Efficacy of Primary Surgical Versus Medical Intervention for Treatment of Left-Sided Infective Endocarditis.

BACKGROUND: Left-sided staphylococcal, streptococcal, and enterococcal infective endocarditis (IE) is associated with poor clinical outcomes. Our primary aim is to compare clinical outcomes of staphylococcal, streptococcal, and enterococcal IE patients who undergo valve replacement surgery and outcomes of patients who are treated solely with antibiotics. METHODS: All patients were treated medically or surgically for left-sided staphylococcal, streptococcal, or enterococcal IE at our institution from 1998 to 2014 and were retrospectively studied. The primary outcome of interest was 30-day and 1-year mortality, and secondary outcomes included posttreatment septic shock, embolic events, stroke, and end-stage renal disease at 30 days. Inverse probability treatment weights, derived from propensity scores, were used to balance the medical and surgical cohorts across clinical risk factors, The Society of Thoracic Surgeon scores, and pathogens. Outcomes were compared comprehensively and in a staphylococcal-only subanalysis. RESULTS: Study population consisted of 245 surgical patients and 164 medical patients. Mortality at 30 days was higher in the medical cohort, both in aggregate and for staphylococcal only (all, 7% vs 16%, P < .001; staphylococcal only, 7% vs 22%, P < .001). Surgical patients had a higher incidence of septic shock and renal dysfunction; however, stroke and embolic events at 30 days were not different between cohorts. Cox survival analysis demonstrated that surgical treatment provided a 1-year survival benefit, with a hazard ratio of 0.48 (95% confidence interval, 0.36 to 0.64) that was robust regardless of pathogen. CONCLUSIONS: Compared with medical management, valve replacement surgery in patients with left-sided staphylococcal, streptococcal, or enterococcal IE appears to confer a survival advantage at 30 days and 1 year.

Donor lung assessment using selective pulmonary vein gases.

OBJECTIVES: Standard donor lung assessment relies on imaging, challenge gases and subjective interpretation of bronchoscopic findings, palpation and visual assessment. Central gases may not accurately represent true quality of the lungs. We report our experience using selective pulmonary vein gases to corroborate the subjective judgement. METHODS: Starting, January 2012, donor lungs have been assessed by intraoperative bronchoscopy, palpation and visual judgement of lung collapse upon temporary disconnection from ventilator, central gases from the aorta and selective pulmonary vein gases. Partial pressure of oxygen (pO2) <300 mmHg on FiO2 of 1.0 was considered low. The results of the chest X-ray and last pO2 in the intensive care unit were also collected. Post-transplant primary graft dysfunction and survival were monitored. RESULTS: To date, 259 consecutive brain-dead donors have been assessed and 157 transplants performed. Last pO2 in the intensive care unit was poorly correlated with intraoperative central pO2 (Spearman's rank correlation rs = 0.29). Right inferior pulmonary vein pO2 was associated (Mann-Whitney, P < 0.001) with findings at bronchoscopy [clean: median pO2 443 mmHg (25th-75th percentile range 349-512) and purulent: 264 mmHg (178-408)]; palpation [good: 463 mmHg (401-517) and poor: 264 mmHg (158-434)] and visual assessment of lung collapse [good lung collapse: 429 mmHg (320-501) and poor lung collapse: 205 mmHg (118-348)]. Left inferior pulmonary pO2 was associated (P < 0.001) with findings at bronchoscopy [clean: 419 mmHg (371-504) and purulent: 254 mmHg (206-367)]; palpation [good: 444 mmHg (400-517) and poor 282 mmHg (211-419)] and visual assessment of lung collapse [good: 420 mmHg (349-496) and poor: 246 mmHg (129-330)]. At 72 h, pulmonary graft dysfunction 2 was in 21/157 (13%) and pulmonary graft dysfunction 3 in 17/157 (11%). Ninety-day and 1-year mortalities were 6/157 (4%) and 13/157 (8%), respectively. CONCLUSIONS: Selective pulmonary vein gases provide corroborative objective support to the findings at bronchoscopy, palpation and visual assessment. Central gases do not always reflect true function of the lungs, having high false-positive rate towards the individual lower lobe gas exchange. Objective measures of donor lung function may optimize donor surgeon assessment, allowing for low pulmonary graft dysfunction rates and low 90-day and 1-year mortality.

Donors with a prior history of cardiac surgery are a viable source of lung allografts.

OBJECTIVES: End-stage lung disease continues to rise despite the lack of suitable lung donors, limiting the numbers of lung transplants performed each year. Expanded donor criteria, use of donation after cardiac death donors and the advent of ex vivo lung perfusion have resulted only in a slight increase in donor lung utilization. Organ donors with prior cardiac surgery (DPCS) present risks and technical challenges; however, they may be a potential source of suitable lung allografts with an experienced procurement surgeon. We present our experience having evaluated potential lung donors with a prior history of cardiac surgery, resulting in successful transplant outcomes. METHODS: This is a single-institution retrospective review of brain-dead organ donors that were evaluated for lung donation in the period 2012-15. Donor and recipient characteristics were collected. Post-lung transplant survival was recorded. RESULTS: From 2012 to 2015, 259 donors were evaluated, 12 with a prior history of cardiac surgery of which 4 had coronary artery bypass, 3 had aortic root replacement, 2 had aortic valve replacement, 1 pulmonary embolectomy, 1 two-time reoperative valve replacement and 1 paediatric congenital ventricular septal defect repair. DPCS, 6/12 (50% dry run) provided suitable allografts generating six single-lung transplants (three right and three left, 1 donor provided twin single-lung transplants) and one double-lung transplant. Interval between cardiac surgery and procurement for those rejected was median 5840 (IQR 2350-8640) days and interval for the donors that provided allografts was median 438 (IQR 336-1095) days (Mann-Whitney, P = 0.07). Recipient 1-year survival from DPCS is 100%. Recipient 1-year survival was 92% in allografts explanted from donors with no prior cardiac surgery (2012-13). CONCLUSION: To date, this is the largest single-centre experience using lung allografts from brain-dead DPCS. Our experience shows despite predicted technical difficulties, with good communication between thoracic and abdominal teams, successful transplant outcomes are possible, when surgeons with experience in reoperative cases are sent for lung procurements.

Patents and Heart Valve Surgery - III: Percutaneous Heart Valves.

Advancements in technology for the treatment of valvularcardiac diseases seek to provide solutions for high risk patients in the form of percutaneous valve insertion for patients with complicated valvular disease not amenable to more traditional options. Within the last decade, cardiac valves designed for percutaneous insertion have emerged rapidly as a treatment option for valvular disease. This procedure serves as an alternative to open heart surgery, which is more invasive and requires longer ICU stay. Thus, the percutaneous valve insertion procedure has been used on older, frailer patients who are poor candidates for open heart surgery. Designs for percutaneous valve insertion systems have been in development for decades, but have only recently been approved by the FDA for use. Important considerations include stent design, valve design, balloon catheter design, and deployment method.