Major Intraoperative Complications During Minimally Invasive Esophagectomy

An invitation to join the study was sent to 19 esophageal surgery centers in 9 European countries. Participating centers were required to have > 3 years’ experience with minimally invasive (thoracoscopic + laparoscopic) esophagectomy and have a prospective or otherwise thorough patient registry. Each center identified complication cases in their institutional patient registries for submission. The data were collected using an Excel table and pseudonymized before submission to the primary researchers. All consecutive patients who experienced IOCs during intention-to-treat MIE for esophageal and GE junction cancer were included in the study. The study period was from the initiation of each participating center MIE program until 31 October 2019.

Major intraoperative complications were defined as (1) loss of planned conduit; (2) sudden blood loss of > 500 ml; (3) erroneous transection of vascular structures; (4) significant injury to other organs including bowel, heart, liver, or lung; (5) splenectomy; (6) major anesthesia related injuries or complications; and (7) immediate life-threatening situations including arrhythmia, myocardial infarction, and pulmonary embolism. We also included minor intraoperative events that led to additional resections or repair within 5 days postoperatively. To ensure no significant complications were overlooked in the initial patient registry screening, all centers especially surveyed the cases with conversion, total blood loss over 500 ml, operative time more than 400 min and re-operation within 5 days postoperatively. Cases with no resection due to oncological reasons were excluded.

Gathered data included patient characteristics, neoadjuvant therapy, histology, clinical and pathological TNM, tumor site, date of surgery, surgical technique, major intraoperative complications as defined above, intraoperative blood transfusion and blood loss, type of injury repair, reason for complication if apparent, reason for conversion when applicable, additional unplanned surgery, length of stay, and 90-day mortality.

The complications were classified as either “laparoscopic” or “thoracoscopic” depending on their occurrence during the abdominal or the thoracic phase of the procedure, respectively. These categories were further divided into “visceral” or “vascular” depending on the injured structure or organ. Complications fitting none of the subcategories, including anesthesia related incidences, were classified as miscellaneous.

The study was approved by the Helsinki University Ethical board. Researchers at each center applied for required national research and ethical permits.

Data from 2862 patients who underwent MIE between 2003 and 2019 at 10 centers in eight European countries were reviewed and screened. The response rate from invited centers was 52.6%. A total of 98 (3.4%) patients with 101 IOC events were identified and submitted for analysis. A conversion rate of 49% (N = 48) was noted, and 36.7% (N = 36) of the patients were converted due to a complication. There were two intraoperative deaths. Patient demographics and tumor characteristics are presented in Table 1. Hospital length of stay and mortality are shown in Table 2.

This multi-center study reports the intraoperative complications encountered during MIE amongst 2862 esophageal cancer patients and offers a comprehensive overview of the wide range of different types of possible injuries. In our series, injuries during laparoscopy were slightly more common than during thoracoscopy. Overall, vascular lesions were more common than visceral injuries, they were associated with more blood loss, and were more frequently deemed as immediately life-threatening. Counting parenchymal injuries to the spleen, 67 out of the 102 reported injuries were related to bleeding. We show that all blood vessels in the surgical field are at risk for significant injury, with 18 different vascular lesions reported. There was significant 90-day mortality, especially amongst those suffering vascular injuries in the chest, compared with previously benchmarked results.⁸ Although the retrospective nature of this study does not provide exact mortality figures, we can say with confidence that on-table deaths are exceedingly rare (0.07%).

IOCs in minimally invasive thoracic surgery have been scarcely investigated. A European multicenter study showed a low 1.5% IOC rate in VATS lung resections that was not related to surgeon experience but had an important impact on patient outcome.¹⁵

Several studies mention intraoperative MIE complications, but do not define complications, nor specify injuries. The incidence, however, seems to be low.^11‐14 The only randomized trial comparing MIE and OE reports no conversions due to intraoperative complications and does not mention any IOCs in either group.³ Luketich et al. published a large series of 1011 MIE in 2012 noting no intraoperative mortality but some unanticipated intraoperative events including bleeding (1%), myocardial infarction (1%), and splenectomy (0.2%).¹¹ A Dutch group reviewed 2598 patients (48% MIE) and reported 23 splenectomies (0.9%), 10 intestinal damages (0.4%), and seven (0.3%) damages to the trachea. The postoperative re-intervention rate was 23.2% including radiological, endoscopic, and surgical procedures. As this was a study on BMI/outcome association, no differentiation in outcome between surgical approaches was mentioned.¹² In a recent study, Grimminger et al. compared semi-prone with left lateral thoracoscopy positioning in 141 consecutive patients and noted 6.38% and 5.32% IOC rates for the approaches, respectively. The group did not specify the complications, but there were no conversions for complications and no major vascular bleeding, airway injury, or anastomosis insufficiencies reported.¹³ The Brigham Esophageal Study Team reported surgical outcomes for 123 3-hole MIE patients and only noted one (0.8%) IOC in the entire cohort, a small-bowel injury requiring resection. There were, however, a significant number of blood transfusions reported during hospitalization (range 0–49 units), and bleeding was noted as a postoperative complication in four (3.3%) patients, including one reoperation for hemothorax.¹⁴ The complications described in the abovementioned studies were all found in our patient cohort. However, we found 65.7% of all reported complications to be related to bleeding. Only one of these studies reports bleeding as an unanticipated event,¹¹ while the largest series notes no bleeding but a 0.9% splenectomy rate.¹² This discrepancy could be explained by the lack of definition for significant intraoperative vessel injury. We included all injuries with more than 500 ml sudden blood loss, and those requiring intervention. This definition, in our opinion, accounts for situations that are potentially life-threatening if not promptly amended.

A large proportion of esophagectomies are still performed at low-volume centers which has been linked to a poorer outcome in several studies.^16‐18 In addition, esophagectomies are performed by a wide array of surgical specialties including thoracic surgeons, cardiothoracic surgeons, visceral/upper GI surgeons, surgical oncologists, and general surgeons, all with differing training backgrounds.¹⁹ Since intraoperative adverse events appear rare^11‐14 it can be assumed that many surgeons lack familiarity with the range of possible complications. As this study reports the different kinds of complications that may be encountered, it can help draw attention to the most hazardous parts of the operation and therefore increase surgical safety.

There are several limitations to this study, the main being its retrospective nature. Even though screening criteria were applied to ensure identification of complications, we still had to rely on operative notes and cannot assume all cases were recorded. Incidence can therefore not be concluded from this dataset. Another obvious limitation is the lack of a control group as we were unable to include the whole patient cohort in the analysis, limiting our ability to comment on IOC association with patient characteristics, postoperative morbidity, and cohort-specific mortality. A prospective study would provide more reliable data on incidence and correlation with outcomes. The strength of this study is the large cohort of patients that were not limited by type of neoadjuvant therapy or surgical approach. We identified a wide range of different types of complications, and this was not limited by the retrospective nature of the study. We are confident we included all on-table deaths.

In conclusion, this study sheds new light on different intraoperative complications and hazardous situations encountered during minimally invasive esophagectomy. Even though overall incidence appears low, mortality, especially from intrathoracic vascular injuries, can be quite significant.