The amount of intense and focused training with the specific goal to improve performance (i.e. deliberate practice) is a predictor of expert-level performance in multiple domains of psychomotor skill learning. Simulation training improves surgical skills in cardiac surgery. We established a training programme that enables early surgical exposure and assessment. We investigated the training effects in coronary surgery simulations in trainees with different levels of surgical experience.The early surgical exposure and assessment programme comprises a low- and high-fidelity simulation, self-organized training, instructed workshops and a stepwise challenge increase. Performance was assessed with a multidimensional skill matrix using video recordings. Two groups of trainees [students (N = 7), 1-/2-year residents (N = 6)] completed introductory training (pretraining, level 1) and two 3-week training periods (levels 2 and 3). Fellows (N = 6) served as controls. Residents and students underwent deliberate practice training with specific training targets. Fellows performed regularly scheduled coronary surgery cases. Entry and exit assessments were conducted for levels 2 and 3.Fellows did not improve overall performance. Residents and students showed significant improvements in both technical accuracy and completion times. Residents reached an overall performance level comparable to fellows. Students reached similar accuracy of surgical skills with longer completion times [level 3 exit score/time: fellows 27 (24-29)/min; residents 27 (21-30)/min, P = 0.94; students 17 (17-25)/min, P = 0.068].Deliberate practice training resulted in a fast and substantial increase in surgical skills in residents and students. Unexperienced residents reach performance levels of fellows. Deliberate practice simulation programmes should be a mandatory component of surgical training.
An acute aortic dissection type A (AADA) is a rare but life-threatening event. The mortality rate ranges between 18% to 28% and mortality is often within the first 24 h and up to 1%-2% per hour. Although the onset of pain to surgery time has not been a relevant factor in terms of research in the field of AADA, we hypothesize that a patient's preoperative conditions depend on the length of this time.Between January 2000 and January 2018, 430 patients received surgical treatment for acute aortic dissection DeBakey type I at our tertiary referral hospital. In 11 patients, the exact time point of initial onset of pain was retrospectively not detectable. Accordingly, a total of 419 patients were included in the study. The cohort was categorized into two groups: Group A with an onset of pain to surgery time < 6 h (n = 211) and Group B > 6 h (n = 208), respectively.Median age was 63.5 years (y) ((IQR: 53.3-71.4 y); (67.5% male)). Preoperative conditions differed significantly between the cohorts. Differences were detected in terms of malperfusion (A: 39.3%; B: 23.6%; P: 0.001), neurological symptoms (A: 24.2%; B: 15.4%; P: 0.024), and the dissection of supra-aortic arteries (A: 25.1%; B: 16.8%; P: 0.037). In particular, cerebral malperfusion (A 15.2%: B: 8.2%; P: 0.026) and limb malperfusion (A: 18%, B: 10.1%; P: 0.020) were significantly increased in Group A. Furthermore, Group A showed a decreased median survival time (A: 1,359.0 d; B: 2,247.5 d; P: 0.001), extended ventilation time (A: 53.0 h; B: 44.0 h; P: 0.249) and higher 30-day mortality rate (A: 25.1%; B: 17.3%; P: 0.051).Patients with a short onset of pain to surgery time in cases of AADA present themselves not only with more severe preoperative symptoms but are also the more compromised cohort. Despite early presentation and emergency aortic repair, these patients show increased chances of early mortality. The "onset of pain to surgery time" should become a mandatory factor when making comparable surgical evaluations in the field of AADA.
To analyse whether full root replacement increases perioperative risks in patients who undergo frozen elephant trunk for acute aortic dissection.Between March 2013 and December 2019, 115 patients underwent emergency frozen elephant trunk for acute dissection. Patients without root replacement were assigned to group A, while patients with concomitant full root replacement to group B.Mean age was 50.8 (12.5) years and 85 (73.9%) patients were male. Preoperative malperfusion was present in 49 (42.6%) patients. In group B, 27 (41.5%) patients received composite root replacement and 38 (33.0%) aortic valve-sparing David procedure. Cardiopulmonary-bypass and cross-clamp times were 252.5 (208.5-293.0) and 96.0 (40.5-148.0) min in group A, and 310.0 (274.0-346.5) and 121.0 (89.0-182.0) in group B (P < 0.001). Continuous myocardial perfusion was used in 40 (80.0%) patients of group A and 59 (90.8%) of group B (P = 0.098). Disabling stroke was present in 10 (20.0%) patients in group A and 12 (18.5%) in group B (P = 0.835). Thirty-day mortality was 12.0% (n = 6) in group A and 9.2% (n = 6) in group B (P = 0.630). The 1- and 5-year survival rates were 80% and 62% in group A, and 81% and 79% in group B. Logistic regression analysis identified age (odds ratio = 1.117, 95% confidence interval = 1.004-1.242, P = 0.041), cardiopulmonary-bypass time (odds ratio = 1.012, 95% confidence interval = 1.001-1.022, P = 0.029) and abdominal malperfusion (odds ratio = 17.394, 95% confidence interval = 2.030-149.013, P = 0.009) to be associated with 30-day mortality.Full root replacement does not increase the perioperative risk in patients who undergo frozen elephant trunk for acute dissection. Careful patient selection is important for such complex procedures. Continuous myocardial perfusion can help reducing the risk for intraoperative complications during such complex operations.
Abstract OBJECTIVES Acute aortic dissection type A (AADA) is a life-threatening medical emergency. Emergent surgical repair is the gold standard but mortality remains high. Mortality is even higher in patients who arrive at the hospital in poor condition, especially after cardiopulmonary resuscitation (CPR). This study was designed to analyse the outcome of patients who underwent surgery for AADA and who require preoperative CPR. METHODS Between 2000 and 2023, 810 patients underwent emergent surgery for AADA at our centre. Of these, 63 had preoperative CPR. We performed a retrospective analysis with follow-up. RESULTS Mean age was 64 ± 13 years and 37 (59%) patients were male. Further, 50 (79%) patients had preoperative intubation, and 54 (86%) had pericardial effusion. Twenty-four (38%) patients had out-of-hospital CPR, 19 (30%) required CPR in hospital and 20 (32%) needed CPR in the operating room. Successful CPR with return of spontaneous circulation was achieved in 41 (65%) patients, and 22 (35%) underwent emergent surgery under ongoing CPR. The median time of CPR was 10 (interquartile range 12) min, and the median time from onset of symptoms to start of the operation was 5.5 (interquartile range 4.8) h. The majority of patients underwent ascending aortic replacement with hemiarch repair (n = 37, 59%). Further, 26 (41%) patients underwent full root replacement. Another 15 (24%) patients underwent total arch repair with or without (frozen) elephant trunk repair. Postoperative stroke was present in 8 (13%) patients. The 30-day mortality was 29 (46%). The 30-day mortality of patients with preoperative intubation was not significantly higher (n = 15/28, 54%, P = 0.446). The 1-, 5- and 10-year survival rates of the entire group were 42, 39 and 36%. CONCLUSIONS Early mortality for patients undergoing surgery for AADA with preoperative CPR is extremely high (almost 50%). However, this means that also ∼50% of patients benefit from surgery despite poor preoperative prognosis. Patients with preoperative intubation after CPR and unknown neurological condition should also undergo surgery. Patients who survive the initial operation for AADA have acceptable long-term survival. Emergent surgery should be offered for all patients with AADA regardless of the preoperative condition, even after CPR.
Infection of the native aorta or after previous open or endovascular repair of the thoracic aorta is associated with high risks for morbidity and mortality. We analysed the outcome after surgical management of a native mycotic aneurysm or of prosthetic graft infection of the descending aorta.From June 2000 to May 2019, a total of 39 patients underwent surgery in our centre for infection of the native descending aorta (n = 19 [49%], group A) or a prosthetic descending aorta [n = 20 (51%), group B]. In the 20 patients in group B, a total of 8 patients had prior open aortic repair with a prosthesis and 12 patients had a previous endovascular graft repair.The cohort patients had a mean age of 57 ± 14; 62% were men (n = 24). The most common symptoms at the time of presentation included fever, thoracic or abdominal pain and active bleeding. Emergency surgery was performed in 11 patients (28%); 3 patients had emergency endovascular stent grafts implanted during thoracic endovascular aortic repair for aortic rupture before further open repair. The 30-day mortality was 42% in group A and 35% in group B. The 90-day mortality was 47% in group A and 45% in group B. Pathogens could be identified in approximately half of the patients (46%). The most commonly identified pathogens were Staphylococcus aureus in 6 patients (15%) and Staphylococcus epidermidis in 4 patients (10%). Survival of the entire group (including patients with both native and prosthetic graft infections) was 44 ± 8%, 39 ± 8% and 39 ± 8% at 1, 2 and 3 years after surgery. The percentage of patients who survived the initial perioperative period was 81 ± 9%, 71 ± 9% and 71 ± 10% at 1, 2 and 3 years after surgery.Patients with infection of the descending aorta, either native or prosthetic, are associated with both high morbidity and mortality. However, patients who survive the initial perioperative period have an acceptable long-term prognosis. In emergency situations, thoracic endovascular aortic repair may help to stabilize patients and serve as bridge to open repair.
Objectives: Even though minimally access Cardiac Surgery may reduce morbidity, this approach is seldom used, especially for aortic root surgery. The purpose of this study was to assess aortic root replacement via an upper mini-sternotomy.
Objectives: Total aortic arch replacement is a complex operation with a high risk for potential morbidity and mortality. Previous surgical repair for type-A aortic dissection may increase this risk even more. In this study, we present our experience with total aortic arch replacement using the frozen elephant trunk technique (FET) in patients with prior surgery for type-A aortic dissection.
Introduction Aortic valve-sparing root replacement (David's procedure) is an especially appealing treatment option for young patients. Here, we present the short-, mid, and long-term outcomes of this operation in adolescent patients. Methods Between September 1994 and March 2014, 29 patients aged 6 to 21 years underwent the David-I procedure at our center. We conducted a retrospective study with follow-up. Results The mean age was 16.8 ± 3.4 years and 90% (n = 26) were male. Marfan's syndrome was present in 86% (n = 25) of cases. Ninety-seven percent (n = 28) of cases were performed electively, and one case (3%) was performed emergently for acute aortic dissection type A. There were no early perioperative deaths (0%). Follow-up, which was completed on 100% of patients, comprised a total of 394 patient years and a mean follow-up time of 13.6 ± 5.4 years. The estimates for survival at 1, 5, and 10 years after initial surgery were 100, 97, and 93%, respectively. During follow-up, there were four (14%) late deaths and five (17%) aortic valve-related reoperations. The 1-, 5-, and 10-year estimates for freedom from valve-related reoperation were 100, 86, and 83%, respectively. The perioperative mortality for these five reoperations was 0%. Discussion Aortic valve–sparing root replacement can be performed in adolescents with a very low perioperative risk. Long-term survival seems to be affected by connective tissue diseases.
