Please select a community
Automation & Microfluidics
Biologics & Bioprocessing
Chemical Process Scale Up
Food & Beverage Analysis
Forensic Science & Clinical Toxicology
Genotyping & Gene Expression
LIMS & ELNs
Metabolomics & Lipidomics
Molecular & Clinical Diagnostics
Next Gen Sequencing
Stem Cells, Cellular Therapy & Biobanking
Become a Member
Add My Products
Immunochemistry & Immunohistochemistry
Showing Results 1 - 0 of 0
Immune Cells Remember Their First Meal
Scientists at the University of Bristol have identified the trigger for immune cells' inflammatory response – a discovery that may pave the way for new treatments for many human diseases.
"Sunscreen" Gene May Guard Against Melanoma
USC-led study reveals that melanoma patients with deficient or mutant copies of the gene are less protected from harmful ultraviolet rays.
Myeloid-Derived Suppressor Cells Play Role in Tumor Growth
Researchers at Baylor College of Medicine have reported a new mechanism that helps cancer cells engage myeloid-derived suppressor cells.
Drug Might Help Treat Sepsis
A DNA enzyme called Top1 plays a key role in turning on genes that cause inflammation in mouse and human cells in response to pathogens. A drug blocking this enzyme rescued mice from lethal inflammatory responses, suggesting a potential treatment for sepsis.
Large-scale HIV Vaccine Trial to Launch in South Africa
NIH-funded study will test safety, efficacy of vaccine regimen.
Immune System Implicated in Gastroschisis
UCSF researchers show that the immune system is implicated in gastroschisis. The findings could lead to improved treatments for the belly birth defect.
Hay Fever's Hidden Supporting Substances
TUM study finds that non-allergenic substances in pollen heighten the immune response.
Cells Carry 'Memory' Of Injury
Researchers from King’s College London show that cells carry a ‘memory’ of injury, which could reveal why chronic pain persists.
New HIV Vaccine Target Discovered
NIH-Led team have discovered a new vaccine target site on HIV.
Do Germs Cause Type 1 Diabetes?
Germs could play a role in the development of type 1 diabetes by triggering the body’s immune system to destroy the cells that produce insulin, new research suggests.
Advertise On This Site
Terms & Conditions
©2016 Technology Networks
, all rights reserved.
Latest presentations and webinars
3,000+ scientific and medical posters
4,500+ scientific videos
JOIN TECHNOLOGY NETWORKS PREMIUM FOR FREE!