67 results filtered with: Clusters
- Digital Images
- Online
HeLa cell, immortal human epithelial cancer cell line, SEM
Anne Weston, Francis Crick Institute
- Digital Images
- Online
Neurone development, embryoid body
John Grady, Doug Turnbull, Claudia Racca, Newcastle University
- Digital Images
- Online
Prostate cancer cells treated with nano sized drug carriers
Khuloud T. Al-Jamal & Izzat Suffian
- Digital Images
- Online
Prostate cancer cells treated with curcumin, LM
Khuloud T. Al-Jamal, Rebecca Klippstein & Izzat Suffian
- Digital Images
- Online
Mouse kidney
Kevin Mackenzie, University of Aberdeen
- Digital Images
- Online
Breast cancer cell spheroid, SEM
Izzat Suffian, David McCarthy & Khuloud T. Al-Jamal
- Digital Images
- Online
Dorsal root ganglion
Kevin Mackenzie, University of Aberdeen
- Digital Images
- Online
Breast cancer cell spheroid, SEM
Khuloud T. Al-Jamal, David McCarthy & Izzat Suffian
- Digital Images
- Online
Metastatic neoplasia of omentum tissue, canine
Michael Frank, Royal Veterinary College
- Digital Images
- Online
HeLa cell, immortal human epithelial cancer cell line, SEM
Anne Weston, Francis Crick Institute
- Digital Images
- Online
Hormone release from a kidney cell, STORM and TIRFM
Alison Dun, ESRIC (Edinburgh Super-Resolution Imaging Consortium)
- Digital Images
- Online
Mouse embryonic stem cells
Jenny Nichols
- Digital Images
- Online
Prostate cancer cell spheroid, SEM
Izzat Suffian, David McCarthy & Khuloud T. Al-Jamal
- Digital Images
- Online
Cellular architecture of normal human skin imaged by whole mount tissue microscopy. Human skin has a rich network of white blood cells (specifically dendritic cells, T cells and macrophages) which form sheaths around blood vessels (string-like structures). A network of lymphatic vessels (ribbon-like structures) is also present. In this image, human skin lymphatic vessels (stained for LYVE-1; blue) and white blood cells comprised of dendritic cells (stained for CD11c; green) and T cells (stained for CD3; red) can be seen. Some macrophages also express the protein LYVE-1 similar to lymphatic vessel cells which can be appreciated as blue cells within and in between the sheaths of white blood cells. This normal cellular architecture is grossly disrupted in diseased skin (see related images). X10 magnification. Scale bar (white) represents 200 micrometres.
Dr. Xiao-nong Wang, Human Dendritic Cell Laboratory, Newcastle University
- Digital Images
- Online
Cellular architecture of human skin lymphoma imaged by whole mount tissue microscopy. Normal human skin has a rich network of white blood cells (specifically dendritic cells, T cells and macrophages) which form sheaths around blood vessels. In diseased skin, such as in skin lymphoma as seen here, this normal architecture becomes distorted. In this image, lots of T cells (stained for CD3; red), dendritic cells (stained for CD11c; green) and macrophages (stained for LYVE-1; blue) have infiltrated the skin. X20 magnification. Scale bar (white) represents 100 micrometres.
Dr. Xiao-nong Wang, Human Dendritic Cell Laboratory, Newcastle University
- Digital Images
- Online
Prostate cancer cells treated with nano sized drug carriers
Khuloud T. Al-Jamal & Houmam Kafa
- Digital Images
- Online
Breast cancer cell spheroid treated with doxorubicin, SEM
Khuloud T. Al-Jamal, David McCarthy & Izzat Suffian
- Digital Images
- Online
HeLa cell, immortal human epithelial cancer cell line, SEM
Anne Weston, Francis Crick Institute
- Digital Images
- Online
HeLa cell, immortal human epithelial cancer cell line, SEM
Anne Weston, Francis Crick Institute
- Digital Images
- Online
Neurone development, embryoid body
John Grady, Doug Turnbull, Claudia Racca, Newcastle University
- Digital Images
- Online
Mouse embryonic stem cells
Jenny Nichols
- Digital Images
- Online
Mouse embryonic stem cells
Jenny Nichols
- Digital Images
- Online
Breast cancer cell spheroid treated with doxorubicin, SEM
Khuloud T. Al-Jamal, David McCarthy & Izzat Suffian
- Digital Images
- Online
Prostate cancer cells treated with nano sized drug carriers
Khuloud T. Al-Jamal
- Digital Images
- Online
Mouse embryonic stem cells
Jenny Nichols