News & Events
Study Reveals Stark Racial Differences in Triple Negative Breast Cancer Transcriptomes
The findings could explain why African American women are more prone to invasive, treatment-resistant breast tumors
Thomas Jefferson University To Establish The First Education And Training Center For Biologics Manufacturing In North America In Partnership With Global Leader NIBRT
The Jefferson Institute for Bioprocessing will prepare engineering students and industry professionals to lead in this emerging field
A Protein Could Make Stem Cell Therapy for Heart Attack Damage More Effective
Replenishing a naturally occurring heart protein could improve stem cell therapy after a heart attack
Researchers One Step Closer to Treating Organ Fibrosis
A novel antibody-based therapy that blocks the excessive formation of collagen clusters is safe and effective in multiple animal models of fibrotic disease
Arts & Humanities in Medical School Promote Empathy & Inoculate Against Burnout
Medical students who spend more time engaging in the arts may also be bolstering the qualities that improve their bedside manner with patients, according to new research from Tulane and Thomas Jefferson universities.
Microbubbles Make Breast Cancer More Susceptible to Radiation Therapy
Bursting oxygen-filled microbubbles in breast cancer makes tumors three times more sensitive to radiation therapy in preliminary tests with animal models of the disease
The Eye is Not Immune to Immunity
Contrary to long-established dogma, the eye can host an active immune response that could both heal injury and contribute to loss of vision.
Novel Method of Isolating Infecting Organisms after Joint Replacement
Next-generation Genomic Sequencing could help identify infecting organisms and guide treatment for patients with joint-replacement infection
Magnetically Applied MicroRNAs Could One Day Help Relieve Constipation
Micro metal beads and magnets help deliver a biologic where it’s needed to improve constipation or rectoanal incontinence in animal models of the disorders.
Reactive Oxygen Species Stop Mitochondria in Their Tracks
To satisfy the cell’s energy needs, reactive oxygen species halt mitochondria by tampering with the molecular machinery that anchors these power-generating organelles to their motor proteins.