Background ERAS guidelines have provided an effective recovery approach for esophagectomy. This study aimed to identify the relationship between the length of hospital stay (LOS) and compliance with clinical benchmarks of an established institutional ERAS program. Methods A single-center prospective database of esophageal cancer patients was retrospectively analyzed between January 2016 and January 2020. All patients underwent surgery within a standardized ERAS pathway for esophagectomy. Compliance with individual ERAS benchmarks and postoperative outcomes were evaluated according to patient's LOS; accelerated (B 6 days, AR), targeted (7-8 days, TR), and delayed recovery (C 9 days, DR). ResultsThe study included 100 consecutive patients undergoing esophagectomy with a median LOS of 7 (3.8-40.8) days, and a 30-day readmission rate of 12.6%. LOS was not affected by comorbidities, tumor type or stage, neoadjuvant therapy, operative approach or anastomotic leak. Postoperative complications were 49.5%, and 90-day mortality was 3.8%. AR, TR, and DL were achieved by 45%, 31%, and 24% of patients, respectively. Postoperative morbidity differed significantly among groups, impacting LOS (p \ 0.001). Overall compliance with ERAS protocol was 82.7% and adherence to specific benchmarks was initially (\ 48 h) high, but significantly affected by postoperative complications afterwards. Conclusions Adherence to recovery benchmarks in patients undergoing esophagectomy is most commonly impacted by postoperative complications. In esophageal cancer surgery, the adherence to ERAS benchmarks after esophagectomy should be regularly audited. Modification to ERAS protocols to increase application in patients with complications should be considered.
Does the drop in portal pressure after esophagogastric devascularization and splenectomy variation of variceal calibers and the rebleeding rates in schistosomiasis in late follow-up?
Minimally invasive surgical technique has become standard at many institutions in esophageal cancer surgery. In some situations, however other surgical approaches are required. Left thoracoabdominal esophagectomy (LTE) facilitates complete resection of esophageal cancer particularly for bulky distal esophageal tumors, but there are concerns that this approach is associated with significant morbidity. Prospectively entered esophagectomy databases from three high-volume centers were reviewed for patients undergoing LTE or MIE 2009–2019. Patient demographics, tumor characteristics, operative outcomes, postoperative outcomes, and pathologic surrogates of oncologic efficacy (R0 resection rate, and number of resected lymph nodes) were compared. In total 915 patients were included in the study, LTE was applied in 684 (74.8%) patients, and MIE in 231 (25.2%) patients. LTE patients had more locally advanced tumor stage and received more neoadjuvant treatment. Patients treated with MIE had more comorbidities. The results showed no difference in overall postoperative complications (LTE = 61.7%, MIE = 65.7%, P = 0.289), severe complications (Clavien–Dindo ≥IIIa (LTE = 25.9%, MIE 26.8%, P = 0.806)), pneumonia (LTE = 29.0%, MIE = 24.7%, P = 0.211), anastomotic leak (LTE = 7.8%, MIE = 11.3%, P = 0.101), or in-hospital mortality (LTE = 2.6%, MIE = 3.5%, P = 0.511). Median number of resected lymph nodes was 24 for LTE and 25 for MIE (P = 0.491). LTE was used for more advanced tumors in patients that were more likely to have received neoadjuvant treatment compared with MIE, however postoperative morbidity, mortality, and oncologic outcomes were equivalent to that of MIE in this cohort. In conclusion open resection with left thoracoabdominal approach is a valid option in selected patients when performed at high-volume esophagectomy centers.
Background Delayed gastric conduit emptying can occur after esophagectomy and has been shown to be associated with increased risk for postoperative complications. Application of a standardized clinical protocol after esophagectomy including an upper gastrointestinal contrast study has the potential to improve postoperative outcomes. Methods Prospective cohort including all patients operated with esophagectomy at two high-volume centers for esophageal surgery. The standardized clinical protocol included an upper gastrointestinal contrast study on day 2 or 3 after surgery. All images were compiled and evaluated for the purpose of the study. Clinical data was collected in IRB approved institutional databases at the participating centers. Results The study included 119 patients treated with esophagectomy of whom 112 (94.1%) completed an upper gastrointestinal contrast study. The results showed that 8 (7.1%) patients had radiological delayed gastric conduit emptying defined as no emptying of contrast through the pylorus. Partial conduit emptying was seen in 34 (30.4%) patients, and 70 (62.5%) patients had complete conduit emptying. Complete or partial emptying was associated with significantly earlier nasogastric tube removal (3 vs. 6 days) and hospital discharge 8 vs. 17 days, P < 0.001). Radiological signs of delayed gastric conduit emptying were shown to be associated with increased risk of postoperative complications. There was, however, no association with severe postoperative complications according to Clavien–Dindo score, pulmonary complications, anastomotic leak or need for intensive care. Conclusion The results of the study demonstrate that postoperative upper gastrointestinal contrast studies can be used to assess the level of emptying of the gastric conduit after esophagectomy. Application of upper gastrointestinal contrast study in the ERAS guidelines-driven standardized clinical pathway after esophagectomy has the potential to improve postoperative outcomes.
To determine the impact of enhanced recovery after surgery (ERAS) pathway implementation on outcomes and cost of robotic-and video-assisted thoracoscopic (RATS and VATS) lobectomy. MethodsRetrospective review of 116 consecutive VATS and RATS lobectomies in the pre-ERAS (Oct 2018-Sep 2019) and ERAS (Oct 2019-Sep 2020) period. Multivariate analysis was used to determine the impact of ERAS and operative approach alone, and in combination, on length of hospital stay (LOS) and overall cost. ResultsOperative approach was 49.1% VATS, 50.9% RATS, with 44.8% pre-ERAS, and 55.2% ERAS (median age 68, 65.5% female). ERAS patients had shorter LOS (2.22 vs 3.45 days) and decreased total-cost ($15,022 vs $20,155) compared with non-ERAS patients, while RATS was associated with decreased LOS (2.16 vs 4.19 days) and decreased total-cost ($14,729 vs $20,484) compared with VATS. The combination of ERAS + RATS showed the shortest LOS and the lowest total-cost (1.35 days and $13,588, p < 0.001 vs other combinations). On multivariate analysis, ERAS signi cantly decreased LOS (P = 0.001) and total-cost (P = 0.003) compared with pre-ERAS patients; RATS signi cantly decreased LOS (P < 0.001) and total-cost (P = 0.004) compared with VATS approach. ConclusionERAS implementation and robotic approach were independently associated with LOS reduction and cost savings in patients undergoing minimally invasive lobectomy. A combination of ERAS and RATS approach synergistically decrease LOS and overall cost.
Background Paravertebral pain catheters have been shown to be equally effective as epidural pain catheters for postoperative analgesia after thoracic surgery with the possible additional benefit of less hemodynamic effect. However, a methodology for verifying correct paravertebral catheter placement has not been tested or objectively confirmed in previous studies. The aim of the current study was to describe a technique to confirm the correct position of a paravertebral pain catheter using a contrast-enhanced paravertebrogram. Methods A retrospective cohort proof of concept study was performed including 10 consecutive patients undergoing elective thoracic surgery with radiographic contrast-enhanced confirmation of intraoperative paravertebral catheter placement (paravertebrogram). Results The results of the paravertebrograms, which were done in the operating room at the end of the procedure, verified correct paravertebral catheter placement in 10 of 10 patients. The radiographs documented dissemination of local anesthetic within the paravertebral space. Conclusion This proof of concept study demonstrated that a contrast-enhanced paravertebrogram could be used in conjunction with standard postoperative chest radiography to add valuable information for the assessment of paravertebral catheter placement. This technique has the potential to increase the accuracy and efficiency of postoperative analgesia, and to set a quality standard for future studies of paravertebral pain catheters.
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