Tag: precision medicine

Precision medicine is an emerging approach for disease treatment and prevention that takes into account individual variability in genes, environment, and lifestyle for each person. This approach will allow doctors and researchers to predict more accurately which treatment and prevention strategies for a particular disease will work in which groups of people. It is in contrast to a “one-size-fits-all” approach, in which disease treatment and prevention strategies are developed for the average person, with less consideration of the differences between individuals.

Researchers at WID with expertise in complex biological systems, epigenetics, data science, health care, gene editing, and tissue engineering will contribute to “healthy people” initiatives through precison medicine.

Precision medicine is an important component of WID’s Multi-Omics Hub.

Micah Dombroe

Micah Dombroe

Lab Manager

  • Research Staff

Genomic DNA sequencing and viral production. Facilitate various administrative functions.

Xianghui Xu

Xianghui Xu

Research Scientist

  • WID Affiliate

Bioinspired macromolecular and supramolecular strategy for advanced biomaterials.

Min Zhu

MIn Zhu

  • Graduate Student

Nanoparticles for delivery of therapeutic agents and with gene-editing

Ryan Aturaliya

  • Undergraduate Student

Treating ePTFE grafts to mimic the characteristics of human blood vessels.

Jo Handelsman

Jo Handelsman

WID Director

  • WID Faculty

Genetic and biochemical processes underlying interactions within plant and human microbiomes.

WID News

Randolph Ashton Continues Research into Causes of Lou Gehrig’s Disease

 , ,

In August 2017, Randolph Ashton received almost $800,000 from the National Institute of Neurological Disorders and Stroke, part of NIH, to continue a five-year research study of Lou Gehrig’s disease (amyotrophic lateral sclerosis, or ALS), after successfully completing its first phase.

WID News

UW-Madison to be Partner in Center for Cell Manufacturing Technologies

 , , , ,

The National Science Foundation has awarded nearly $20 million to a consortium of universities to support a new engineering research center that will develop transformative tools and technologies for the consistent, scalable, and low-cost production of high-quality living therapeutic cells. Several WID investigators are collaborators on the project.

Louise Saraspe

Louise Saraspe

  • Undergraduate Student

In vitro modeling of CAR T cell cytotoxicity, activation, and exhaustion

Eric Armstrong

Eric Armstrong

  • Research Staff

Comparative metabolomics; Epigenetics of therapy-resistant prostate cancer

Evan Cory

Evan Cory

  • Undergraduate Student

Disease modeling using CRISPR/Cas9 gene editing and directed differentiation of human stem cells

Alexis Lawton

Alexis Lawton

  • Graduate Student

Understanding the mechanisms and biological functions of reversible protein acetylation.

Kaivalya Molugu

Kaivalya Molugu

  • Graduate Student

Biophysical regulation of cellular reprogramming

Handelsman Lab

Understanding diversity in microbial communities and their role in infectious disease; in particular, the genetic basis for stability of microbial communities, the role of a gut community as a source of opportunistic pathogens, and the soil microbial community as a source of new antibiotics and antibiotic resistance genes.

Yin Research Group

Investigating how living organisms cooperate or compete in diverse and changing environments. Methods and perspectives are drawn from many fields, including ecology, evolution, molecular biology, physics, chemistry, engineering, mathematics, and computer science. The lab uses data-driven mechanistic and statistical models to predict when microbes or other organisms will persist or perish, with a broad goal of promoting human health through effective management of microbe-host interactions.