The surgical techniques used in the field of BS may be classified as malabsorptive, restrictive and mixed (Fig. 1). Malabsorptive techniques such as the biliopancreatic diversion reduce intestinal length and therefore reduce nutrient absorption. Although these techniques give greater weight loss over the long term, they are now used less often due to the risk of nutritional deficits, and because of the higher rate of morbimortality associated with the procedure. On the other hand, use of purely restrictive techniques such as an adjustable gastric band or ringed vertical gastroplasty is limited because of their results in terms of weight loss or the remission of comorbidities.19

Figure 1.

Types of bariatric surgical techniques. Adapted from Pories WJ. Bariatric surgery: Risks and rewards. J Clin Endocrinol Metab. 2008;93:S89-96.

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The most widely used techniques now are laparoscopic Roux-en-Y gastric bypass (LRYGB) and laparoscopic tubular gastrectomy (LTG), due to their short-term results in terms of weight loss and resolution of the comorbidities associated with obesity.18 LRYGB is a mixed technique that combines partial exclusion of the stomach by means of gastroplasty with a bypass of the duodenum with the proximal jejunum, with the resulting effect of malabsorption. For many years this has been considered to be the technique of choice due to its good results, with a better balance between efficacy and adverse effects.18 It also seems that its efficacy is determined by other mechanisms which go beyond the weight loss observed after this surgical procedure.20

Different alterations have been observed in the gastrointestinal hormones associated with satiety and ingestion after LRYGB. On the one hand, there is an increase in hormones with an incretin effect, such as the peptide similar to type 1 glucagon (GLP-1) and the YY (PYY) peptide over the short term after surgery, and their levels remain high over the long term.21 Among other functions, the incretin hormones favour insulin secretion and delay gastric emptying, contributing positively to weight loss and improved carbon hydrate metabolism. Other hormones are modified after del LRYGB, as described in detail in Table 2.

The concentration of biliary acids also increases after LRYGB,22 and on the other hand, alterations have been described, mainly in animal models, in the intestinal microbiota after this procedure.23

LTG is a technique that was performed for the first time in 1988 as a variant of the biliopancreatic diversion with a duodenal switch.24 Subsequently, at the beginning of the 21st century its use was based on first step surgery before using a malabsorptive technique in patients with extreme obesity (BMI > 50 kg/m2).25 A second operation was unnecessary for the majority of patients, given the good weight loss results. LTG therefore became an operation that was definitive in many cases.26 LTG consists of a subtotal vertical gastrectomy with preservation of the pylorus, including a longitudinal resection of the fundus, the gastric body and antrum. The resection compromises approximately 80% of the stomach, with a gastric remnant of >100 ml. It is considered to be the simplest surgical technique in comparison with others, such as LRYGB, as it requires less anastomosis and has a lower rate of complications.

Although LTG is a restrictive technique, it has obtained better results than other restrictive techniques, similar to LRYGB in terms of weight loss and the short-term remission of certain comorbidities.27 This may be attributed to different mechanisms that go beyond the restrictive component. Some of the factors described, in a similar way to LRYGB, are associated with modifications to intestinal motility, hormonal mechanisms and alterations in the biliary acids or intestinal microbiota.28

LTG is now considered to be far more than a restrictive technique, and it overtook LRYGB in 2014 to become the most widely used technique in the world.29 In Spain, LTG has progressed from representing 0.8% of all cases of BS to become the second most widely used, at 39.6%, and it is only surpassed by LRYGB.30 Nevertheless, although the medium to long-term results for LRYGB are well-known, this is not the case for LTG, as it is a relatively new technique, so that it has yet to be confirmed whether these techniques are equivalent by longer clinical follow-up studies.

BS is universally acknowledged to be better than conservative medical treatment in terms of weight loss and the remission of several comorbidities, with the resulting reduction in cardiovascular risk.

In the case of dyslipidemia, the meta-analysis by Buchwald et al.18 found an improvement or resolution of 70%, with similar results to those of previous studies that evaluated the overall remission of dyslipidemia.31,32 This gives rise to certain limitations, as firstly there is no unanimous agreement on the definition of the remission of dyslipidemia, so that the results of different studies are not always comparable. Secondly, the fact that dyslipidemia is evaluated as a whole means that the evolution of different lipid fractions is not taken into account.

On the other hand, and as was pointed out above, the characteristic lipid alteration in patients with obesity is composed of reduced levels of HDL cholesterol and hypertriglyceridemia. The evaluation of this atherogenic profile after BS is indispensible, as it may explain the reduction in residual cardiovascular risk shown by these patients.33 Thus previous studies have observed a fall of from 30% to 63% and an increase of from 12% to 39% in triglycerides and HDL cholesterol, respectively, after BS.34,35 Similarly, a study by our group evaluated the remission of AD one year after LRYGB and LTG.36 AD was present in 81 of 356 patients (22.8%), and in 74.1% remission occurred by 3 months and 90.1% at 6 months, reaching 96.3% at 12 months after the surgical procedure. Likewise, HDL cholesterol rose 6 months after BS in both groups (with and without AD), with a significantly greater increase in the atherogenic profile group (47.6 ± 31.6 versus 24.1 ± 23.2%, respectively; P < .001). There was also an evident improvement in triglycerides in the first three months after surgery in both groups, with a significantly greater reduction in the group with AD during the entire follow-up period (49.3 ± 21.3 versus 21.2 ± 53.0%, respectively; P < .001).

Regarding the different techniques of BS, in the majority of studies LRYGB and LTG obtained comparable results in terms of weight loss and the remission of several associated diseases over the short to medium term.37–40

It seems that the difference between both surgical procedures may lie in their effect on the lipid profile. Thus, in studies with a short follow-up period LRYGB has been said to be superior to LTG in how it improves concentrations of total cholesterol and LDL cholesterol.41,42 However, the short-term results for triglycerides and HDL are contradictory.43,44 One study by our group45 with a one-year follow-up included 51 patients treated by LRYGB and 51 treated by LTG. The results concluded that the mixed technique improved all of the lipid fractions, while the restrictive technique, although it had no effect on LDL cholesterol levels, had the same or more effect as the malabsorptive techniques in increasing HDL cholesterol. On the contrary, the study by Vix et al.,46 which included 45 patients in the LRYGB group and 55 in the LTG group, with a one-year follow-up, found that the first group performed better in reducing total and LDL cholesterol and raising HDL cholesterol, with no differences between the techniques respecting triglyceridemia. Given the heterogeneous results of comparing lipid profile evolution after LRYGB or LTG over the short term, our group decided to compare the different studies published to date in a meta-analysis.47 A total of 17 papers were included (4 randomised clinical trials, 6 cohort studies and 7 control cases). Hypercholesterolemia remission was greater after LRYGB than it was after LTG (relative risk: 1.43; CI 95%: 1.27–1.61), and no differences were found between the two surgical techniques in hypertriglyceridemia evolution (relative risk: 1.11; CI 95%: 1.00–1.23) or low HDL cholesterol (relative risk: 0.96; CI 95%: 0.02–57.28). The change in the concentration of different lipid fractions was also evaluated. LRYGB was superior to LTG in terms of the reduction in total cholesterol (average difference: 19.77 mg/dl; CI 95%: 11.84–27.69). A greater fall was also detected in LDL cholesterol after LRYGB in comparison with LTG (average difference: 19.29 mg/dl; CI 95%: 11.93–26.64). On the other hand both surgical techniques were similar in terms of their results for triglycerides (average difference: −1.19 mg/dl; CI 95%: −10.99 to 8.60), as well as the rise in HDL cholesterol concentration (average difference: .47 mg/dl, CI 95%: −1.43 to 2.37).

Furthermore, very few studies compare LRYGB to LTG over 5 years in terms of lipid profile evolution.48,49 The majority evaluated the overall remission of dyslipidemia, as did Zhang et al.50 They found a remission of 92.3% and 84.6% at 5 years after LRYGB and LTG, respectively, although the differences were not significant. Other studies evaluated changes in the concentrations of different lipid fractions after BS. Thus the recently published randomised clinical trial SLEEVEPASS51 (119 patients treated by LRYGB and 121 by LTG) found lower levels of LDL cholesterol LDL 5 years after LRYGB in comparison with LTG (96.5 mg/dl versus 104.3 mg/dl; P = .02). Likewise, the SM-BOSS52 study (with 110 patients operated using LRYGB and 107 using LTG), and following the same line, also found a greater reduction in LDL cholesterol after the mixed technique in comparison with the restrictive technique (101.1 mg/dl versus 116.1 mg/dl; P = .008). However, neither study found differences between the techniques respecting other lipid fractions.

Finally, a recent study by our group53 compared the results 5 years after LRYGB and LTG. This evaluated the change in concentration as well as the remission of hypercholesterolemia, hypertriglyceridemia and low HDL cholesterol. 151 of the 259 patients (58.3%) completed 5 years of follow-up, of whom 103 (68.2%) had received LRYGB and 48 (31.8%) LTG. Hypercholesterolemia remission (26/58 [44.8%] versus 6/26 [23.1%]; P = .047) as well as high LDL cholesterol (30/49 [61.2%] versus 6/23 [26.1%]; P = .005) at 5 years were all greater after LRYGB than they were after LTG. Nevertheless, the number of patients who achieved normal levels of HDL cholesterol at 5 years after surgery was similar in both techniques (39/47 [83.0%] and 18/23 [78.3%] after LRYGB and LTG, respectively; P = .633). Hypertriglyceridemia remission at 5 years was greater after LRYGB than it was after LTG (23/25 [92.0%] versus 10/15 [66.7%]; P = .041). However, LTG showed a higher rate of relapse during follow-up.