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Porcine Neonatal Heart Extracellular Matrix As A Regeneration Platform, Karla Perez

Bioengineering Dissertations

Each year, an estimated 620,000 Americans have new heart attack and suffer from myocardial infarction (MI) that results in massive heart cell death and decrease in heart function. Various therapeutic strategies, such as pharmacological treatments and reperfusion strategies, have greatly improved short-term MI survival. However, these strategies do not restore normal cardiac function due to the permanent loss of cardiomyocytes. As a promising strategy, cardiac cell therapy delivers repairing cells to damaged areas (scar tissues) to revitalize the infracted heart. However, a key challenge in cardiac cell therapy, i.e. the extremely low survival and engraftment rate of transplanted cells, must …

Extracellular Matrix-Derived Microcarriers As 3-D Cell Culture Platforms, Anna Kornmuller

Electronic Thesis and Dissertation Repository

Recognizing the cell-instructive capacity of tissue-specific extracellular matrix (ECM) to direct cell attachment, proliferation and differentiation, there is a need for the development of in vitro cell culture models that reflect the complexity of the ECM to improve stem/progenitor cell expansion and lineage-commitment. This thesis focused on the development and characterization of ECM-derived microcarriers for the in vitro dynamic culture and expansion of stromal cells for cell therapy and tissue engineering applications.

To develop novel platforms for use in dynamic culture systems, initial work focused on applying electrospraying techniques to fabricate microcarriers from decellularized dermal tissue (DDT) and decellularized myocardial …

Optimizing New In Vitro Methodologies For Assessing The Effects Of Mechanical Stimuli On Lung Cells: Implications For Lung Biology And Disease, Alicia E. Tanneberger

Graduate College Dissertations and Theses

Chronic lung diseases affect millions of people in the United States and are a leading cause of both morbidity and mortality. Studying how environmental factors affect lung cell biology and function is being increasingly recognized as a critical step in understanding lung disease pathogenesis and the development of new therapeutic approaches that combat lung diseases. These factors include lung extracellular matrix (ECM) composition and the mechanobiological factors of stiffness and cyclic mechanical strain, which during breathing, act on cells during the normal expansion and contraction of the lung. However, current methodologies for studying these factors have significant limitations and new …