Akiko Tanaka1, Takeyoshi Ota1, Nir Uriel2, Zewditu Asfaw1, David Onsager1, Vassyl A Lonchyna1, Valluvan Jeevanandam3. 1. Department of Surgery, Section of Cardiac and Thoracic Surgery, The University of Chicago Medicine, Chicago, Ill. 2. Department of Medicine, Section of Cardiology, The University of Chicago Medicine, Chicago, Ill. 3. Department of Surgery, Section of Cardiac and Thoracic Surgery, The University of Chicago Medicine, Chicago, Ill. Electronic address: jeevan@uchicago.edu.
Abstract
OBJECTIVE: We aimed to identify factors associated with adverse outcomes in Jehovah's Witness patients undergoing complex cardiovascular surgery and to validate our preoperative optimization protocol. METHODS: We retrospectively reviewed 144 Jehovah's Witnesses who underwent cardiovascular surgery between 1999 and 2014. We excluded 7 salvage cases. The operative procedures included 56 coronary artery bypass graft surgeries, 43 valve procedures, 13 ventricular assist device implantations, 11 heart transplantations, 9 aortic surgeries, and 5 congenital defect repairs. Our preoperative optimization protocol for Jehovah's Witnesses includes discontinuing antiplatelets and adding iron/vitamin or erythropoietin to achieve a target hemoglobin greater than 12 g/dL. We evaluated the risk factors for postoperative mortality and composite outcomes (mortality, myocardial infarction, stroke, acute kidney injury, heart failure, sternal wound infection), and compared the outcomes of optimized patients with a preoperative hemoglobin level greater than 12 g/dL (n = 93) versus unoptimized patients with a preoperative hemoglobin level less than 12 g/dL (n = 44). RESULTS: Preoperative and intraoperative demographics in the optimized and unoptimized groups were similar except for preoperative hemoglobin levels, renal dysfunction (optimized = 25/93 [26.9%], unoptimized = 26/44 [59.1%], P < .001), and emergency/urgent cases (optimized = 20/93 [21.5%], unoptimized = 17/44 [38.6%], P = .035). The mean preoperative, intraoperative nadir, and discharge hemoglobin levels of the entire cohort were 12.7 ± 1.7 g/dL, 9.5 ± 2.6 g/dL, and 9.7 ± 1.8 g/dL, respectively. Hospital mortality was 9 of 137 patients (6.6%) (optimized = 2/93 [2.2%], unoptimized = 7/44 [15.9%], P = .002), and composite outcomes were observed in 44 of 137 patients (32.1%) (optimized = 21/93 [22.6%], unoptimized = 22/44 [50.0%], P = .001). The Youden index identified a cutoff value of the preoperative hemoglobin of 11.7 g/dL for mortality (area under curve, 0.719; sensitivity, 77.8%; specificity, 76.0%). Multivariate analysis identified a suboptimal preoperative hemoglobin (<12 g/dL) as the only important independent factor associated with mortality (odds ratio, 5.64; 95% confidence interval, 1.14-42.18) and composite outcomes (odds ratio, 2.49; 95% confidence interval, 1.06-5.88). CONCLUSIONS: Complex cardiovascular surgery in Jehovah's Witnesses was associated with acceptable surgical outcomes, especially if they electively completed optimization. Our Jehovah's Witnesses' optimization protocol targeting a hemoglobin level greater than 12 g/dL seemed to be effective in reducing adverse events at The University of Chicago Medicine.
OBJECTIVE: We aimed to identify factors associated with adverse outcomes in Jehovah's Witnesspatients undergoing complex cardiovascular surgery and to validate our preoperative optimization protocol. METHODS: We retrospectively reviewed 144 Jehovah's Witnesses who underwent cardiovascular surgery between 1999 and 2014. We excluded 7 salvage cases. The operative procedures included 56 coronary artery bypass graft surgeries, 43 valve procedures, 13 ventricular assist device implantations, 11 heart transplantations, 9 aortic surgeries, and 5 congenital defect repairs. Our preoperative optimization protocol for Jehovah's Witnesses includes discontinuing antiplatelets and adding iron/vitamin or erythropoietin to achieve a target hemoglobin greater than 12 g/dL. We evaluated the risk factors for postoperative mortality and composite outcomes (mortality, myocardial infarction, stroke, acute kidney injury, heart failure, sternal wound infection), and compared the outcomes of optimized patients with a preoperative hemoglobin level greater than 12 g/dL (n = 93) versus unoptimized patients with a preoperative hemoglobin level less than 12 g/dL (n = 44). RESULTS: Preoperative and intraoperative demographics in the optimized and unoptimized groups were similar except for preoperative hemoglobin levels, renal dysfunction (optimized = 25/93 [26.9%], unoptimized = 26/44 [59.1%], P < .001), and emergency/urgent cases (optimized = 20/93 [21.5%], unoptimized = 17/44 [38.6%], P = .035). The mean preoperative, intraoperative nadir, and discharge hemoglobin levels of the entire cohort were 12.7 ± 1.7 g/dL, 9.5 ± 2.6 g/dL, and 9.7 ± 1.8 g/dL, respectively. Hospital mortality was 9 of 137 patients (6.6%) (optimized = 2/93 [2.2%], unoptimized = 7/44 [15.9%], P = .002), and composite outcomes were observed in 44 of 137 patients (32.1%) (optimized = 21/93 [22.6%], unoptimized = 22/44 [50.0%], P = .001). The Youden index identified a cutoff value of the preoperative hemoglobin of 11.7 g/dL for mortality (area under curve, 0.719; sensitivity, 77.8%; specificity, 76.0%). Multivariate analysis identified a suboptimal preoperative hemoglobin (<12 g/dL) as the only important independent factor associated with mortality (odds ratio, 5.64; 95% confidence interval, 1.14-42.18) and composite outcomes (odds ratio, 2.49; 95% confidence interval, 1.06-5.88). CONCLUSIONS: Complex cardiovascular surgery in Jehovah's Witnesses was associated with acceptable surgical outcomes, especially if they electively completed optimization. Our Jehovah's Witnesses' optimization protocol targeting a hemoglobin level greater than 12 g/dL seemed to be effective in reducing adverse events at The University of Chicago Medicine.
Authors: Marco Rispoli; Carlo Bergaminelli; Moana Rossella Nespoli; Mariana Esposito; Dario Maria Mattiacci; Antonio Corcione; Salvatore Buono Journal: Int J Surg Case Rep Date: 2016-04-19