Added value of live 3-dimensional transesophageal echocardiography during procedures in Fontan patients

3D transesophageal echocardiography (3D-TEE) has proven useful and accurate during some operating room (OR), interventional cardiac catheterization (Cath), and electrophysiologic (EP) procedures. The use of 3D-TEE during similar procedures in patients who have undergone Fontan surgery and its additional value have not been previously reported. To determine if live 3D-TEE during procedures post Fontan has added value, 3D-TEEs in 58 post-Fontan patients over a 5-year study period were reviewed. Additional information provided by 3D-TEE (over 2D-TEE) was classified into the following: A: new information which changed/refined the plan and 0: no new important information. Pre- and post-bypass OR 3D-TEEs were counted as one study. A total of 67 3D-TEEs (41 Cath, 13 OR, and 13 EP procedures) were performed. Median age was 14 years (6-39 years). Median weight was 47 kg (21-109 kg). In Cath procedures, only 2/41 (5%) were graded A (R to L atrial level shunt [Fontan leak], n = 1; thrombus in pulmonary artery stump, n = 1). In the OR, 6/13 (46%) were graded A (atrioventricular valvuloplasty, n = 1; neo-aortic valvuloplasty, n = 1; relief of systemic and pulmonary venous outflow obstruction, n = 2 and n = 2; respectively). In EP procedures, 4/13 (31%) were graded A (thrombus, n = 3; mapping for lead placement to assist in multisite pacing for dyssynchrony, n = 1). 3D-TEE of Fontan improved visualization and frequently added value in the OR/EP lab and may be helpful in select catheterization cases. Future studies with a larger sample could build on this data to identify when 3D-TEE will be most useful

A Glutathione Precursor Reduces Oxidative Injury to Cultured Embryonic Cardiomyocytes

BACKGROUND: Newborn infants are highly vulnerable to oxidative stress. Following birth asphyxia, oxidative injury due to ischemia-reperfusion can result in significant brain and heart damage, leading to death or long-term disability. STUDY QUESTION: The study objective was to evaluate the effectiveness of antioxidant gamma-L-glutamyl-L-cysteine (γGlu-Cys) in inhibiting oxidative injury to cultured embryonic cardiomyocytes (H9c2 cells). STUDY DESIGN: Control and γGlu-Cys-treated (0.5 mM) H9c2 cells were incubated under 6-hour ischemic conditions followed by 2-hour simulated reperfusion. MEASURES AND OUTCOMES: To quantify oxidative stress-induced apoptosis sustained by cardiomyocytes, lactate dehydrogenase (LDH) release and the presence of cytosolic cytochrome c were measured, as well as the number of secondary lysosomes visualized under electron microscopy. RESULTS: Compared to controls, H9c2 cells coincubated with γGlu-Cys during ischemia-reperfusion exhibited a significant reduction in both LDH release into the incubation medium [23.88 ± 4.08 (SE) vs. 9.95 ± 1.86% of total; P = 0.02] and the number of secondary lysosomes [0.070 ± 0.009 (SD) vs. 0.043 ± 0.004 per μm; P = 0.01]. Inhibition of LDH release with γGlu-Cys was the same (P = 0.67) as that of a caspase inhibitor. The significant increase in cytosolic cytochrome c (P = 0.01) after ischemia-reperfusion simulation further supports γGlu-Cys\u27s role in apoptosis prevention. CONCLUSIONS: It is concluded that the glutathione precursor γGlu-Cys protects cultured embryonic cardiomyocytes from apoptosis-associated oxidative injury