Photomicrograph blood cells hi-res stock photography and images

Healthy human red & white blood cells, brightfield photomicrograph Stock Photo

RMG2GAP4–Healthy human red & white blood cells, brightfield photomicrograph

Photomicrograph of blood cells infected by the Epstein-Barr virus (EBV), an Herpesvirus responsible for infectious Stock Photo

RME5R0W4–Photomicrograph of blood cells infected by the Epstein-Barr virus (EBV), an Herpesvirus responsible for infectious

White blood cell, Eosinophil Stock Photo

RFP4DP1K–White blood cell, Eosinophil

Photomicrograph of human white blood cells with acute myelocytic leukemia ( AML ) in the pericardial fluid, shown with an Stock Photo

RME5R190–Photomicrograph of human white blood cells with acute myelocytic leukemia ( AML ) in the pericardial fluid, shown with an

RMD8E7HY–Blood cells and HI virus

This Giemsa-stained light photomicrograph revealed presence of two Trypanosoma brucei parasites, which were found in blood Stock Photo

RME8KT0C–This Giemsa-stained light photomicrograph revealed presence of two Trypanosoma brucei parasites, which were found in blood

Human blood cells, stained brightfield photomicrograph Stock Photo

RM2GYBNKM–Human blood cells, stained brightfield photomicrograph

Microscope slide smear sample of human blood cells Stock Photo

RM2C3H5JM–Microscope slide smear sample of human blood cells

Fish blood, smear, 80X light micrograph. Fish blood erythrocytes with micronucleus, under the light microscope. Stock Photo

RF2M640D8–Fish blood, smear, 80X light micrograph. Fish blood erythrocytes with micronucleus, under the light microscope.

Photomicrographs of agranulocytosis: myeloblast, neutrophilic metamyelocyte, promyelocyte, neutrophilic myelocyte, neutrophilic metamyelocyte. Stock Photo

RF2JAC4F3–Photomicrographs of agranulocytosis: myeloblast, neutrophilic metamyelocyte, promyelocyte, neutrophilic myelocyte, neutrophilic metamyelocyte.

Human cerebellum section showing fisures, neurons, Purkinje cells and blood vessel. Photomicrograph. Stock Photo

RF2TGPKKW–Human cerebellum section showing fisures, neurons, Purkinje cells and blood vessel. Photomicrograph.

micrograph of blood vessel, artery and vein Stock Photo

RFEHGNT4–micrograph of blood vessel, artery and vein

Blood pigcon under the microscope, background. (Columba livia) Stock Photo

RFCY4JK7–Blood pigcon under the microscope, background. (Columba livia)

RFCXD96R–micrograph of blood vessel, artery and vein

Human blood smear under microscope, light photomicrograph showing red blood cells and neutrophil Stock Photo

RF2PYTEG4–Human blood smear under microscope, light photomicrograph showing red blood cells and neutrophil

RFEHGNT8–micrograph of blood vessel, artery and vein

Photomicrograph of malignant B-cell lymphocytes seen in Burkitt's lymphoma, The Epstein-Barr virus has been isolated from Stock Photo

RME5R1AY–Photomicrograph of malignant B-cell lymphocytes seen in Burkitt's lymphoma, The Epstein-Barr virus has been isolated from

science medical anthropotomy physiology micrograph of blood vessel, artery and vein. Stock Photo

RFCWT1J5–science medical anthropotomy physiology micrograph of blood vessel, artery and vein.

Human liver, photomicrograph showing cords made from hepatocytes and clear space between them called hepatic sinusoids filled with red blood cells Stock Photo

RF2PYTC7F–Human liver, photomicrograph showing cords made from hepatocytes and clear space between them called hepatic sinusoids filled with red blood cells

Solidified coagulated blood seen on a 100x microscope view. Blood smear under microscope present neutrophils and red blood cells Stock Photo

RFK4Y6YE–Solidified coagulated blood seen on a 100x microscope view. Blood smear under microscope present neutrophils and red blood cells

Human red bone marrow, hematopoietic press. The big tsit beetveen erythrocytes are megakaryocytes. Hematoxylin and eosin stain. Stock Photo

RF2T6W3JF–Human red bone marrow, hematopoietic press. The big tsit beetveen erythrocytes are megakaryocytes. Hematoxylin and eosin stain.

Red blood cells with anaemia Stock Photo

RFP4DP1D–Red blood cells with anaemia

Photomicrograph of the malaria parasite Plasmodium malariae present in red blood cells in ring form, on a Giemsa stained thin blood smear, magnified 1125 x, 1971. () Stock Photo

RMM1HEYW–Photomicrograph of the malaria parasite Plasmodium malariae present in red blood cells in ring form, on a Giemsa stained thin blood smear, magnified 1125 x, 1971. ()

Photomicrograph plasmodium malariae Stock Photo

RMA9PTE9–Photomicrograph plasmodium malariae

RME8KT0B–This Giemsa-stained light photomicrograph revealed presence of two Trypanosoma brucei parasites, which were found in blood

Photomicrograph of the malaria disease manifested in Plasmodium falciparum rings, Maurer's dots and crenated red blood cells, 1966. Image courtesy CDC/Dr. Mae Melvin. () Stock Photo

RMM1HDGK–Photomicrograph of the malaria disease manifested in Plasmodium falciparum rings, Maurer's dots and crenated red blood cells, 1966. Image courtesy CDC/Dr. Mae Melvin. ()

RM2C3H5JD–Microscope slide smear sample of human blood cells

White blood cells (WBC), a stack of platelets, and red blood cells (RBC) revealed in the photomicrograph of a thick film Giemsa-stained blood smear sample, 1971. Image courtesy Centers for Disease Control (CDC) / Dr Mae Melvin. () Stock Photo

RMMF18WA–White blood cells (WBC), a stack of platelets, and red blood cells (RBC) revealed in the photomicrograph of a thick film Giemsa-stained blood smear sample, 1971. Image courtesy Centers for Disease Control (CDC) / Dr Mae Melvin. ()

RMHRF5X8–Blood Cells

Human cerebellum section showing fisures, neurons, Purkinge cells and blood vessel. Photomicrograph. Stock Photo

RF2TGPKY8–Human cerebellum section showing fisures, neurons, Purkinge cells and blood vessel. Photomicrograph.

A photomicrograph detecting the presence of hemosiderin, stained blue, within diffuse bone marrow, 1972. Hemosiderin, revealed here using PAS stain and HandE counterstain, is a normal by-product produced during the breakdown of red blood cells, and the decomposition of the hemoglobin molecule contained in these blood components. Image courtesy CDC/Dr. Gordon D. McLaren. Stock Photo

RMT6994A–A photomicrograph detecting the presence of hemosiderin, stained blue, within diffuse bone marrow, 1972. Hemosiderin, revealed here using PAS stain and HandE counterstain, is a normal by-product produced during the breakdown of red blood cells, and the decomposition of the hemoglobin molecule contained in these blood components. Image courtesy CDC/Dr. Gordon D. McLaren.

Vein with red blood cells (at center) surrounded by connective tissue and epithelium. Photomicrograph X150 at 10 cm wide. Stock Photo

RF2WB424J–Vein with red blood cells (at center) surrounded by connective tissue and epithelium. Photomicrograph X150 at 10 cm wide.

Red Blood Cells Enmeshed in Fibrinous Matrix Stock Photo

RMD79XHP–Red Blood Cells Enmeshed in Fibrinous Matrix

RFDPFG44–SEM of red blood cells

RFEHGNTA–micrograph of blood vessel, artery and vein

medicine, diseases, Blastomycosis, shoot cells surrounded by leukocytes, 20th century, 20th century, mycotic infection, mycotic infections, mycoses, fungus, fungi, skin diseases, skin, skins, mycosis, dermatosis, skin disease, tissue, tissues, leukocyte, white blood cell, leukocytes, photomicrograph, photomicrographs, microscopy, medicine, medicines, diseases, illnesses, disease, illness, shoot cells, shoot cell, historic, historical, Additional-Rights-Clearences-Not Available Stock Photo

RMG5X3WX–medicine, diseases, Blastomycosis, shoot cells surrounded by leukocytes, 20th century, 20th century, mycotic infection, mycotic infections, mycoses, fungus, fungi, skin diseases, skin, skins, mycosis, dermatosis, skin disease, tissue, tissues, leukocyte, white blood cell, leukocytes, photomicrograph, photomicrographs, microscopy, medicine, medicines, diseases, illnesses, disease, illness, shoot cells, shoot cell, historic, historical, Additional-Rights-Clearences-Not Available

RFCWT1JH–science medical anthropotomy physiology micrograph of blood vessel, artery and vein.

Medical banner 'Hepatic Steatosis' on blue background with drops and large copy space for text or checklist. Stock Photo

RF2HXN5F2–Medical banner 'Hepatic Steatosis' on blue background with drops and large copy space for text or checklist.

RFK4Y6YA–Solidified coagulated blood seen on a 100x microscope view. Blood smear under microscope present neutrophils and red blood cells

RF2T6W3GW–Human red bone marrow, hematopoietic press. The big tsit beetveen erythrocytes are megakaryocytes. Hematoxylin and eosin stain.

RFP4DP1N–Sickled red blood cells

Hemorrhagic lymphadenitits, lymph node inflammation and hemorrhage, light micrograph, photo under microscope Stock Photo

RF2R71204–Hemorrhagic lymphadenitits, lymph node inflammation and hemorrhage, light micrograph, photo under microscope

promastigotes stage of leishmania protozoa Stock Vector

RF2PNWBPX–promastigotes stage of leishmania protozoa

SEM image of a human white blood cell Stock Photo

RFDPFRH5–SEM image of a human white blood cell

Blood vessels with red blood cells, cross-section, light micrograph, photo under microscope Stock Photo

RF2R70XY5–Blood vessels with red blood cells, cross-section, light micrograph, photo under microscope

RMATB46A–Iron deficiency anaemia

Human kidney tissue, light micrograph. Kidney function is vital for regulating blood pressure. The kidneys are also a source of several important horm Stock Photo

RF2DAMBD1–Human kidney tissue, light micrograph. Kidney function is vital for regulating blood pressure. The kidneys are also a source of several important horm

LM of human blood smear showing red & white cells Stock Photo

RMHRF75X–LM of human blood smear showing red & white cells

RF2AA49J9–Listeria bacteria on meat.

RMT6994K–A photomicrograph detecting the presence of hemosiderin, stained blue, within diffuse bone marrow, 1972. Hemosiderin, revealed here using PAS stain and HandE counterstain, is a normal by-product produced during the breakdown of red blood cells, and the decomposition of the hemoglobin molecule contained in these blood components. Image courtesy CDC/Dr. Gordon D. McLaren.

Veins with red blood cells surrounded by connective tissue and smooth muscle fibers. Photomicrograph X150 at 10 cm wide. Stock Photo

RF2WB424Y–Veins with red blood cells surrounded by connective tissue and smooth muscle fibers. Photomicrograph X150 at 10 cm wide.

RMD79XJ1–Red Blood Cells Enmeshed in Fibrinous Matrix

human white blood cells (WBCs), or leukocytes Stock Photo

RFDPFJN8–human white blood cells (WBCs), or leukocytes

RFEHGNTB–micrograph of blood vessel, artery and vein

A photomicrograph of Plasmodium falciparum schizonts inside two erythrocytes using Wright's stains. (x1500), The Schizont stage of the life cycle precedes the formation of merozoites, which will be released to go on to infect more red blood cells. This erythrocyte contains a young immature schizont with underdeveloped merozoites. Image courtesy CDC, 1979. Stock Photo

RMKW0YYE–A photomicrograph of Plasmodium falciparum schizonts inside two erythrocytes using Wright's stains. (x1500), The Schizont stage of the life cycle precedes the formation of merozoites, which will be released to go on to infect more red blood cells. This erythrocyte contains a young immature schizont with underdeveloped merozoites. Image courtesy CDC, 1979.

RFCWT1JB–science medical anthropotomy physiology micrograph of blood vessel, artery and vein.

RF2HXN5BE–Medical banner 'Hepatic Steatosis' on blue background with drops and large copy space for text or checklist.

RFK4Y6Y2–Solidified coagulated blood seen on a 100x microscope view. Blood smear under microscope present neutrophils and red blood cells

RF2T6W3CF–Human red bone marrow, hematopoietic press. The big tsit beetveen erythrocytes are megakaryocytes. Hematoxylin and eosin stain.

Red blood cells with spherocytosis Stock Photo

RFP4DP21–Red blood cells with spherocytosis

Transactions of the American Association of Obstetricians and Gynecologists for the year ... . Case XIII.Upper.—Drawing of gross specimen. Lower.—Photomicrograph of the dense pus cell infiltration of the corpus luteumshown at a in the drawing. Microscopic Examination.—Section (a) shows a typical corpusluteum of pregnancy with an extensive infection. The infection isin multiple foci, eight being counted in this section. In each thereare typical pus cell debris and hemolyzed red blood cells. Section (b) shows a wall with extensive connective tissue hyper-plasia. The mucosa exhibits two types of Stock Photo

RM2AMXRR4–Transactions of the American Association of Obstetricians and Gynecologists for the year ... . Case XIII.Upper.—Drawing of gross specimen. Lower.—Photomicrograph of the dense pus cell infiltration of the corpus luteumshown at a in the drawing. Microscopic Examination.—Section (a) shows a typical corpusluteum of pregnancy with an extensive infection. The infection isin multiple foci, eight being counted in this section. In each thereare typical pus cell debris and hemolyzed red blood cells. Section (b) shows a wall with extensive connective tissue hyper-plasia. The mucosa exhibits two types of

RF2PNWCBK–leishmania promastigotes

RFDPF5FR–SEM of HIV virions

Blood vessels with red blood cells, transevrse section, light micrograph, photo under microscope Stock Photo

RF2R70XY0–Blood vessels with red blood cells, transevrse section, light micrograph, photo under microscope

RF2DAMBCE–Human kidney tissue, light micrograph. Kidney function is vital for regulating blood pressure. The kidneys are also a source of several important horm

Snake blood. Red blood cells with nucleous. Photomicrograph X300 at 10 cm wide. Stock Photo

RF2WB41X1–Snake blood. Red blood cells with nucleous. Photomicrograph X300 at 10 cm wide.

RMD79XJ6–Red Blood Cells Enmeshed in Fibrinous Matrix

TEM of human eosinophil white blood cell Stock Photo

RFDPFHN9–TEM of human eosinophil white blood cell

RFEHGNTC–micrograph of blood vessel, artery and vein

A photomicrograph of a Plasmodium falciparum trophozoite in ring state using Wright's stain. (x1500), Estivo-autumnal malaria, caused by P. falciparum, is responsible for most of the deaths from malaria. The organisms block the blood vessels of the brain. P. falciparum rings have delicate cytoplasm and 1 or 2 small chromatin dots. Image courtesy CDC, 1979. Stock Photo

RMKW0YYK–A photomicrograph of a Plasmodium falciparum trophozoite in ring state using Wright's stain. (x1500), Estivo-autumnal malaria, caused by P. falciparum, is responsible for most of the deaths from malaria. The organisms block the blood vessels of the brain. P. falciparum rings have delicate cytoplasm and 1 or 2 small chromatin dots. Image courtesy CDC, 1979.

RFCWT1HW–science medical anthropotomy physiology micrograph of blood vessel, artery and vein.

RF2HXN5JE–Medical banner 'Hepatic Steatosis' on blue background with drops and large copy space for text or checklist.

RFK4Y6YM–Solidified coagulated blood seen on a 100x microscope view. Blood smear under microscope present neutrophils and red blood cells

Photomicrograph of Malaria, a mosquito-borne disease caused by a parasite, of brain due to Plasmodium falciparum, 1966. Image courtesy CDC/Dr. Mae Melvin. () Stock Photo

RMM1HDPG–Photomicrograph of Malaria, a mosquito-borne disease caused by a parasite, of brain due to Plasmodium falciparum, 1966. Image courtesy CDC/Dr. Mae Melvin. ()

White blood cells . Lymphocyte. 1000x Stock Photo

RFP4DP1W–White blood cells . Lymphocyte. 1000x

A photomicrograph of Plasmodium vivax showing merozoites just prior to disruption using Wright's stain. (x1500), This erythrocyte is a mature schizont containing new merozoites, which when released will further develop into male and female gametocytes. Note the variation in size and staining of erythrocytes. Image courtesy CDC, 1979. Stock Photo

RMKW0YXT–A photomicrograph of Plasmodium vivax showing merozoites just prior to disruption using Wright's stain. (x1500), This erythrocyte is a mature schizont containing new merozoites, which when released will further develop into male and female gametocytes. Note the variation in size and staining of erythrocytes. Image courtesy CDC, 1979.

Venule.Blood vessel.Circulatory tissue.35x Stock Photo

RFMWA5JE–Venule.Blood vessel.Circulatory tissue.35x

RFDPFJXN–SEM of a human macrophage

RFP4DP1X–Normal blood cells

RF2R70XXX–Blood vessels with red blood cells, transevrse section, light micrograph, photo under microscope

. Diseases of bones and joints . Fig. 53. Photomicrograph of synovia from a case of arthritis of the hipin an adult male, Type II. Note the collection of round cells aboutthe blood vessel, and the fibrous structure of the membrane. Zeissapochromatic 16 mm. objective. connective tissue. These masses also may be tornloose later and form joint mice. Adhesions never form between the opposingjoint surfaces, and bony or fibrous union nevertakes place. We have seen in Type I. that the ad-hesions between the bone ends are due to the pro- DISEASES OF BONES AND JOINTS 135 liferation of the synovia and o Stock Photo

RM2CRN30D–. Diseases of bones and joints . Fig. 53. Photomicrograph of synovia from a case of arthritis of the hipin an adult male, Type II. Note the collection of round cells aboutthe blood vessel, and the fibrous structure of the membrane. Zeissapochromatic 16 mm. objective. connective tissue. These masses also may be tornloose later and form joint mice. Adhesions never form between the opposingjoint surfaces, and bony or fibrous union nevertakes place. We have seen in Type I. that the ad-hesions between the bone ends are due to the pro- DISEASES OF BONES AND JOINTS 135 liferation of the synovia and o

RF2WB41WX–Snake blood. Red blood cells with nucleous. Photomicrograph X300 at 10 cm wide.

Accumulations Fibrinous Meshwork Inside Catheter Stock Photo

RMD79XHR–Accumulations Fibrinous Meshwork Inside Catheter

Light micrograph of a normal blood smear Stock Photo

RFDPFKGX–Light micrograph of a normal blood smear

RFEHGNT6–micrograph of blood vessel, artery and vein

RFCXD9AH–micrograph of blood vessel, artery and vein

RFCWT1JD–science medical anthropotomy physiology micrograph of blood vessel, artery and vein.

RF2HXN5H0–Medical banner 'Hepatic Steatosis' on blue background with drops and large copy space for text or checklist.

A photomicrograph of a Plasmodium malariae trophozoite in ring stage using Wright's stain. (x1500), P. malariae, a quartan malaria, produces febrile paroxysms on a 72 hour cycle. Relapses can sometimes occur half a century after being infected. Image courtesy CDC, 1979. Stock Photo

RMKW0YPX–A photomicrograph of a Plasmodium malariae trophozoite in ring stage using Wright's stain. (x1500), P. malariae, a quartan malaria, produces febrile paroxysms on a 72 hour cycle. Relapses can sometimes occur half a century after being infected. Image courtesy CDC, 1979.

Photomicrograph of the malaria parasite Plasmodium ovale in its young immature schizont stage, 1973. Image courtesy CDC/Dr. Mae Melvin. () Stock Photo

RMM1HEWF–Photomicrograph of the malaria parasite Plasmodium ovale in its young immature schizont stage, 1973. Image courtesy CDC/Dr. Mae Melvin. ()

red blood cells infected with the malaria parasite. Plasmodium vivax. Stock Photo

RFP3RDEP–red blood cells infected with the malaria parasite. Plasmodium vivax.

A photomicrograph of Plasmodium vivax in its erythrocytic schizont stage, using Wright's stain. (x1500), This erythrocyte is a growing schizont, and will eventually releases new merozoites, which can develop into male and female gametocytes. Note pigment granules are present. Image courtesy CDC, 1979. Stock Photo

RMKW0YY1–A photomicrograph of Plasmodium vivax in its erythrocytic schizont stage, using Wright's stain. (x1500), This erythrocyte is a growing schizont, and will eventually releases new merozoites, which can develop into male and female gametocytes. Note pigment granules are present. Image courtesy CDC, 1979.

RFDPF5G6–SEM of HIV virions

Splenic infarction, light micrograph, photo under microscope Stock Photo

RF2R711D2–Splenic infarction, light micrograph, photo under microscope

. Bacteria and their products. Bacteriology. 112 BACTERIA. peristaltic action of the muscles of the intestine. It thus passes into the body cavity or into other tissues, where it is immediately attacked by the white blood corpuscles, or by the connective tissue corpuscles ; or it may first become developed into the rod-shaped vegetative form. When it has-once commenced to divide it is no longer attacked by the above cells (which Metschnikoff speaks of as the phagocytes) of the insect. If the Daphnia is in moderately good health the. Photomicrograph of Rosahefe. x looo. Rose-coloured yeast (?) Stock Photo

RMRE4AJG–. Bacteria and their products. Bacteriology. 112 BACTERIA. peristaltic action of the muscles of the intestine. It thus passes into the body cavity or into other tissues, where it is immediately attacked by the white blood corpuscles, or by the connective tissue corpuscles ; or it may first become developed into the rod-shaped vegetative form. When it has-once commenced to divide it is no longer attacked by the above cells (which Metschnikoff speaks of as the phagocytes) of the insect. If the Daphnia is in moderately good health the. Photomicrograph of Rosahefe. x looo. Rose-coloured yeast (?)