Karen Christman

Fibrin glue alone and skeletal myoblasts in a fibrin scaffold preserve cardiac function after myocardial infarction.

Injectable fibrin scaffold improves cell transplant survival, reduces infarct expansion, and induces neovasculature formation in ischemic myocardium.

Enhanced neovasculature formation in ischemic myocardium following delivery of pleiotrophin plasmid in a biopolymer.

Pleiotrophin induces formation of functional neovasculature in vivo.

Protein micropatterns using a pH-responsive polymer and light.

Transfer versus transition: success in pediatric transplantation brings the welcome challenge of transition.

Submicron streptavidin patterns for protein assembly.

Biomaterials for the treatment of myocardial infarction.

Electrochemically controllable conjugation of proteins on surfaces.

Restoration of left ventricular geometry and improvement of left ventricular function in a rodent model of chronic ischemic cardiomyopathy.

Positioning multiple proteins at the nanoscale with electron beam cross-linked functional polymers.

Nanoscale growth factor patterns by immobilization on a heparin-mimicking polymer.

Naturally derived myocardial matrix as an injectable scaffold for cardiac tissue engineering.

Injectable myocardial matrix as a scaffold for myocardial tissue engineering.

Design and characterization of an injectable pericardial matrix gel: a potentially autologous scaffold for cardiac tissue engineering.

Injectable materials for the treatment of myocardial infarction and heart failure: the promise of decellularized matrices.

Surface patterning for generating defined nanoscale matrices.

Simple and high yielding method for preparing tissue specific extracellular matrix coatings for cell culture.

Injectable hydrogel scaffold from decellularized human lipoaspirate.

Protein nanopatterns by oxime bond formation.

Human cardiomyogenesis and the need for systems biology analysis.

Modulation of material properties of a decellularized myocardial matrix scaffold.

Patient-to-patient variability in autologous pericardial matrix scaffolds for cardiac repair.

Increased infarct wall thickness by a bio-inert material is insufficient to prevent negative left ventricular remodeling after myocardial infarction.

Decellularized porcine brain matrix for cell culture and tissue engineering scaffolds.

Antibacterial and cell-adhesive polypeptide and poly(ethylene glycol) hydrogel as a potential scaffold for wound healing.

Tailoring material properties of a nanofibrous extracellular matrix derived hydrogel.

Biomaterials for the treatment of myocardial infarction a 5-year update.