k CAR Tcell therapy, SEM CAR Tcell therapy. Coloured scanning electron micrograph SEM of a Tcell orange and a breast cancer cell. CAR Tcell therapy involves producing large quantities of specialised Tcells on an individual basis for each patient. Tcells are extracted from a patients blood sample and reprogrammed to recognise a specific target protein on the patients tumour cells. To achieve this, the Tcells are infected with a harmless virus, which inserts a gene into the Tcells DNA that causes the Tcell to produce a receptor on its surface that recognises a specific tumour protein. Large quantities of the reprogrammed Tcells are grown in the lab before being injected back into the patient where they seek out the target protein on breast cancer cells and attack them. Magnification x3600 when printed at 10 centimetres wide., by STEVE GSCHMEISSNERSCIENCE PHOTO LIBRARY Stock Photo - Afloimages
Sign up
Login
All images
CAR T cell therapy, SEM CAR T cell therapy. Coloured scanning electron micrograph SEM of a T cell orange and a breast cancer cell. CAR T cell therapy involves producing large quantities of specialised T cells on an individual basis for each patient. T cells are extracted from a patient s blood sample and reprogrammed to recognise a specific target protein on the patient s tumour cells. To achieve this, the T cells are infected with a harmless virus, which inserts a gene into the T cell s DNA that causes the T cell to produce a receptor on its surface that recognises a specific tumour protein. Large quantities of the reprogrammed T cells are grown in the lab before being injected back into the patient where they seek out the target protein on breast cancer cells and attack them. Magnification: x3600 when printed at 10 centimetres wide., by STEVE GSCHMEISSNER SCIENCE PHOTO LIBRARY
RM
Add to Lightbox
Download Comp

CAR T-cell therapy, SEM

CAR T-cell therapy. Coloured scanning electron micrograph (SEM) of a T-cell (orange) and a breast cancer cell. CAR T-cell therapy involves producing large quantities of specialised T-cells on an individual basis for each patient. T-cells are extracted from a patient's blood sample and reprogrammed to recognise a specific target protein on the patient's tumour cells. To achieve this, the T-cells are infected with a harmless virus, which inserts a gene into the T-cell's DNA that causes the T-cell to produce a receptor on its surface that recognises a specific tumour protein. Large quantities of the reprogrammed T-cells are grown in the lab before being injected back into the patient where they seek out the target protein on breast cancer cells and attack them. Magnification: x3600 when printed at 10 centimetres wide., by STEVE GSCHMEISSNER/SCIENCE PHOTO LIBRARY

Details

ID
208394946

Collection

License type
Rights Managed

Photographer



More
Top Categories
Editorial
2024 Paris Olympics
Latest News
Latest Sport
Latest Entertainment
2020 Tokyo Olympics
Creative
People and Lifestyle
Sport and Leisure
Business and Technology
Landscape
Animals
Videos
Sport and Leisure
Drone and Timelapse
People and Lifestyle
Business and Technology
Landscape
Sign in
Register
Member access
Login not found.
Forgot Your Password?