Search Results 1-10 of 17007 for Paracrine

1. Examining the role of cellular senescence in skeletal muscle aging - Mayo Clinic

   LeBrasseur and colleagues demonstrated that the SASP contributes to tissue dysfunction by inducing paracrine senescence and inflammation, stem cell dysfunction, ...

2. Microfluidic cell or explant cultures - Cellular Microsystems and Biosensors Laboratory - Mayo Clinic Research

   Cells or tissue often survive better in microfluidic devices because of enhanced autocrine or paracrine signaling. One type of microfluidic cancer culture ...

3. Microscopy and Microfluidics Core - Mayo Clinic Research

   Paracrine cocultures. Specifications and properties: Independent culture chambers interconnected by microgrooves. Bidirectional paracrine signaling.

4. Programs - Biliary Epigenetics and Regenerative Medicine: Robert C. Huebert

   This project focuses on understanding how epigenetic dysregulation in cholangiocytes leads to the release of paracrine molecules that subsequently activate ...

5. Overview - Epigenomics of Metabolic Diseases: Zong Wei - Mayo Clinic Research

   Novel paracrine regulators in metabolic diseases and chronic inflammation. Cross talk between pancreatic islets and their microenvironment. Epigenetic ...

6. Mayo Clinic researchers lead transformative shift toward neurorestorative treatment strategies for most severe forms of epilepsy

   Grewal's clinical trial will become neural or brain cell types and interact in the part of the brain where seizures occur. "It's called paracrine signaling, ...

7. Epigenomics of Metabolic Diseases: Zong Wei - Mayo Clinic Research

   Novel paracrine regulators in metabolic diseases and chronic inflammation. Cross talk between pancreatic islets and their microenvironment. Epigenetic ...

8. Programs - Biliary Regenerative Medicine: Robert C. Huebert - Mayo Clinic Research

   This project focuses on understanding how epigenetic dysregulation in cholangiocytes leads to the release of paracrine molecules that subsequently activate ...

9. Sandra M. Herrmann, M.D. - Mayo Clinic Faculty Profiles

   She is interested in optimization of stem cell function using hypoxia preconditioning and further studying its effects on paracrine mechanisms of mesenchymal ...

10. Ramandeep S. Takhter, Ph.D. - Mayo Clinic Faculty Profiles

    Human mesenchymal cells have built-in mesodermal multipotency to induce cardiac regeneration by inducing paracrine signaling, differentiation into new ...