Assessment of Vascular and Valvular Calcification Improves Screening for Coronary Artery Disease Before Liver Transplantation.

Coronary artery disease (CAD) is common in patients with cirrhosis who underwent orthotopic liver transplantation (OLT) evaluation and stress echocardiogram (echo) has a low sensitivity in these patients. This study aimed to assess the impact of vascular and valvular calcification on the ability to identify CAD before OLT. We performed a case-control study of 88 patients with and 97 without obstructive CAD who underwent OLT evaluation. All patients had a preoperative stress echo, abdominal computed tomography, and cardiac catheterization. A series of nested logistic regression models of CAD were fit by adding independent variables of vascular (including coronary) calcification, aortic and mitral valve calcification, age, gender, and history of diabetes mellitus requiring insulin to a baseline model of abnormal stress echo. Compared with stress echo alone, identification of the presence or absence of vascular and valvular calcification on routine preoperative computed tomography and echo improved the diagnostic performance for the detection of CAD based on coronary angiogram when combined with stress echo in patients with cirrhosis who underwent OLT evaluation (area under the curve 0.58 vs 0.73, p <0.001), which is even further improved when age, gender, and history of diabetes mellitus requiring insulin are considered (area under the curve 0.58 vs 0.80, p <0.001). Achieving target heart rate (p = 0.92) or rate-pressure product >25,000 (p = 0.63) did not improve the ability of stress echo to identify CAD. In conclusion, the use of abdominal vascular, coronary artery, and valvular calcification, along with stress echo, improves the ability to identify and rule out obstructive CAD before OLT compared with stress echo alone.

Photoencapsulated-mesenchymal stromal cells in biodegradable thiol-acrylate hydrogels enhance regeneration of craniofacial bone tissue defects.

Aim: This study investigated biodegradable thiol-acrylate hydrogels as stem cell carriers to facilitate cranial bone regeneration. Materials & methods: Two formulations of thiol-acrylate hydrogels (5 and 15 wt% Poly[ethylene glycol]-diacrylate [PEGDA] hydrogels) were used as stem cell carriers. Bone marrow mesenchymal stromal cells and dental pulp mesenchymal stromal cells were photoencapsulated and cultured in basal or osteogenic medium 3 days before the surgery. Using New Zealand White Rabbits, four defects (5 mm diameter and 2 mm thickness) were created and hydrogel scaffolds were implanted in each rabbit cranium for 6 weeks. Results & Conclusion: AlamarBlue assay showed increasing metabolic activity levels in 5 wt% PEGDA hydrogels than 15 wt% PEGDA hydrogels. Photoencapsulated-mesenchymal stromal cells in 15 wt% PEGDA hydrogels demonstrated significantly increasing alkaline phosphatase activity levels on day 7 compared with days 1 and 3. Histological diagnosis showed 5 wt% PEGDA hydrogels resulted in lower averaged residual gel areas than 15 wt% PEGDA hydrogel specimens and control groups 6 weeks postimplantation.