Background
Processes that activate the immune system during lung transplantation can lead to primary graft dysfunction (PGD) or allograft rejection.
Methods
We analyzed cytokine expression profiles after reperfusion and allograft outcomes in a cohort of patients (n = 59) who underwent lung transplantation off‐pump (n = 26), with cardiopulmonary bypass (CPB; n = 18), or with extracorporeal membrane oxygenation (ECMO; n = 15). Peripheral blood was collected from patients at baseline and at 6 and 72 h after reperfusion. To adjust for clinical differences between groups, we utilized a linear mixed model with overlap weighting.
Results
PGD3 was present at 48 or 72 h after reperfusion in 7.7% (2/26) of off‐pump cases, 20.0% (3/15) of ECMO cases, and 38.9% (7/18) of CPB cases (p = 0.04). The ECMO and CPB groups had greater reperfusion‐induced increases in MIP‐1B, IL‐6, IL‐8, IL‐9, IL1‐ra, TNF‐alpha, RANTES, eotaxin, IP‐10, and MCP‐1 levels than the off‐pump group. Cytokine expression profiles after reperfusion were not significantly different between ECMO and CPB groups.
Conclusion
Our data suggest that, compared with an off‐pump approach, the intraoperative use of ECMO or CPB during lung transplantation is associated with greater reperfusion‐induced cytokine release and graft injury.
Corneal opacities are a leading cause of visual impairment that affect 4.2 million people annually. The current treatment is corneal transplantation, which is limited by tissue donor shortages. Corneal engineering aims to develop membranes that function as scaffolds in corneal cell transplantation. Here, we describe a method for producing transplantable corneal constructs based on a collagen vitrigel (CVM) membrane and corneal endothelial cells (CECs). The CVMs were produced using increasing volumes of collagen type I: 1X (2.8 μL/mm2), 2X, and 3X. The vitrification process was performed at 40% relative humidity (RH) and 40 °C using a matryoshka-like system consisting of a shaking-oven harboring a desiccator with a saturated K2CO3 solution. The CVMs were characterized via SEM microscopy, cell adherence, FTIR, and manipulation in an ex vivo model. A pilot transplantation of the CECs/CVM construct in rabbits was also carried out. The thickness of the CVMs was 3.65–7.2 µm. The transparency was superior to a human cornea (92.6% = 1X; 94% = 2X; 89.21% = 3X). SEM microscopy showed a homogenous surface and laminar organization. The cell concentration seeded over the CVM increased threefold with no significant difference between 1X, 2X, and 3X (p = 0.323). The 2X-CVM was suitable for surgical manipulation in the ex vivo model. Constructs using the CECs/2X-CVM promoted corneal transparency restoration.
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