Bariatric surgery is on the rise in Spain, with increasingly safer procedures but exposure to postoperative complications. The risk of deep vein thrombosis (DVT) ranges between 0.2% and 2%1 depending on the type of surgery, associated comorbidities, degree of obesity, clinical or radiological definition of thrombosis, and follow-up.2 The diagnosis of pulmonary embolism (PE) is less common but can be fatal.

A recent publication has described the advantages of multimodal rehabilitation or enhanced recovery protocols in reducing complications after bariatric surgery.3,4 One of the most relevant results is the lower incidence of thrombotic events,5,6 which, however, is accompanied by an increased risk of hemorrhage.3,7

The best prevention strategy is to apply preventive measures, including low-molecular-weight heparin, (LMWH), mechanical compression, early ambulation.8–12 Currently, there is no consensus on the dosage, duration of pharmacological prophylaxis, some authors propose a duration of 3–4 weeks,13 but others propose shorter regimens, reserving extended prophylaxis for high-risk patients.5,14

In 2016, the Spanish Society of Obesity Surgery (SECO) and the Obesity Division of the Spanish Association of Surgeons (AEC) published guidelines for thromboembolism prophylaxis in bariatric surgery,15 applying enhanced recovery programs to recommend shorter and reduced chemoprophylaxis guidelines.

The objective of this study was to determine the risk of thrombosis and hemorrhage in bariatric surgery using multimodal rehabilitation programs, comparing the results of 2 short (10-day) regimens of pharmacological thromboembolic prophylaxis: one based on fondaparinux (Arixtra® GlaxoSmithKline) and another on enoxaparin (Clexane® Sanofi Aventis).

Between 2010 and 2019, 675 patients were operated on. During the 2010−2015 period, 354 were treated with fondaparinux (FONDA group), while in the 2016−2019 period, 321 were treated with enoxaparin (ENO group).

Table 1 shows the baseline characteristics of both groups. There were no significant differences, except in BMI (one point lower in the ENO group) and the higher revision surgery rate in the second period due to the cumulative effect of complications with the time elapsed after the primary surgery. In the correlation analysis between the patients with revision surgery and bleeding episodes, there were no significant differences.

Table 2 shows the results, without registering any cases of clinical DVT or PE. There were 32 cases of bleeding (4.7%), 15 in the FONDA group and 17 in the ENO group, with no significant differences in the most relevant clinical and technical variables described in Table 3. When we analyzed serious bleeding (reoperation or transfusion), there were 11 cases in the ENO group (3.4%) and 5 in the FONDA group (1.4%), with no significant differences. In the ENO group, 6 patients were transfused with a mean of 4.5 units (3–7) and in the FONDA group there were 4 patients with a mean of 5 units (2–10). Most of the hemorrhages were digestive, in the form of melena or rectal bleeding (84%), with no differences between the groups.

There were 4 patients with non-bleeding complications: 2 in the FONDA group (2 leaks), and 2 in the ENO group (1 postoperative appendicitis and 1 intestinal obstruction). The reoperation rate was 1%. Overall mortality was zero.

All operations were performed laparoscopically, with no conversions to open surgery. The mean preoperative weight loss was 7 kg. The overall mean stay was 2.8 ± 2 days. Outpatient follow-up participation was 100% during the first 6 months and 95% after 12 months.

The objective of this study was to determine the efficacy and safety of the thromboprophylaxis protocol for bariatric surgery published by SECO and the Obesity Division of the AEC in 2016.15

We have analyzed 2 reduced regimens for pharmacological thromboprophylaxis recommended in the guidelines: one with enoxaparin, and the other with fondaparinux. The latter is a factor Xa inhibitor that has a set dosage, regardless of BMI, which is initiated 6–8h after surgery. Due to these properties, fondaparinux was the treatment of choice in the first study period, from 2010 to 2015. Subsequently, the adjusted enoxaparin regimen proposed in the guidelines was adopted due to the cost and difficulty of purchasing fondaparinux in non-hospital pharmacies.

In the cohort treated with enoxaparin, we used the most conservative of the recommended regimens: prophylaxis initiated 6–8h after surgery, one single daily dose following the hospital care guidelines for postoperative patients, and a duration of 10 days (including hospitalization). The dose was the lowest adjusted to the BMI: 40mg/day at BMI between 35 and 40, and 60 mg/day when the BMI was between 40 and 60.

Both thromboprophylaxis guidelines were very safe, as no case of clinical DVT or PE was detected in the sample analyzed (675 patients) despite the high percentage of diversion techniques (85%), revision surgeries (5.8%), and risk factors, such as type 2 diabetes mellitus (28.1%) or obstructive sleep apnea syndrome (21.3%).

For the early detection of a thromboembolic or hemorrhagic event, patients were closely monitored while hospitalized. The outpatient follow-up included a strict outpatient control, with a follow-up rate of 100% during the first semester and 95% one year after surgery. The lack of clinical thrombosis after 12 months of follow-up was due to a combination of several factors: first, the prioritization of ambulation and mobility immediately after surgery; second, the low incidence (0.6%) of major non-hemorrhagic postoperative complications; and, finally, the short mean hospital stay (2.8 days). Undoubtedly, complications that entail an increase in hospital stay or longer immobilization increase the risk of thrombosis and require a more aggressive approach in the dosage and duration of prophylaxis.5,14

In this study, the application of multimodal rehabilitation measures was very strict and followed the RICA Guidelines of the Spanish Ministry of Health,16 the Spanish Multimodal Rehabilitation Group10 and the SECO Clinical Pathway,11 with special attention to preoperative optimization, multidisciplinary assessment, protocolization of techniques, early ambulation, and oral tolerance. In the study, the use of mechanical pneumatic compression systems was very strict to favor propulsion and venous circulation while the patient was immobilized in the operating room.17 It is surprising that its use is not more extended to all abdominal surgery interventions19 when it is an effective method with few side effects.

In 2018,20 Altieri et al. analyzed an American registry of 11 860 bariatric patients treated with SG or GBP. They reported a striking incidence of thrombosis in a group of 3987 patients without chemoprophylaxis, which was only 0.58% and decreased to 0.18% when a chemoprophylaxis regimen was administered (pre-, postoperative or both). The results of our study, combining minimally invasive surgery, multimodal rehabilitation, and mechanical and pharmacological prophylaxis, show that the current thrombotic risk can be very low.

The incidence of bleeding events in the study was high (4.7%), but these results are within the same range of the American registry by Altieri et al,20 where the incidence of postoperative bleeding requiring transfusion ranged between 1.9% and 5%.

The bleeding risk was similar in both therapeutic groups (4.2% in the FONDA group vs 5.3% in the ENO group), although the incidence of serious events (reoperated or transfused) was higher in the group with enoxaparin, without reaching statistical significance. When we analyzed the subgroup of patients with bleeding, there were no significant differences between the two groups in terms of age, BMI, number of bypass and revision surgeries, or history of thrombosis or previous anticoagulation.

We have analyzed different aspects of the study to explain these results, such as the chemoprophylaxis regimen or the experience of the team. Fondaparinux is prescribed with a set dose, regardless of BMI, while enoxaparin is prescribed based on BMI, without quantifying ideal weight or the actual volume of distribution, which could lead to a supratherapeutic level that would explain the postoperative bleeding. In our opinion, the increased dosage with LMWH recommended for the obese population compared to the non-obese population may be excessive when multimodal rehabilitation programs are applied that reduce the risk factors for thrombosis and equate them with other surgical patients, leading to high doses that may favor the hemorrhagic events observed in this study.

With regards to the experience of the team, bleeding was more frequent in the second period of the study, with enoxaparin prophylaxis, when the main surgeons had accumulated more than 1000 laparoscopic bariatric interventions.

According to the national venous thromboembolism survey published by Arcelus Martínez et al.,19 the multidisciplinary thrombosis committees of each hospital must adapt their postoperative prophylaxis guidelines, as the risk of postoperative hemorrhage can be as serious as the risk of a thrombosis.

The limitations of this retrospective study include the fact that subclinical thromboembolic events have been underestimated, since systematic imaging tests were not performed and only clinical events have been quantified, while assuming that these complications are highly unlikely to go unnoticed under strict outpatient follow-up. However, prospective studies with imaging tests are needed to correctly analyze this problem.

The combination of multimodal rehabilitation programs and mechanical and pharmacological thromboprophylaxis in bariatric surgery reduces the risk of thrombosis and, therefore, may justify reduced pharmacological prevention regimens to lower the risk of postoperative bleeding. In our study, no differences were found between the use of short courses of fondaparinux and enoxaparin. However, new prospective and multicenter studies are needed to establish the safest and most efficient regimens in the bariatric population.

This study has received no specific funding from public, commercial, or non-profit organizations.

None.