WHAT’S IN A NAME: WHAT COMPLICATIONS IS THE NATIONAL SURGICAL QUALITY IMPROVEMENT PROGRAM “VEIN THROMBOSIS REQUIRING THERAPY” VARIABLE ACTUALLY CAPTURING?

Background:
Socioeconomic status (SES) has proven significant impact on colorectal cancer (CRC) outcomes. Lower SES has correlated with increased comorbidities, risk of postoperative complications, and inadequate adherence to treatment guidelines. Previous studies were limited in defining SES because of databases lacking sufficient socioeconomic variables. We utilized the CDC’s Social Vulnerability Index (SVI) which contains additional information that more accurately determines SES. We hypothesize that higher SVI associates with worse clinical outcomes in CRC patients undergoing surgery at a high-volume tertiary care center.

Methods:
This is a single institution retrospective study of National Surgical Quality Improvement Program (NSQIP) data for patients aged 18 and older who underwent CRC surgery from 2013-2020. Patient zip codes were used to determine SES via the SVI database. Patients were divided into quartiles from low to high SVI (Q1-Q4). Outcomes measured included NSQIP defined morbidity, surgical site infection (SSI), extended length of stay (LOS>7), 30-day readmission. Bivariate and multivariate analysis were completed.

Results:
1,242 patients underwent CRC surgery during the study period. Morbidity, LOS>7, and SSI trended higher in the third and fourth quartiles but were not statistically significant. Bivariate analysis revealed a significantly increased risk of morbidity, SSI, and readmission in the third quartile, and a significantly increased LOS>7 in the fourth quartile. Continuous bivariate analysis showed that every 10 unit increase in SVI significantly increased risk for morbidity, LOS>7, and SSI. There was also a significant risk to morbidity and LOS>7 per 10 unit increase in social vulnerability on continuous multivariate analysis.

Conclusion:
This study represents a novel application of the SVI to investigate clinical outcomes using NSQIP data. Both bivariate and multivariate analysis revealed a significantly increased risk of poor clinical outcomes with higher SVI. Future application of the SVI may reveal possible interventions to improve colorectal and other surgical outcomes.

Introduction:
Multiple randomized control trials have evaluated laparoscopic (LP) and open proctectomy (OP) for rectal cancer, with mixed results. COREAN, CLASICC and COLOR II supported the use of LP, while ALaCaRT and Z6051 did not. Additionally, there is limited data on long-term oncologic outcomes for robotic proctectomy (RP). The aim of this study is to examine the effect of surgical approach on oncologic factors and survival for patients undergoing open, laparoscopic and robotic proctectomies.

Methods:
Patients in the National Cancer Database with locally advanced rectal cancer were stratified based on surgical approach from 2010-2018. Patient demographics and tumor characteristics were compared with univariate analysis. Intent to treat multivariable analysis and survival analysis with Cox proportional hazard ratios and Kaplan-Meier method were performed. Data analysis was performed using STATA v.17 and R v.4.0.2.

8,293 patients were identified. 3,991 (48.1%) underwent OP, 2,101 (25.3%) underwent LP, 1,666 (20.1%) underwent RP. Conversion rates were 7% for RP and 20% for LP. No clinically significant difference in age or sex was noted between groups. Differences in distribution of race were noted, with those who were Black more likely to have open compared to LP or RP (p-value < 0.001). MIS approaches appear to be more common at academic and comprehensive cancer centers (p-value<0.001). And patients with private insurance are more likely to undergo LP or RP (p-value<0.001). On multivariable analysis, patients who underwent LP (OR 0.760; 95% CI 0.611-0.946; p-value=0.014) or RP (OR 0.660; 95% CI 0.511-0.853; p-value=0.002) were less likely to have positive margins compared to OP. Patients who underwent LP (OR 0.842; 95% CI 0.738-0.961; p-value=0.011) and RP (OR 0.712; 95% CI 0.615-0.825; p-value<0.001) were less likely to have positive lymph nodes compared to those who underwent OP. No difference in 30-day or 90-day mortality was noted. On adjusted survival analysis a reduction in overall survival (OS) for OP compared to LP (HR 0.811; 95% CI:0.725-0.907; p-value<0.01) and RP (HR 0.78; 95% CI:0.67-0.905; p-value=0.01) was demonstrated. There was no difference in OS between LP and RP (HR 0.96; 95% CI: 0.820-1.13; p-value=0.654).

Conclusion:
MIS proctectomy is associated with improved survival compared to open technique. Importantly, there was no difference in survival between a robotic and laparoscopic approach. This suggests that robotic assisted proctectomies are a safe option.

Background: Extremity deep venous thromboses (DVTs) and portomesenteric venous thromboses (PMVTs) differ in their etiology, potential sequelae, and the efficacy of pharmacologic prophylaxis in preventing their occurrence. However, the National Surgical Quality Improvement Program (NSQIP) tracks the occurrence of both extremity DVTs and PMVTs within 30 days of surgery together under its “vein thrombosis requiring therapy” variable without distinguishing the two. We therefore aimed to determine the incidence of extremity DVTs and PMVTs in patients undergoing surgery for colorectal, pancreatic, and splenic malignancies to clarify the specific complications captured under the “vein thrombosis requiring therapy” variable in NSQIP and whether further division of this variable is warranted.

Methods: Patients undergoing operations for colorectal, pancreatic, and splenic malignancies at a single institution between January 1, 2006 and March 1, 2021 were identified. Patients who experienced a new onset upper or lower extremity DVT or a PMVT within 30 days of surgery were considered cases for the study (NSQIP DVT). Patients were then stratified by cancer type, and the anatomic location of each patient’s DVT (extremity or portomesenteric) was recorded. Univariate comparisons between cancer types and venous thromboembolism types were performed.

Results: A total of 8,491 operations for colorectal (n=6,003), pancreatic (n=1,496), or splenic malignancies (n=992). The overall incidence of NSQIP DVTs was 1.7%; 52% of NSQIP DVTs were PMVTs. The overall NSQIP DVT rate was highest in operations for a splenic malignancy (3.3%), followed by operations for pancreatic (2.7%) and colorectal (1.1%) malignancies (p < 0.01). After operations for pancreatic and splenic malignancies, the majority of NSQIP DVTs were either PMVTs alone or combined PMVTs plus extremity DVTs (pancreatic: 70%, splenic: 58%), while PMVTs comprised over a third of the NSQIP DVTs after surgery for colorectal malignancies (38%) (FIGURE). Of patients with an extremity DVT, 17% were also diagnosed with a pulmonary embolism (PE), compared to patients with a PMVT where a pulmonary embolism was diagnosed in only 4% of patients (p = 0.01). Lastly, PMVTs were diagnosed at a later postoperative day (median, [interquartile range]) than extremity DVTs for colorectal (19, [10-28] vs 15, [8-22]; p = 0.23) and pancreatic (21, [12-27] vs 15.5, [7-20]; p = 0.07) malignancies, but not for splenic malignancies (15 [9-22] vs 18 [12-28]); p = 0.16)

Conclusion: The current NSQIP DVT variable does not represent the full clinical picture of venous thromboembolic events after operations for colorectal, pancreatic, and splenic malignancies. The variable should be redesigned into separate “extremity DVT” and “PMVT” variables to better reflect postoperative outcomes and strengthen future research utilizing NSQIP datasets.