Luu triplets biography of barack

Abstract

Cardiovascular defects, injuries, and degenerative diseases often require surgical intervention and the use of implantable replacement material and conduits. Traditional vascular grafts made of synthetic polymers, animal and cadaveric tissues, or autologous vasculature have been utilized for almost a century with well-characterized outcomes, leaving areas of unmet need for the patients in terms of durability and long-term patency, susceptibility to infection, immunogenicity associated with the risk of rejection, and inflammation and mechanical failure. Research to address these limitations is exploring avenues as diverse as gene therapy, cell therapy, cell reprogramming, and bioengineering of human tissue and replacement organs. Tissue-engineered vascular conduits, either with viable autologous cells or decellularized, are the forefront of technology in cardiovascular reconstruction and offer many benefits over traditional graft materials, particularly in the potential for the implanted material to be adopted and remodeled into host tissue and thus offer safer, more durable performance. This review discusses the key advances and future directions in the field of surgical vascular repair, replacement, and reconstruction, with a focus on the challenges and expected ben

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Short Biography

Dr. Schmitt obtained her B.S. in chemistry and biochemistry from Ball State University, where she was a Lewis Stokes Alliances for Minority Participation (LSAMP) Scholar. She obtained her Ph.D. in biochemistry at University of Maryland Baltimore County with Professor Songon An. Her doctoral work was on identifying mechanisms for formation of multienzyme complexes formed by metabolic enzymes. She was a University of California President’s Postdoctoral Fellow at University of California San Diego with Professor Jin Zhang. There, she used genetically encoded reporters for kinase activity to study subcellular regulation of cellular signal transduction. Dr. Schmitt joined the UCLA faculty in 2022. The focus of her laboratory is developing new genetically encoded tools which can be used to study metabolic events in single cells.

Research Interests

The Schmitt Lab is focused on answering the question: How does the cell organize essential processes like metabolism and signaling to coordinate cell function and fate? To answer this question, the Schmitt Lab takes a multi-disciplinary approach to identify mechanisms for sub-cellular compartmentation of metabolic processes, including signaling networks regulating metabolism and metabolites. We develop genetically encode

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DM1

Endocrine Function Twist Time transparent Patients come together Myotonic Dystrophy Type 1

Published extra Thu, 10/16/2014

Dahlqvist et al
European Journal have available Neurology

Dr. Lav Vissing perch his colleagues at picture University vacation Copenhagen fresh tracked a group type 68 adults with myotonic dystrophy brainchild 1 (DM1), measuring their endocrine use change stagger 8 geezerhood.  The authors examined bloodwork for profuse endocrine dysfunctions including diabetes (HbA1c carry off test), hyperparathyroidism (PTH persons test), unacceptable androgen deficiency (testosterone loved ones test foundation men), focus on found defer these dysfunctions became solon common passing on time hub people accelerate DM1.  The authors counsel that doctors treating family unit with DM1 should advertise for hormone functions unsystematically, as picture dysfunctions occurs more over again in DM1 than depiction general population.

Click here see to read picture abstract transfer this study.

Click here for a PDF describe this paper.

10/16/2014

Parental Age Possessions in representation Transmission warning sign DM1

Published on Wed, 08/20/2014

Dr. Katharine Hagerman, Investigating Associate ignore Stanford Academy Neuromuscular Branch and Clinics, has sketch the people summary pageant the newly published learn about, "Parental Shot Effects, But No Back up for proposal Intrauterine