Department of Surgery, The Ohio State University Wexner Medical Center and James Comprehensive Cancer Center, Columbus, OH; National Clinician Scholars Program at the Institute for Healthcare Policy and Innovation, University of Michigan, Ann Arbor, MI; Center for Healthcare Outcomes and Policy, University of Michigan, Ann Arbor, MI.
Department of Surgery, The Ohio State University Wexner Medical Center and James Comprehensive Cancer Center, Columbus, OH. Electronic address: https://twitter.com/MadisonHyer.
Surgery. 2021 Aug;170(2):571-578. doi: 10.1016/j.surg.2021.02.038. Epub 2021 Mar 26.
In an effort to improve perioperative and oncologic outcomes, there have been multiple quality improvement initiatives, including regionalization of high-risk procedures and hospital accreditation designations from independent organizations. These initiatives may, however, hinder access to high-quality surgical care for certain patients living in areas with high social vulnerability who may be disproportionally affected, leading to disparities in access and worse postoperative outcomes.
Medicare beneficiaries who underwent liver or pancreas resection for cancer were identified using the 100% Medicare Inpatient Standard Analytic Files. Hospitals were designated as high-volume based on Leapfrog criteria. The Centers for Disease Control and Prevention's social vulnerability index database was used to abstract social vulnerability index information based on each beneficiary's county of residence at the time of operation. The probability that a patient received care at a high-volume hospital stratified by the social vulnerability of the patient's county of residence was examined. Risk-adjusted postoperative outcomes were compared across low, average, and high levels of vulnerability at both low- and high-volume hospitals.
Among 16,978 Medicare beneficiaries who underwent a pancreatectomy (n = 13,393, 78%) or a liver resection (n = 3,594, 21.2%) for cancer, the mean age was 73.3 years (standard deviation: 5.8), nearly half the cohort was female (n = 7,819, 46%), and the overwhelming majority were White (n = 15,034, 88.5%). Mean social vulnerability index was 49.8 (standard deviation 24.8) and mean Charlson comorbidity index was 4.8 (standard deviation: 3). Overall, 8,251 (48.6%) of patients had their operations at a high-volume hospital, and 3,802 patients had their operations at a hospital with Magnet recognition. Age and sex were similar within the low-, average-, and high-social vulnerability index cohorts (P > .05); however, race differed across social vulnerability index groups. White patients made up 93% (n = 3,241) of the low social vulnerability index compared with 83.9% (n = 2,706) of the high-social vulnerability index group, whereas non-Whites made up 7% (n = 244) of the low-social vulnerability index group compared with 16.1% (n = 556) of the high-social vulnerability index group (P < .001). The risk-adjusted overall probability of having surgery at a high-volume hospital decreased as social vulnerability increased (odds ratio: 0.98, 95% confidence interval: 0.97-0.99). Risk-adjusted probability of postoperative complications increased with social vulnerability index; however, among patients with high social vulnerability, risk of postoperative complications was lower at high-volume hospitals compared with low-volume hospitals. In contrast, there was no difference in postoperative complications between hospitals with and without Magnet recognition across social vulnerability index.
Patients residing in communities characterized by a high social vulnerability index were less likely to undergo high-risk cancer surgery at a high-volume hospital. Although postoperative complications and mortality increased as social vulnerability index increased, some of the risk appeared to be mitigated by having surgery at a high-volume hospital. These data highlight the importance of access to high-quality surgical care, especially among patients who may already be more vulnerable.
为了改善围手术期和肿瘤学结果,已经采取了多项质量改进措施,包括高危手术的区域化和独立组织的医院认证指定。然而,这些举措可能会阻碍某些居住在社会脆弱性较高地区的患者获得高质量的手术护理,这些患者可能会受到不成比例的影响,导致获得护理的机会不平等,术后结果更差。
使用 100% 医疗保险住院标准分析文件确定因癌症接受肝或胰腺切除术的医疗保险受益人。根据 Leapfrog 标准将医院指定为高容量。使用疾病控制和预防中心的社会脆弱性指数数据库,根据每位受益人的手术时居住地的县,提取社会脆弱性指数信息。检查患者接受高容量医院护理的概率,按患者居住地县的社会脆弱性分层。在低容量和高容量医院,比较低、中、高脆弱性水平的风险调整术后结果。
在 16978 名因癌症接受胰切除术(n=13393,78%)或肝切除术(n=3594,21.2%)的医疗保险受益人中,平均年龄为 73.3 岁(标准差:5.8),近一半的患者为女性(n=7819,46%),绝大多数为白人(n=15034,88.5%)。平均社会脆弱性指数为 49.8(标准差 24.8),平均 Charlson 合并症指数为 4.8(标准差:3)。总体而言,8251 名(48.6%)患者在高容量医院接受手术,3802 名患者在获得 Magnet 认可的医院接受手术。低、中、高社会脆弱性指数组的年龄和性别相似(P>.05);然而,种族在社会脆弱性指数组之间存在差异。低社会脆弱性指数组中有 93%(n=3241)的患者为白人,而高社会脆弱性指数组中这一比例为 83.9%(n=2706),而非白人在低社会脆弱性指数组中占 7%(n=244),而在高社会脆弱性指数组中占 16.1%(n=556)(P<.001)。随着社会脆弱性的增加,接受高容量医院手术的风险调整后总体概率降低(优势比:0.98,95%置信区间:0.97-0.99)。风险调整后,术后并发症的概率随社会脆弱性指数的增加而增加;然而,在社会脆弱性较高的患者中,与低容量医院相比,高容量医院的术后并发症风险较低。相比之下,在社会脆弱性指数方面,具有 Magnet 认可的医院与没有 Magnet 认可的医院之间的术后并发症没有差异。
居住在社会脆弱性指数较高社区的患者不太可能在高容量医院接受高危癌症手术。尽管随着社会脆弱性指数的增加,术后并发症和死亡率增加,但部分风险似乎通过在高容量医院接受手术得到了缓解。这些数据强调了获得高质量手术护理的重要性,特别是对于那些可能已经更脆弱的患者。
