ABSTRACT
A decrease in the infection rates in the operating room (OR) is attributable to advances in sterile technique; heating, ventilation, and air-conditioning (HVAC) filtration; and limiting the number of people entering and leaving the OR. However, some infection complications after open heart procedures have been linked to the discharge fans of surgical equipment, most notably from the LivaNova 3T. We believe that surgical infection within the OR may also be due to other devices with internal fans. The purpose of this study was to 1) identify surgical equipment with an internal fan and see how they affect the airflow in an OR, 2) use the equipment to positively affect airflow to possibly reduce the risk of surgical site infections, and 3) bring attention to the HVAC system ability to exchange air throughout the OR. By using a fog machine and multiple camera angles, we identified the devices that have an effect on the airflow. We saw that the direction of the intake vent of specific devices can change the direction of airflow and possibly help to remove air. Last, we showed how the current HVAC air exchange rate might not be enough to remove contaminated air within the OR. Understanding intake and discharge vents for all equipment is important because sterile contamination and wound infection may be minimized or mitigated completely by simply repositioning a few devices.
Subject(s)
Operating Rooms , Ventilation , Air Conditioning , Heating , Humans , Surgical Wound Infection/prevention & controlABSTRACT
Evidence is accumulating that cardiac apoptosis occurs and contributes to myocyte cell death during myocardial ischemia. Cardioplegia, defined as the temporary cessation of cardiac activity during cardiac surgery, is a clinically controlled condition with myocardial ischemia and reperfusion. Our goal was to determine whether the apoptotic biomarker caspase-3 p17 is elevated in the coronary sinus (CS) during cardioplegia and if any elevations were reflected in the peripheral venous (PV) blood. Levels of the necrotic biomarker cardiac troponin I (cTnI) and the inflammatory marker caspase-1 p20 were also quantified in CS and PV. Blood was drawn before and at the end of cardioplegia in PV and CS and levels of p20, p17, and cTnI were measured. cTnI, p20, and p17 PV levels were significantly elevated compared with the control population before and at the end of cardioplegia. PV levels of all 3 markers increased after cardioplegia. CS levels were higher than PV levels for all 3 markers at both time points. Our data are consistent with the occurrence of cardiac apoptosis and inflammation during cardioplegia, in addition to necrosis. The heart-derived markers contributed to the peripheral levels and suggest that measurement of PV biomarker concentrations can be used to gauge cardiac preservation.
Subject(s)
Caspase 1/blood , Caspase 3/blood , Heart Arrest, Induced/methods , Myocardial Ischemia/surgery , Myocardial Revascularization/methods , Aged , Apoptosis , Biomarkers/blood , Enzyme-Linked Immunosorbent Assay , Female , Follow-Up Studies , Humans , Male , Myocardial Ischemia/blood , Myocardial Ischemia/diagnosis , Myocytes, Cardiac/pathology , Prognosis , Prospective Studies , Troponin I/bloodABSTRACT
Pacemaker generator replacement is usually a straightforward and simple procedure. However, it is occasionally complicated by entrapment of the lead in the header. Solutions to this problem have been described previously. We describe a simpler and safer technique to solve this old problem.
Subject(s)
Pacemaker, Artificial , Postoperative Complications/therapy , Aged , Aged, 80 and over , Equipment Design , Equipment Failure , Humans , MaleABSTRACT
BACKGROUND: Recently, surgeons have embraced axillary artery cannulation for type A aortic dissection repair out of concern for malperfusion phenomena with traditional femoral artery cannulation. My colleagues and I sought to determine whether these concerns are justified. METHODS: Records of 86 consecutive patients (51 men and 35 women; age, 30 to 86 years; mean, 62 years) undergoing surgical repair for acute type A dissection were reviewed. Cannulation site, specific operative repair, and complications related to cannulation were noted. RESULTS: Seventy-nine cannulations were performed in the femoral artery (47 left, 23 right, and 9 unspecified), 3 in the axillary artery (1 left and 2 right), and 4 in the ascending aorta or arch. Deep hypothermic arrest was used in 64 operations. Seven involved re-sternotomy. Seventy patients had supracoronary grafts (2 with valve replacement and 10 with valve resuspension), and 16 underwent aortic root replacement. Fourteen patients were in shock from cardiac tamponade. Eighty patients survived the operation, and 71 were hospital survivors. Malperfusion on initiation of cardiopulmonary bypass was noted in 3 patients. In 1, the original cannulation site was the ascending aorta, and the cannula was moved to the femoral artery for correction. In 2, the original cannulation site was the femoral artery, and the cannula was moved to the ascending aorta. Malperfusion on clamping of the aorta or on resumption of aortic flow was noted in no patient. Postoperative ischemia of any vascular bed was noted locally only in 3 (cannulated) lower extremities. CONCLUSIONS: Straight femoral cannulation for all phases of type A dissection repair is appropriate and yields excellent clinical results. The anticipated malperfusion events are actually rare (2 of 79 with femoral artery cannulation, or 2.5%).