RxPG News Feed for RxPG News

Medical Research Health Special Topics World
  Home
 
   Health
 Aging
 Asian Health
 Events
 Fitness
 Food & Nutrition
 Happiness
 Men's Health
 Mental Health
 Occupational Health
 Parenting
 Public Health
 Sleep Hygiene
 Women's Health
 
   Healthcare
 Africa
 Australia
 Canada Healthcare
 China Healthcare
 India Healthcare
 New Zealand
 South Africa
 UK
 USA
 World Healthcare
 
 Latest Research
 Aging
 Alternative Medicine
 Anaethesia
 Biochemistry
 Biotechnology
 Cancer
 Cardiology
 Clinical Trials
 Cytology
 Dental
 Dermatology
 Embryology
 Endocrinology
 ENT
 Environment
 Epidemiology
 Gastroenterology
 Genetics
 Gynaecology
 Haematology
 Immunology
 Infectious Diseases
 Medicine
 Metabolism
 Microbiology
 Musculoskeletal
 Nephrology
 Neurosciences
 Obstetrics
 Ophthalmology
 Orthopedics
 Paediatrics
 Pathology
 Pharmacology
 Physiology
 Physiotherapy
 Psychiatry
 Radiology
 Rheumatology
 Sports Medicine
 Surgery
 Toxicology
 Urology
 
   Medical News
 Awards & Prizes
 Epidemics
 Launch
 Opinion
 Professionals
 
   Special Topics
 Ethics
 Euthanasia
 Evolution
 Feature
 Odd Medical News
 Climate

Last Updated: Sep 15, 2017 - 4:49:58 AM
Research Article
Latest Research Channel

subscribe to Latest Research newsletter
Latest Research

   EMAIL   |   PRINT

Swine cells could power artificial liver


Feb 27, 2013 - 5:00:00 AM

 

Chronic or acute, liver failure can be deadly. Toxins take over, the skin turns yellow and higher brain function slows.

There is no effective therapy at the moment to deal with the toxins that build up in your body, said Neil Talbot, a Research Animal Scientist for the USDA Agricultural Research Service. Their only option now is to transplant a liver.

Talbot thinks a line of special liver cells could change that. In an interview with the American Society of Animal Science, he discussed how a line of pig liver cells called PICM-19 could perform many of the same functions as a human liver.

In 1991, Talbot created PICM-19 from the cells of an 8-day-old pig embryo. The cell line is significant because it is immortal, meaning the cells can divide an infinite number of times. Many immortal cells lines continue dividing because they are derived from cancer cells; however, PICM-19 cells are derived from epiblast cells, the embryonic stem cells that form in the early stages of embryo development.

This immortal cell line has helped Talbot study how cells differentiate. Cells from the PICM-19 lines naturally differentiate into bile duct cells or hepatocytes. Hepatocytes do the bulk of the work in a liver. Hepatocytes form and secrete bile, store glycogen, control blood glucose, process vitamin D, and metabolize cholesterol and fat.

The PICM- 19 cells are the cells that really do all the metabolic functions of the liver, said Talbot.

Hepatocytes also scrub toxins from the blood. Talbot said PICM-19 cells could do the same thing inside an artificial liver. There have already been several in vitro tests of artificial liver devices, and the ARS scientists are working on ways to grow the PICM-19 cells without needing feeder cells. Feeder cells are mouse cells that hold PICM-19 cells in place and provide important molecules for PICM-19 cell growth and maintenance.

Artificial livers are still in development, but Talbot pointed out other applications for PICM-19 cells. Talbot and fellow scientists have used PICM-19 to study malaria, toxoplasmosis and hepatitis viruses. Researchers could also use the cells to study certain cancers of the liver or investigate the changes in the bile duct associated with cystic fibrosis.

Talbot recommends future studies on how PICM-19 cells respond to selective pressures. He said scientists could select for more efficient liver cells by exposing PICM-19 cells to toxins in culture.

A lot of cells would die, but the survivors would really be tough, Talbot said.

Those tougher cells could make artificial liver devices more effective. Scientists could also use genetic modification to prompt PICM-19 cells to behave like other cells in the body.

Maybe we want to enable it to make insulin, Talbot said. It will be like a pancreas.

With PICM-19 cells filling in for livers or other organs, the transplant list could get a lot shorter.




Subscribe to Latest Research Newsletter

Enter your email address:


 Feedback
For any corrections of factual information, to contact the editors or to send any medical news or health news press releases, use feedback form

Top of Page

 
Contact us

RxPG Online

Nerve

Online ACLS Certification

 

    Full Text RSS

© All rights reserved by RxPG Medical Solutions Private Limited (India)