the LABFB group than the OABFB, but the groups did not differ significantly in terms of PCS and MCS.

At the 24-month time-point, PF (p = 0.018) and PCS (p = 0.018) were still significantly higher in the LABFB group than the OABFB.

The mixed model regression analysis results showed that PCS scored significantly better in the LABFB group than OABFB. Operation time affected significantly negatively on the PCS. Gender, age and reoperations, and the length of hospital stays did not significantly affect the PCS in both groups.

The effect of operation type on MCS favored LABFB; however, it had a borderline statistical significance p = 0.05. In both groups, postoperative MCS was not significantly affected by gender, age, operation time, reoperations, and length of hospital stay within 30 days postoperatively. The results of the mixed model analysis are presented in Table 4.

Table 4

Mixed Model Analysis of Different Variables Effects on PCS, MCS, and EQ-5D Scores in the Patients with Advanced Aortoiliac Occlusive Disease, TASC II Type D Lesions.2

	Coefficient	Std. Error	t	Sig.	95% CI
					Lower	Upper
PCS
Intercept	47.8	6.68	7.16	0.000	34.668	60.937
LABFB	2.456	1.136	2.16	0.031	0.221	4.691
OABFB	0
Operation time	−0.011	0.0052	−2.02	0.044	−0.021	0.000
Length of hospital stay	−0.112	0.113	−0.99	0.324	−0.335	0.111
Female	1.121	0.99	1.132	0.258	−0.827	3.069
Male	0
Reoperation (no)	−1.343	2.20	−0.60	0.543	−5.682	2.997
Reoperation (yes)	0
Time 12 months postop.	1.090	1.62	0.672	0.502	−2.10	4.281
MCS
Intercept	51.08	6.39	7.993	0.000	38.51	63.651
LABFB	2.455	1.298	1.899	0.050	−0.088	4.998
OABFB	0
Operation time	0.007	0.006	1.099	0.273	−0.005	0.019
Length of hospital stay	−0.024	0.129	−0.186	0.852	−0.278	0.23
Female	0.073	1.148	0.064	0.949	−2.186	2.333
Male	0
Reoperation (no)	1.781	2.536	0.702	0.483	−3.208	6.77
Reoperation (yes)	0
Time 12 months postop.	−1.427	1.765	−0.809	0.419	−4.899	2.045
EQ-5D
Intercept	0.906	0.086	10.488	0.000	0.736	1.076
LABFB	0.076	0.0174	4.355	0.000	0.042	0.110
OABFB	0
Age	−0.001	0.001	−0.873	0.383	−0.004	0.002
Male	0.02	0.017	1.163	0.246	−0.014	0.054
Female	0
Time 12 months postop.	−0.003	0.0300	−0.112	0.911	−0.062	0.056

Abbreviations: PCS, physical component score; MCS, mental component score; EQ-5D, EuroQol 5 dimensions level; TASC II, Trans-Atlantic Inter-Society Consensus II.

The comparison of SF-36 median scores in both patient groups with the age-matched Norwegian population showed significantly lower preoperative QoL scores in the study population.23 All SF-36 domains in LABFB were improved at 1-month follow-up and were even better after 3-month as compared with the general norms. This improvement in the QoL domains was consistent throughout the follow-up period. In the OABFB group, all SF-36 domain scores increased postoperatively at all follow-up time-points, except for RE and MH at 1-month time-point. Figure 3 illustrates the changes in SF-36 QoL domains in both treatment groups compared with the preoperative scores.

Figure 3

SF-36 median individual domain scores change as compared with the preoperative scores at 1, 3, 6, 12 and 24 months postoperatively in 71 patients randomized to either laparoscopic aortobifemoral bypass (LABFB) or open aortobifemoral bypass (OABFB) for the treatment of aortoiliac occlusive disease, Trans-Atlantic Inter-Society Consensus II, Type D lesions.2 (Wilcoxon Signed Ranks Test, for LABFB p<0.005 for all time points; for OABFB p<0.005 except at 1 month for VT, SF, MH and RE). Age-matched Norwegian population norms for SF-36 domains are also plotted.23

The EQ-5D median scores for each time-point showed significantly better postoperative scores until 12 months in the LABFB group than the OABFB group. The comparison of the EQ-5D scores in both treatment groups at each time point is given in Table 5.

Table 5

Longitudinal Comparison of EQ-5D Scores in 71 Patients Randomized to Either Laparoscopic or Open Aortobifemoral Bypass to Treat AIOD, TASC II Type D Lesions.2

EQ-5D	Preop.	1 Month	3 Months	6 Months	12 Months	24 Months
	Median (IQR)	Median (IQR)	Median (IQR)	Median (IQR)	Median (IQR)	Median (IQR)
LABFB	0.58 (0.42)	0.92 (0.11)	0.937 (0.15)	0.937 (0.09)	1 (0.12)	1 (0.14)
OABFB	0.49 (0.31)	0.765(0.18)	0.833 (0.16)	0.859 (0.17)	0.879(0.19)	0.879(0.19)
p- value *	0.911	<0.001	0.03	0.005	0.03	0.70

Note: Statistics: Mann–Whitney U-test*.

Abbreviations: IQR, interquartile range; AIOD, aorto-iliac occlusive disease; TASC II, Trans-Atlantic Inter-Society Consensus II; LABFB, laparoscopic aortobifemoral bypass; OABFB, open aortobifemoral bypass; EQ-5D, EuroQol 5 dimensions.

In a mixed model regression analysis, only operation type significantly affected EQ-5D scores, favoring LABFB, p < 0.001. Age and gender had no significant effect on EQ-5D scores.

Postoperative EQ-5D scores showed significant improvement at all time points in both treatment groups as compared with the preoperative scores (p < 0.001) (Figure 4). The comparison of EQ-5D VAS scores at different time points between the treatment groups showed significantly higher scores at 1 and 12 months postoperatively in the LABFB group (Table 6).

Figure 4

Comparison of EQ-5D median scores preoperatively, and at 1, 3, 6, 12, and 24 months after laparoscopic or open aortobifemoral bypass in 71 patients with advanced aortoiliac occlusive disease, TASC II Type D lesions.2 Vertical bars represent interquartile range. (Mann–Whitney U-Test: significant p value at 1, 3, 6 and 12 months postoperatively, <0.001, <0.03, <0.005 and <0.03 respectively, in favor of Laparoscopic operation).

Table 6

Comparison of EQ-5D, Visual Analog Scale (VAS) at Different Time-Points in 71 Patients with AIOD, TASC II Type D Lesions, Randomized to Either Laparoscopic or Open Aortobifemoral Bypass Treatment.2 EQ-5D VAS Represents the Patient’s Perception of His/Her Current Health Status Ranging from 0 to 100, where 100 is the Best Possible Health Status.

EQ-5D VAS	Preoperative	1 Month	3 Months	6 Months	12 Months	24 Months
	Median (IQR)	Median (IQR)	Median (IQR)	Median (IQR)	Median (IQR)	Median (IQR)
Laparoscopy	50 (25)	80 (15)	85 (19)	80 (25)	80 (24)	80 (35)
Open	45 (20)	62.5(33)	75 (33)	70 (35)	70 (40)	70 (25)
p-value*	0.143	0.005	0.065	0.7	0.037	0.137

Note: *Mann–Whitney U-test.

Abbreviations: IQR, interquartile range; EQ-5D VAS, Euroqol 5 dimensions visual analog scale.

Discussion

To the best of our knowledge, this is the first randomized study that investigates and compares the impact of LABFB and OABFB on the short and mid-term QoL of patients with AIOD, TASC II type D lesions. The QoL has been investigated with SF-36 and EQ-5D questionnaires for a follow-up period of 24 months. SF-36 and EQ-5D are the most frequently used QoL instruments. Both are validated for assessing QoL in PAD.24,25 SF-36 has been validated for the assessment of the QoL of the Norwegian population.23,26

Considering the duration of the study over six years, a response rate of 83.3% to 97% is relatively high. The preoperative response rate was not 100%, but it could be explained by the patient’s inability to fill the QoL questionnaires due to illness. The postoperative response rate above 83% at 24 months, including drop-out before surgery (2.8%) and death (2.8%) during follow-up, is acceptable.

This study confirms that the patients with AIOD, TASC II type D lesions have significantly reduced QoL compared with the age-matched Norwegian general population. The baseline QoL scores in our study are even worse than previously reported SF-36 scores in patients with intermittent claudication, probably due to the severity of their disease.27

Postoperative SF-36 results showed that the patients treated with either technique, ie, LABFB or OABFB, achieved a statistically significant improvement in QoL, already at the first measuring time-point (1-month). This improvement in the QoL continued at three months. The effect of the operative treatment on QoL was consistent throughout the postoperative follow-up period of 24 months for both groups. At 24 months, all domains of SF-36 are close to the age-matched Norwegian general population.

However, the magnitude of the improvement in QoL at different postoperative time points was more in the patients treated with LABFB than with OABFB, shown by the SF-36 summary scores and the individual domain scores. SF-36 is an excellent tool for objectively registering the changes in all physical and mental components of the QoL.16,28

Postoperative EQ-5D scores are significantly better in the LABFB than OABFB at all time points until 12 months. However, at the 24-month the difference between the two groups was no longer significantly different. A persistent improvement in the QoL was observed throughout the follow-up time of this study for both operative procedures, with the help of EQ-5D. EQ-5D has been a frequently used questionnaire by health economists for performing cost-effectiveness analysis. EQ-5D questionnaires are simple, and it takes a shorter time to be answered by the patients.29,30

Based on the EQ-5D VAS, the patients in the LABFB had better postoperative general health perception than OABFB patients at 1 and 12 months postoperatively.

In this study, all three PROMs tools have confirmed a better improvement in the QoL of the patients in the LABFB than OABFB. The study has shown better QoL in the patients after laparoscopic operation at 1 and 3 months postoperatively, assessed with SF-36. However, individual domains and the component scores are significantly better in the laparoscopy group beyond the first two postoperative time-points. QoL assessment results of SF-36 in this study are in accordance with the results of previous publications.31,32

Both surgical procedures seem to provide a significant improvement in the QoL of these patients compared with the preoperative QoL. Interestingly, postoperatively, the QoL in both patient groups comes to the general Norwegian population norms level. However, in the case of laparoscopic bypass, the QoL domains after three months’ time-point scored higher than the open group and the Norwegian norms. Partly, this can be due to the ceiling effect, which is mainly well known for the PF, RP, BP, Sf, and RE scales.26,33 Another factor that could have added to the difference between the groups could be the impact of postoperative complications on the QoL. Although regression analysis performed has not found any statistically significant effect of 30 days complications and hospital stay, complications beyond 30 days have not been included in this analysis. This study is a sub-study that was not powered for analyzing the effect of complications on the QoL, and this factor adds to the study limitations. Nevertheless, the strength of our study is its randomized design.

Another limitation of this study is the lack of a disease-specific quality of life questionnaire. No validated disease-specific questionnaire was available in the Norwegian language at the NLAST trial. VascuQol-6 is a disease-specific questionnaire that was not validated in the Norwegian language until 2017.34 However, this disease-specific questionnaire would not necessarily capture the differences in the QoL after major abdominal surgery.

Conclusion

The patients with AIOD TASC II type D lesions operated with laparoscopic aortobifemoral bypass seem to achieve earlier, better, and sustainable improvement in their postoperative QoL than patients treated with open aortobifemoral bypass.