We studied preBötzinger Complex (preBötC) inspiratory interneurons to determine the cellular mechanisms that influence burst termination in a mammalian central pattern generator. Neonatal mouse slice preparations that retain preBötC neurons generate respiratory motor rhythms in vitro. Inspiratory-related bursts rely on inward currents that flux Na+, thus outward currents coupled to Na+ accumulation are logical candidates for assisting in, or causing, burst termination. We examined Na+/K+ ATPase electrogenic pump current (Ipump), Na+-dependent K+ current (IK–Na), and ATP-dependent K+ current (IK–ATP). The pharmacological blockade of Ipump, IK–Na, or IK–ATP caused pathological depolarization akin to a burst that cannot terminate, which impeded respiratory rhythm generation and reversibly stopped motor output. By simulating inspiratory bursts with current-step commands in synaptically isolated preBötC neurons, we determined that each current generates approximately 3–8 mV of transient post-burst hyperpolarization that decays in 50–1600 ms. Ipump, IK–Na, and – to a lesser extent – IK–ATP contribute to terminating inspiratory bursts in the context of respiratory rhythm generation by responding to activity dependent cues such as Na+ accumulation.
Heart failure patients requiring total artificial heart (TAH) support often have concomitant renal insufficiency (RI). We sought to quantify renal function recovery in patients supported with TAH at our institution. Renal function data at 30, 90, and 180 days after TAH implantation were analyzed for patients with RI, defined as hemodialysis supported or an estimated glomerular filtration rate (eGFR) less than 60 ml/min/1.73 m. Between January 2008 and December 2013, 20 of the 46 (43.5%) TAH recipients (age 51 ± 9 years, 85% men) had RI, mean preoperative eGFR of 48 ± 7 ml/min/1.73 m. Renal function recovery was noted at each follow-up interval: increment in eGFR (ml/min/1.73 m) at 30, 90, and 180 days was 21 ± 35 (p = 0.1), 16.5 ± 18 (p = 0.05), and 10 ± 9 (p = 0.1), respectively. Six patients (30%) required preoperative dialysis. Of these, four recovered renal function, one remained on dialysis, and one died. Six patients (30%) required new-onset dialysis. Of these, three recovered renal function and three died. Overall, 75% (15 of 20) of patients' renal function improved with TAH support. Total artificial heart support improved renal function in 75% of patients with pre-existing significant RI, including those who required preoperative dialysis.
Background: In heart failure (HF) patients with renal insufficiency (RI), we hypothesize that mechanical circulatory support (MCS) with the left ventricular assist device (LVAD) will promote renal function recovery (RR). We sought to quantify RR with LVAD support over 6 months of follow-up.Methods: RR data at 30, 90, and 180 days were analyzed for all LVAD patients with RI at the time of surgery. RI was defined as either the use of hemodialysis (HD) or a glomerular filtration rate (GFR) less than 60 mL/min/1.73 m 2 .
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Prepectoral prosthetic breast reconstruction continues to gain popularity, largely due to its decreased postoperative pain, animation deformity, and operative time as compared to subpectoral reconstruction. Widespread use has led to opportunities for surgical revisions. While some techniques for submuscular reconstruction revisions, such as implant exchange and fat grafting, also apply to prepectoral revisions, others require modification for the prepectoral space. The prosthesis' unique reliance on the mastectomy flaps and acellular dermal matrix for support leads to a progressive alteration of the breast footprint, conus, envelope, and nipple-areola complex position. To date, revisions of prepectoral reconstructions have not been addressed in the literature. This article presents the senior author's (N.P.B.) techniques for (1) revising prepectoral breast reconstructions, including staged and direct-to-implant reconstructions, with a special focus on nipple-sparing reconstruction, and (2) minimizing undesirable outcomes of prepectoral reconstruction.
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