cytology 57  results

Laboratory technician in analytical laboratory using a cytology scannerLaboratory technician in analytical laboratory using a cytology scanner
Laboratory technician in analytical laboratory using a cytology scannerLaboratory technician in analytical laboratory using a cytology scanner
Laboratory technician in analytical laboratory putting object plates in cytology readerLaboratory technician in analytical laboratory putting object plates in cytology reader
Laboratory technician in analytical laboratory putting object plates in cytology readerLaboratory technician in analytical laboratory putting object plates in cytology reader
Microscopic view of stratified epithelium of a dogMicroscopic view of stratified epithelium of a dog
Clathrin-coated vesicle budding from membrane, illustrationClathrin-coated vesicle budding from membrane, illustration
Glucose transporter transmembrane protein, illustrationGlucose transporter transmembrane protein, illustration
Breast cancer cells. Colored scanning electron micrograph (SEM) of breast cancer cells. The cells shows numerous processes and micro plicae (fine surface folds). These features are characteristic of highly mobile cells, and enable cancerous cells to spread (metastasis) rapidly round the body, and invade other organs and tissues. Cancer cells divide rapidly and chaotically, and may clump to form malignant tumors. The tumors often invade and destroy surrounding tissues. Breast cancer is the most common form of cancer in women. Treatment involves surgical removal of the tumor, often combined with radiotherapy and chemotherapy. Magnification: x3500 when printed 10cm wide.Breast cancer cells. Colored scanning electron micrograph (SEM) of breast cancer cells. The cells shows numerous processes and micro plicae (fine surface folds). These features are characteristic of highly mobile cells, and enable cancerous cells to spread (metastasis) rapidly round the body, and invade other organs and tissues. Cancer cells divide rapidly and chaotically, and may clump to form malignant tumors. The tumors often invade and destroy surrounding tissues. Breast cancer is the most common form of cancer in women. Treatment involves surgical removal of the tumor, often combined with radiotherapy and chemotherapy. Magnification: x3500 when printed 10cm wide.
Breast cancer cell. Colored scanning electron micrograph (SEM) of a breast cancer cell. The cell shows numerous processes and micro plicae (fine surface folds). These features are characteristic of highly mobile cells, and enable cancerous cells to spread (metastasis) rapidly round the body, and invade other organs and tissues. Cancer cells divide rapidly and chaotically, and may clump to form malignant tumors. The tumors often invade and destroy surrounding tissues. Breast cancer is the most common form of cancer in women. Treatment involves surgical removal of the tumor, often combined with radiotherapy and chemotherapy. Magnification: x3500 when printed 10cm wide.Breast cancer cell. Colored scanning electron micrograph (SEM) of a breast cancer cell. The cell shows numerous processes and micro plicae (fine surface folds). These features are characteristic of highly mobile cells, and enable cancerous cells to spread (metastasis) rapidly round the body, and invade other organs and tissues. Cancer cells divide rapidly and chaotically, and may clump to form malignant tumors. The tumors often invade and destroy surrounding tissues. Breast cancer is the most common form of cancer in women. Treatment involves surgical removal of the tumor, often combined with radiotherapy and chemotherapy. Magnification: x3500 when printed 10cm wide.
Breast cancer cells. Colored scanning electron micrograph (SEM) of breast cancer cells. The cells shows numerous processes and micro plicae (fine surface folds). These features are characteristic of highly mobile cells, and enable cancerous cells to spread (metastasis) rapidly round the body, and invade other organs and tissues. Cancer cells divide rapidly and chaotically, and may clump to form malignant tumors. The tumors often invade and destroy surrounding tissues. Breast cancer is the most common form of cancer in women. Treatment involves surgical removal of the tumor, often combined with radiotherapy and chemotherapy. Magnification: x3500 when printed 10cm wide.Breast cancer cells. Colored scanning electron micrograph (SEM) of breast cancer cells. The cells shows numerous processes and micro plicae (fine surface folds). These features are characteristic of highly mobile cells, and enable cancerous cells to spread (metastasis) rapidly round the body, and invade other organs and tissues. Cancer cells divide rapidly and chaotically, and may clump to form malignant tumors. The tumors often invade and destroy surrounding tissues. Breast cancer is the most common form of cancer in women. Treatment involves surgical removal of the tumor, often combined with radiotherapy and chemotherapy. Magnification: x3500 when printed 10cm wide.
Vesicles (spheres) being transported along microtubules (rod-shaped) by kinesin motor proteins (green and purple).Vesicles (spheres) being transported along microtubules (rod-shaped) by kinesin motor proteins (green and purple).
Vesicles (spheres) being transported along microtubules (rod-shaped) by kinesin motor proteins (green and purple).Vesicles (spheres) being transported along microtubules (rod-shaped) by kinesin motor proteins (green and purple).
Vesicles (spheres) being transported along microtubules (rod-shaped) by kinesin motor proteins (green and purple).Vesicles (spheres) being transported along microtubules (rod-shaped) by kinesin motor proteins (green and purple).
Pre-miRNAs (pre-micro ribonucleic acids, helical) being exported from the cell nucleus to the cytoplasm by the exportin-5 protein.Pre-miRNAs (pre-micro ribonucleic acids, helical) being exported from the cell nucleus to the cytoplasm by the exportin-5 protein.
Animal cell, computer illustration - OffsetAnimal cell, computer illustration - Offset
Animal cell, computer illustration - OffsetAnimal cell, computer illustration - Offset
Animal cell, computer illustration - OffsetAnimal cell, computer illustration - Offset
Mesenchymal stem cell, SEM - OffsetMesenchymal stem cell, SEM - Offset
Breast cancer cell, SEM - OffsetBreast cancer cell, SEM - Offset
Scientist preparing cells in a multi well plate.Scientist preparing cells in a multi well plate.
Computer illustration of a synapseComputer illustration of a synapse
Green fluorescence of peanut cotyledon, fluorescence micrographGreen fluorescence of peanut cotyledon, fluorescence micrograph
Micrograph of red peanut leaf cells on black backgroundMicrograph of red peanut leaf cells on black background
Micrograph of peanut leaf cells on black backgroundMicrograph of peanut leaf cells on black background
Micrograph of peanut leaf cells on a white backgroundMicrograph of peanut leaf cells on a white background
Microscopic view of cuboidal epithelium of a ratMicroscopic view of cuboidal epithelium of a rat
Micrograph of cuboidal epithelium of a ratMicrograph of cuboidal epithelium of a rat
Migrograph of cuboidal epithelium of a mouseMigrograph of cuboidal epithelium of a mouse
Microscopic view of cuboidal epithelium of a mouseMicroscopic view of cuboidal epithelium of a mouse
Multicolored microscopic view of cuboidal epithelium of a mouseMulticolored microscopic view of cuboidal epithelium of a mouse
Micrograph of stratified epithelium of a dogMicrograph of stratified epithelium of a dog
Micrograph of ciliated columnar epitheliumMicrograph of ciliated columnar epithelium
3D rendered Illustration- visualization of a anatomically correct Mitochondrion- a organelle of most eukaryotic and other cells3D rendered Illustration- visualization of a anatomically correct Mitochondrion- a organelle of most eukaryotic and other cells
3D rendered illustration of a generic bacteria3D rendered illustration of a generic bacteria
Blood cells from the Offset CollectionBlood cells from the Offset Collection
Red blood cells, SEM - OffsetRed blood cells, SEM - Offset
April 24, 2015: Photo documentary on bio printing. Zurich University of Applied Sciences (ZHAW) is working with a bio printer from regenHU to produce different human tissues. Bio printing allows three dimensional tissue production in a fast and controlled manner by the precise positioning of primary cells, biomaterials and growth factors. Thereby, bioprinted tissues simulate the complex in vivo situation of our body. Tissues are produced in a layer by layer mode by alternating photopolymerized bioink and cells. Before using for substance testing the tissue are matured in a cell culture environment.April 24, 2015: Photo documentary on bio printing. Zurich University of Applied Sciences (ZHAW) is working with a bio printer from regenHU to produce different human tissues. Bio printing allows three dimensional tissue production in a fast and controlled manner by the precise positioning of primary cells, biomaterials and growth factors. Thereby, bioprinted tissues simulate the complex in vivo situation of our body. Tissues are produced in a layer by layer mode by alternating photopolymerized bioink and cells. Before using for substance testing the tissue are matured in a cell culture environment.
Bioprinting photo from the Offset CollectionBioprinting photo from the Offset Collection
Laboratory technician in analytical laboratory taking a sample from a plastic containerLaboratory technician in analytical laboratory taking a sample from a plastic container
Medical samples in tissue stainerMedical samples in tissue stainer
Tissue stainer from the Offset CollectionTissue stainer from the Offset Collection
Medical samples in tissue stainerMedical samples in tissue stainer
Device for the preparation of histological slidesDevice for the preparation of histological slides
Producing of histological slides - OffsetProducing of histological slides - Offset
Histological examination with tissue stainerHistological examination with tissue stainer
Light micrograph of a vaginal smear showing adenocarcinoma cells (center). Vaginal cancer.Light micrograph of a vaginal smear showing adenocarcinoma cells (center). Vaginal cancer.
Carcinoma cell under a color transmission electron micrographCarcinoma cell under a color transmission electron micrograph
Color transmission electron micrograph of a section through smell receptors (cilia) projecting from an olfactory neuron (blue).Color transmission electron micrograph of a section through smell receptors (cilia) projecting from an olfactory neuron (blue).

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