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This Giemsa-stained light photomicrograph revealed presence of two Trypanosoma brucei parasites, which were found in blood Stock Photo
RME8KT0CThis Giemsa-stained light photomicrograph revealed presence of two Trypanosoma brucei parasites, which were found in blood
Human blood cells under a light microscope, stained with Giemsa stain times 40 magnification Stock Photo
RF2XMBF56Human blood cells under a light microscope, stained with Giemsa stain times 40 magnification
Helicobacter Pylori in the Human Stomach Viewed at 400x Magnification with Giemsa Stain. Stock Photo
RFJ4YTD6Helicobacter Pylori in the Human Stomach Viewed at 400x Magnification with Giemsa Stain.
stained glass slides of peripheral blood smear with violet leishman giemsa stain in hematology pathology laboratory Stock Photo
RFRRMXJEstained glass slides of peripheral blood smear with violet leishman giemsa stain in hematology pathology laboratory
OLYMPUS DIGITAL CAMERA Giemsa Stock Photo
RMKKGPAAOLYMPUS DIGITAL CAMERA Giemsa
Light photomicrograph of a rat blood smear showing Trypanosoma lewisi parasites, using a Giemsa stain technique Stock Photo
RMBN41A8Light photomicrograph of a rat blood smear showing Trypanosoma lewisi parasites, using a Giemsa stain technique
Photomicrograph of a Giemsa-stained schizont of Plasmodium vivax, a parasite that causes malaria, with five chromatin masses, 1977. Image courtesy CDC/Dr. Mae Melvin. () Stock Photo
RMM1HDHWPhotomicrograph of a Giemsa-stained schizont of Plasmodium vivax, a parasite that causes malaria, with five chromatin masses, 1977. Image courtesy CDC/Dr. Mae Melvin. ()
Iron deficiency anaemia. Computer illustration showing hypochromic (stain poorly) and microcytic (small) red blood cells. A small lymphocyte is drawn for size comparison. This is the most common form of anaemia worldwide. It is caused by a deficiency of iron, an essential component of the blood pigment haemoglobin. Symptoms include tired- ness, dizziness, and pale skin. Stock Photo
RFRDPCDWIron deficiency anaemia. Computer illustration showing hypochromic (stain poorly) and microcytic (small) red blood cells. A small lymphocyte is drawn for size comparison. This is the most common form of anaemia worldwide. It is caused by a deficiency of iron, an essential component of the blood pigment haemoglobin. Symptoms include tired- ness, dizziness, and pale skin.
Babesia microti and Plasmodium berghei revealed in red blood cells using Giemsa stained, 1972. Image courtesy Centers for Disease Control (CDC) / Dr George Healy. () Stock Photo
RMM1H9C3Babesia microti and Plasmodium berghei revealed in red blood cells using Giemsa stained, 1972. Image courtesy Centers for Disease Control (CDC) / Dr George Healy. ()
Fluid aspirate from staph infection Stock Photo
RFCNTTP4Fluid aspirate from staph infection
Gustav Giemsa Stock Photo
RMJ3M8H5Gustav Giemsa
147 Gustav Giemsa Stock Photo
RMPDFHXP147 Gustav Giemsa
A karyotype is characteristc chromsome in this case human male using Giemsa dye staining. karyogram is image karyotype. Stock Photo
RMD0P1PHA karyotype is characteristc chromsome in this case human male using Giemsa dye staining. karyogram is image karyotype.
Taking a biopsy from a girl from the salivary gland to check for a benign or malignant tumor, cancer, therapy Stock Photo
RF2BG2AFBTaking a biopsy from a girl from the salivary gland to check for a benign or malignant tumor, cancer, therapy
Gustav Giemsa. Photograph, 1931. Stock Photo
RM2H43Y0KGustav Giemsa. Photograph, 1931.
Yersinia Pestis Stock Photo
RMHRH9MMYersinia Pestis
Diagnostic methods, chemical, bacteriological and microscopical : a text-book for students and practitioners . the excess of the dye. The spirochsete appear of a violetcolor. This violet tint may be changed to a bluish-black by covering thespecimen with Grams iodin solution for 15 to 20 seconds, after which it iswashed and dried as usual and the examination made with the immersionlens. The writer has also found the use of the Giemsa stain very reliable,especially when the staining is continued for 18 hours (see Exudates). Otherstains, such as that of Levaditi, have been advocated, but they do Stock Photo
RM2AJ07C1Diagnostic methods, chemical, bacteriological and microscopical : a text-book for students and practitioners . the excess of the dye. The spirochsete appear of a violetcolor. This violet tint may be changed to a bluish-black by covering thespecimen with Grams iodin solution for 15 to 20 seconds, after which it iswashed and dried as usual and the examination made with the immersionlens. The writer has also found the use of the Giemsa stain very reliable,especially when the staining is continued for 18 hours (see Exudates). Otherstains, such as that of Levaditi, have been advocated, but they do
In vitro cultured human primary fibroblasts showing a typical cytopathic effect due to the infection of the cell culture. Stock Photo
RMARCTT1In vitro cultured human primary fibroblasts showing a typical cytopathic effect due to the infection of the cell culture.
Karyotyping abstract concept vector illustration. Stock Vector
RF2X6M3EGKaryotyping abstract concept vector illustration.
This Giemsa-stained light photomicrograph revealed presence of two Trypanosoma brucei parasites, which were found in blood Stock Photo
RME8KT0BThis Giemsa-stained light photomicrograph revealed presence of two Trypanosoma brucei parasites, which were found in blood
The effects of inanition and The effects of inanition and malnutrition upon growth and structure effectsofinaniti00jack Year: 1925 Fig. 63.—Nerve cells from the ventral horn of the spinal cord in fowls (Giemsa blood stain). The nucleus, n, is indicated in each, a, cell from normal animal, showing Nissl bodies; b, c, cells from fowl with polyneuritis (beriberi) after 24 days on polished rice diet. The nucleus has degenerated; the Nissl bodies have disintegrated, and the stainable substance is collected in irregular masses at one side of the cell. (Vedder and Clark '12.) Fig. 64.—A portion of Stock Photo
RMRX89XEThe effects of inanition and The effects of inanition and malnutrition upon growth and structure effectsofinaniti00jack Year: 1925 Fig. 63.—Nerve cells from the ventral horn of the spinal cord in fowls (Giemsa blood stain). The nucleus, n, is indicated in each, a, cell from normal animal, showing Nissl bodies; b, c, cells from fowl with polyneuritis (beriberi) after 24 days on polished rice diet. The nucleus has degenerated; the Nissl bodies have disintegrated, and the stainable substance is collected in irregular masses at one side of the cell. (Vedder and Clark '12.) Fig. 64.—A portion of
stained glass slides of peripheral blood smear with violet leishman giemsa stain in hematology pathology laboratory Stock Photo
RFRRMWDCstained glass slides of peripheral blood smear with violet leishman giemsa stain in hematology pathology laboratory
Light photomicrograph of a rat blood smear showing Trypanosoma lewisi parasites, using a Giemsa stain technique Stock Photo
RMBN3Y2DLight photomicrograph of a rat blood smear showing Trypanosoma lewisi parasites, using a Giemsa stain technique
Iron deficiency anaemia. Computer illustration showing blood of a patient after hemotransfusion. Normal red blood cells are seen together with hypochromic (stain poorly) and microcytic (small) red blood cells. A small lymphocyte is drawn for size comparison. This is the most common form of anaemia worldwide. It is caused by a deficiency of iron, an essential component of the blood pigment haemoglobin. Symptoms include tired- ness, dizziness, and pale skin. Treatment for severe iron deficiency anaemia is transfusion of blood. Stock Photo
RFRDPCE1Iron deficiency anaemia. Computer illustration showing blood of a patient after hemotransfusion. Normal red blood cells are seen together with hypochromic (stain poorly) and microcytic (small) red blood cells. A small lymphocyte is drawn for size comparison. This is the most common form of anaemia worldwide. It is caused by a deficiency of iron, an essential component of the blood pigment haemoglobin. Symptoms include tired- ness, dizziness, and pale skin. Treatment for severe iron deficiency anaemia is transfusion of blood.
Babesia microti and Plasmodium berghei revealed in red blood cells using Giemsa stained, 1972. Image courtesy Centers for Disease Control (CDC) / Dr George Healy. () Stock Photo
RMM1H9DFBabesia microti and Plasmodium berghei revealed in red blood cells using Giemsa stained, 1972. Image courtesy Centers for Disease Control (CDC) / Dr George Healy. ()
Bacteria that cause human infections, illustration Stock Photo
RFRXAWR1Bacteria that cause human infections, illustration
Gustav Giemsa Stock Photo
RMKF24FNGustav Giemsa
Iron deficiency anaemia. Computer illustration showing hypochromic (stain poorly) and microcytic (small) red blood cells. A small lymphocyte is drawn for size comparison. This is the most common form of anaemia worldwide. It is caused by a deficiency of iron, an essential component of the blood pigment haemoglobin. Symptoms include tired- ness, dizziness, and pale skin. Stock Photo
RFRDPCDPIron deficiency anaemia. Computer illustration showing hypochromic (stain poorly) and microcytic (small) red blood cells. A small lymphocyte is drawn for size comparison. This is the most common form of anaemia worldwide. It is caused by a deficiency of iron, an essential component of the blood pigment haemoglobin. Symptoms include tired- ness, dizziness, and pale skin.
. The effects of inanition and malnutrition upon growth and structure . Fig. 63.—Nerve cells from the ventral horn of the spinal cord in fowls (Giemsa blood stain). The nucleus, n, is indicated in each, a, cell from normal animal, showing Nissl bodies; b, c, cells from fowl with polyneuritis (beriberi) after 24 days on polished rice diet. The nucleus has degenerated; the Nissl bodies have disintegrated, and the stainable substance is collected in irregular masses at one side of the cell. (Vedder and Clark '12.) Stock Photo
RMMA72A9. The effects of inanition and malnutrition upon growth and structure . Fig. 63.—Nerve cells from the ventral horn of the spinal cord in fowls (Giemsa blood stain). The nucleus, n, is indicated in each, a, cell from normal animal, showing Nissl bodies; b, c, cells from fowl with polyneuritis (beriberi) after 24 days on polished rice diet. The nucleus has degenerated; the Nissl bodies have disintegrated, and the stainable substance is collected in irregular masses at one side of the cell. (Vedder and Clark '12.)
Anthrax, Bacillus anthracis Bacteria, LM Stock Photo
RMHRJ90BAnthrax, Bacillus anthracis Bacteria, LM
. Medical diagnosis for the student and practitioner. reports an uncultivable spirochete.Causal Agent.—Dermacentroxenus rickettsi is a minute, intracellular,bacterium-like microorganism which does not stain by Grams method andis best demonstrated with the Giemsa stain. It appears usually as lanceo-lates in pairs, about one micron in length. The organism is non-filtrable, isreadily killed by most disinfectants as well as by heat and drying. It isuncultivable. Symptoms.—After an incubation period of from three to ten days, head-ache, nausea, muscular soreness, a chill or chilliness, and nose-ble Stock Photo
RM2AFW4N5. Medical diagnosis for the student and practitioner. reports an uncultivable spirochete.Causal Agent.—Dermacentroxenus rickettsi is a minute, intracellular,bacterium-like microorganism which does not stain by Grams method andis best demonstrated with the Giemsa stain. It appears usually as lanceo-lates in pairs, about one micron in length. The organism is non-filtrable, isreadily killed by most disinfectants as well as by heat and drying. It isuncultivable. Symptoms.—After an incubation period of from three to ten days, head-ache, nausea, muscular soreness, a chill or chilliness, and nose-ble
Karyotyping abstract concept vector illustration. Stock Vector
RF2RHBDC2Karyotyping abstract concept vector illustration.
This Giemsa-stained micrograph shows Trypanosoma cruzi protozoan parasite during its leishmanial stage of development T cruzi, Stock Photo
RME8KT0HThis Giemsa-stained micrograph shows Trypanosoma cruzi protozoan parasite during its leishmanial stage of development T cruzi,
The effects of inanition and The effects of inanition and malnutrition upon growth and structure effectsofinaniti00jack Year: 1925 EFFECTS ON THE SPINAL CORD 20I In pigs placed on a ration of wheat, etc., Hart, Miller and McCollum ('16) obtained nervous symptoms and lesions resembling those of beriberi. The Fig. 63.—Nerve cells from the ventral horn of the spinal cord in fowls (Giemsa blood stain). The nucleus, n, is indicated in each, a, cell from normal animal, showing Nissl bodies; b, c, cells from fowl with polyneuritis (beriberi) after 24 days on polished rice diet. The nucleus has deg Stock Photo
RMRX89XFThe effects of inanition and The effects of inanition and malnutrition upon growth and structure effectsofinaniti00jack Year: 1925 EFFECTS ON THE SPINAL CORD 20I In pigs placed on a ration of wheat, etc., Hart, Miller and McCollum ('16) obtained nervous symptoms and lesions resembling those of beriberi. The Fig. 63.—Nerve cells from the ventral horn of the spinal cord in fowls (Giemsa blood stain). The nucleus, n, is indicated in each, a, cell from normal animal, showing Nissl bodies; b, c, cells from fowl with polyneuritis (beriberi) after 24 days on polished rice diet. The nucleus has deg
A fixed cerebrospinal fluid cytospin showing a Giemsa-Wright stained Naegleria fowleri trophozoite (arrow) amid polymorphonuclear leukocytes. Stock Photo
RM2WWB6Y9A fixed cerebrospinal fluid cytospin showing a Giemsa-Wright stained Naegleria fowleri trophozoite (arrow) amid polymorphonuclear leukocytes.
stained glass slides of peripheral blood smear with violet leishman giemsa stain in hematology pathology laboratory Stock Photo
RFRRMXJDstained glass slides of peripheral blood smear with violet leishman giemsa stain in hematology pathology laboratory
illustration depicting the life cycle of Trypanosoma cruzi the causal agent of American Trypanosomiasis Stock Photo
RMA2H2EYillustration depicting the life cycle of Trypanosoma cruzi the causal agent of American Trypanosomiasis
Babesia microti and Plasmodium berghei revealed in red blood cells using Giemsa stained, 1972. Image courtesy Centers for Disease Control (CDC) / Dr George Healy. () Stock Photo
RMM1H9CMBabesia microti and Plasmodium berghei revealed in red blood cells using Giemsa stained, 1972. Image courtesy Centers for Disease Control (CDC) / Dr George Healy. ()
Under a magnification of 1000X, this Giemsa-stained photomicrograph microfilarial-staged nematodal parasite, Brugia pahangi, 1977. Brugia pahangi is a filarial nematode which can infect its animal hosts, but does not infect humans. Image courtesy CDC/Dr. Mae Melvin. Stock Photo
RMKR113DUnder a magnification of 1000X, this Giemsa-stained photomicrograph microfilarial-staged nematodal parasite, Brugia pahangi, 1977. Brugia pahangi is a filarial nematode which can infect its animal hosts, but does not infect humans. Image courtesy CDC/Dr. Mae Melvin.
Iron deficiency anaemia. Computer illustration showing blood of a patient after hemotransfusion. Normal red blood cells are seen together with hypochromic (stain poorly) and microcytic (small) red blood cells. A small lymphocyte is drawn for size comparison. This is the most common form of anaemia worldwide. It is caused by a deficiency of iron, an essential component of the blood pigment haemoglobin. Symptoms include tired- ness, dizziness, and pale skin. Treatment for severe iron deficiency anaemia is transfusion of blood. Stock Photo
RFRDPCDYIron deficiency anaemia. Computer illustration showing blood of a patient after hemotransfusion. Normal red blood cells are seen together with hypochromic (stain poorly) and microcytic (small) red blood cells. A small lymphocyte is drawn for size comparison. This is the most common form of anaemia worldwide. It is caused by a deficiency of iron, an essential component of the blood pigment haemoglobin. Symptoms include tired- ness, dizziness, and pale skin. Treatment for severe iron deficiency anaemia is transfusion of blood.
This thin film Giemsa stained micrograph depicts a Plasmodium vivax microgametocyte. The gametocytes, male (microgametocytes) and female (macrogametocytes), are ingested by an Anopheles mosquito during its blood meal. The parasites? multiplication in the mosquito is known as the sporogonic cycle. Image courtesy CDC/Dr. Melvin, Steven Glenn, Laboratory Training and Consultation Division, 1973. Stock Photo
RMK1F86HThis thin film Giemsa stained micrograph depicts a Plasmodium vivax microgametocyte. The gametocytes, male (microgametocytes) and female (macrogametocytes), are ingested by an Anopheles mosquito during its blood meal. The parasites? multiplication in the mosquito is known as the sporogonic cycle. Image courtesy CDC/Dr. Melvin, Steven Glenn, Laboratory Training and Consultation Division, 1973.
This is a micrograph of Trypanosoma cruzi in a blood smear using Giemsa staining technique, 1977. This protozoan parasite, T. cruzi, is the causative agent for Chagas disease, also known as ?. American trypanosomiasis?. It is estimated that 16 - 18 million people are infected with Chagas disease, and of those infected, 50, 000 will die each year. Image courtesy CDC/Dr. Mae Melvin. Stock Photo
RMKR115WThis is a micrograph of Trypanosoma cruzi in a blood smear using Giemsa staining technique, 1977. This protozoan parasite, T. cruzi, is the causative agent for Chagas disease, also known as ?. American trypanosomiasis?. It is estimated that 16 - 18 million people are infected with Chagas disease, and of those infected, 50, 000 will die each year. Image courtesy CDC/Dr. Mae Melvin.
Essentials of bacteriology; being a concise and systematic introduction to the study of bacteria and allied microörganisms . d methods have been introduced by different investigators.The Giemsa stain issaid to give the bestresults. (See StainingFluids, p. 47.) The slide is fixed,dried in air, hardenedin absolute alcoholtwenty - five minutes,stained with dilutestain (i drop to i c.c.of water) for ten min-utes, washed in water,and mounted. In tissues the organ-ism can be shown byfixing with silver ni-trate after the mannerof Ramon y Cajal. Thetissue is—(i) Hardened in formalin for twenty-four h Stock Photo
RM2AWTN5MEssentials of bacteriology; being a concise and systematic introduction to the study of bacteria and allied microörganisms . d methods have been introduced by different investigators.The Giemsa stain issaid to give the bestresults. (See StainingFluids, p. 47.) The slide is fixed,dried in air, hardenedin absolute alcoholtwenty - five minutes,stained with dilutestain (i drop to i c.c.of water) for ten min-utes, washed in water,and mounted. In tissues the organ-ism can be shown byfixing with silver ni-trate after the mannerof Ramon y Cajal. Thetissue is—(i) Hardened in formalin for twenty-four h
stained glass slides of peripheral blood smear with violet leishman giemsa stain in hematology pathology laboratory Stock Photo
RFRRMWDHstained glass slides of peripheral blood smear with violet leishman giemsa stain in hematology pathology laboratory
Iron deficiency anaemia. Computer illustration showing blood of a patient after hemotransfusion. Normal red blood cells are seen together with hypochromic (stain poorly) and microcytic (small) red blood cells. A small lymphocyte is drawn for size comparison. This is the most common form of anaemia worldwide. It is caused by a deficiency of iron, an essential component of the blood pigment haemoglobin. Symptoms include tired- ness, dizziness, and pale skin. Treatment for severe iron deficiency anaemia is transfusion of blood. Stock Photo
RFRDPCDXIron deficiency anaemia. Computer illustration showing blood of a patient after hemotransfusion. Normal red blood cells are seen together with hypochromic (stain poorly) and microcytic (small) red blood cells. A small lymphocyte is drawn for size comparison. This is the most common form of anaemia worldwide. It is caused by a deficiency of iron, an essential component of the blood pigment haemoglobin. Symptoms include tired- ness, dizziness, and pale skin. Treatment for severe iron deficiency anaemia is transfusion of blood.
Under a magnification of 1000X, this is a micrograph revealing Trypanosoma cruzi parasites in a blood smear using Giemsa staining technique, 1977. This protozoan parasite, T. cruzi, is the causative agent for Chagas disease, also known as ?. American trypanosomiasis?. It is estimated that 16 - 18 million people are infected with Chagas disease, and of those infected, 50, 000 will die each year. Image courtesy CDC/Dr. Mae Melvin. Stock Photo
RMKR1157Under a magnification of 1000X, this is a micrograph revealing Trypanosoma cruzi parasites in a blood smear using Giemsa staining technique, 1977. This protozoan parasite, T. cruzi, is the causative agent for Chagas disease, also known as ?. American trypanosomiasis?. It is estimated that 16 - 18 million people are infected with Chagas disease, and of those infected, 50, 000 will die each year. Image courtesy CDC/Dr. Mae Melvin.
Trichomonas vaginalis revealed in the micrograph film using Giemsa-stain, 1986. Image courtesy Centers for Disease Control (CDC). () Stock Photo
RMM1HE91Trichomonas vaginalis revealed in the micrograph film using Giemsa-stain, 1986. Image courtesy Centers for Disease Control (CDC). ()
Collected papers . at a magnification of 2400.] Fig. 1.—Large Herpetomonas from stomach of Homalomyiacanicularis. Osmic vapoin-, Giemsa. Fig. 2.—Leptomonas from intestine of H. canicularis, showingdistinct blepharoplast. Flemm.-Fe. hajm. Figs. 3 and 4.—Leptomonas from intestine of H. canicularis,showing varying positions of the kinetonucleus. Schaud-Fe. ha3m. LIFE-HISTORY OF LEPTOMONAS MUSC.E DOMESTICS. 655 Figs. 5-10.—Leptomonas from intestine of H. canicularis ; Tarionsstages in division. Flenim.-Fe. hajm. Figs. 11-14.—Leptomonas from intestine of H. caniciilaris;trypaniform individuals, Sch Stock Photo
RM2AKJEJECollected papers . at a magnification of 2400.] Fig. 1.—Large Herpetomonas from stomach of Homalomyiacanicularis. Osmic vapoin-, Giemsa. Fig. 2.—Leptomonas from intestine of H. canicularis, showingdistinct blepharoplast. Flemm.-Fe. hajm. Figs. 3 and 4.—Leptomonas from intestine of H. canicularis,showing varying positions of the kinetonucleus. Schaud-Fe. ha3m. LIFE-HISTORY OF LEPTOMONAS MUSC.E DOMESTICS. 655 Figs. 5-10.—Leptomonas from intestine of H. canicularis ; Tarionsstages in division. Flenim.-Fe. hajm. Figs. 11-14.—Leptomonas from intestine of H. caniciilaris;trypaniform individuals, Sch
Photomicrograph of Giemsa stained lung tissue from a patient with fatal human plague, revealing pneumonia, and an abundance of Y. pestis organisms. Image courtesy CDC. 1990. Stock Photo
RMK1F3HKPhotomicrograph of Giemsa stained lung tissue from a patient with fatal human plague, revealing pneumonia, and an abundance of Y. pestis organisms. Image courtesy CDC. 1990.
Plasmodium ovale schizont revealed in the photomicrograph film using Giemsa stained method, 1979. Image courtesy Centers for Disease Control (CDC) / Dr Mae Melvin. () Stock Photo
RMMF18W2Plasmodium ovale schizont revealed in the photomicrograph film using Giemsa stained method, 1979. Image courtesy Centers for Disease Control (CDC) / Dr Mae Melvin. ()
stained glass slides of peripheral blood smear with violet leishman giemsa stain in hematology pathology laboratory Stock Photo
RFRRMWRNstained glass slides of peripheral blood smear with violet leishman giemsa stain in hematology pathology laboratory
Babesia microti and Plasmodium berghei revealed in red blood cells using Giemsa stained, 1972. Image courtesy Centers for Disease Control (CDC) / Dr George Healy. () Stock Photo
RMM1H9D5Babesia microti and Plasmodium berghei revealed in red blood cells using Giemsa stained, 1972. Image courtesy Centers for Disease Control (CDC) / Dr George Healy. ()
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
RMMF18WAWhite 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. ()
Babesia microti and Plasmodium berghei revealed in red blood cells using Giemsa stained, 1972. Image courtesy Centers for Disease Control (CDC) / Dr George Healy. Note: Image has been digitally colorized using a modern process. Colors may not be period-accurate. () Stock Photo
RMMEYD39Babesia microti and Plasmodium berghei revealed in red blood cells using Giemsa stained, 1972. Image courtesy Centers for Disease Control (CDC) / Dr George Healy. Note: Image has been digitally colorized using a modern process. Colors may not be period-accurate. ()
This micrograph demonstrates a clustering of Dermatophilus congolensis bacteria using a Giemsa stain, 1973. D. congolensis is a motile, nonacid-fast, facultatively anaerobic, gram-positive bacteria, the etiologic agent of Dermatophilosis, a dermatologic condition that manifests itself with the formation of crusty scabs that contain the organism. Image courtesy CDC. Stock Photo
RMKR120RThis micrograph demonstrates a clustering of Dermatophilus congolensis bacteria using a Giemsa stain, 1973. D. congolensis is a motile, nonacid-fast, facultatively anaerobic, gram-positive bacteria, the etiologic agent of Dermatophilosis, a dermatologic condition that manifests itself with the formation of crusty scabs that contain the organism. Image courtesy CDC.
Under a magnification of 1000X, this is a photomicrograph revealed morphologic details at the anterior end of a Wuchereria bancrofti microfilarial parasite in a blood smear using Giemsa stain, 1977. W. bancrofti, the most common filarial parasite in humans, is one of the causative agents for lymphatic filariasis. Lymphatic filariasis affects an estimated 120 million people in tropical areas of the world. Image courtesy CDC/Dr. Mae Melvin. Stock Photo
RMKR1176Under a magnification of 1000X, this is a photomicrograph revealed morphologic details at the anterior end of a Wuchereria bancrofti microfilarial parasite in a blood smear using Giemsa stain, 1977. W. bancrofti, the most common filarial parasite in humans, is one of the causative agents for lymphatic filariasis. Lymphatic filariasis affects an estimated 120 million people in tropical areas of the world. Image courtesy CDC/Dr. Mae Melvin.
Plasmodium vivax revealed in thick micrograph film using Giemsa stain, 1971. Image courtesy Centers for Disease Control (CDC) / Dr Mae Melvin. () Stock Photo
RMM1HCN3Plasmodium vivax revealed in thick micrograph film using Giemsa stain, 1971. Image courtesy Centers for Disease Control (CDC) / Dr Mae Melvin. ()
Giemsa stain photomicrograph of an old immature Plasmodium malariae schizont, 1973. Image courtesy Centers for Disease Control and Prevention (CDC) / Dr Mae Melvin. () Stock Photo
RMT6972BGiemsa stain photomicrograph of an old immature Plasmodium malariae schizont, 1973. Image courtesy Centers for Disease Control and Prevention (CDC) / Dr Mae Melvin. ()
Collected papers . ; andfigs. 27-31, 40-42 from owl 23. (Figs. 14-31 are from preparations stained by Giemsa.) Figs. 14 and 15.—Small spindles. Fig. 16.—Small spindle, just commencing division; there are twokinetonuclei, and apparently the karyosome in the trophonucleus hasalso divided. Figs. 17-19.—Intermediate stages in the growth of the medium-sizedslender type. Figs. 20 and 21.—Fully developed medium-sized forms. Figs. 22 and 24.—Massive blue forms. Fig. 23.—Small individual of the same type. Figs. 25, 26, and 28.—Stout spindles. Fig. 27.—Transitional form from small fusiform type to stout Stock Photo
RM2AKJ82KCollected papers . ; andfigs. 27-31, 40-42 from owl 23. (Figs. 14-31 are from preparations stained by Giemsa.) Figs. 14 and 15.—Small spindles. Fig. 16.—Small spindle, just commencing division; there are twokinetonuclei, and apparently the karyosome in the trophonucleus hasalso divided. Figs. 17-19.—Intermediate stages in the growth of the medium-sizedslender type. Figs. 20 and 21.—Fully developed medium-sized forms. Figs. 22 and 24.—Massive blue forms. Fig. 23.—Small individual of the same type. Figs. 25, 26, and 28.—Stout spindles. Fig. 27.—Transitional form from small fusiform type to stout
Giemsa stain photomicrograph of a compact Plasmodium malariae trophozoite, 1973. Image courtesy Centers for Disease Control and Prevention (CDC) / Dr Mae Melvin. () Stock Photo
RMT697D4Giemsa stain photomicrograph of a compact Plasmodium malariae trophozoite, 1973. Image courtesy Centers for Disease Control and Prevention (CDC) / Dr Mae Melvin. ()
Annales de l'Institut Pasteur . ; ils donnent unesérie de noyaux secondaires qui constitueront les noyaux desarticles de nouvelle formation. Le mécanisme ordinaire de cettedivision est représenté dans les articles de droite de lélément b(allongement en haltères et séparation des deux masses).;nit que les articles aient atteint toute leur longueur, deminces cloisons apparaissent dans lépaisseur du bacille ; on les BACILLUS HOPLOSTEMUS (PAILLOT) 405 distingue nettement après coloration au Giemsa, ou colorationvitale au bleu de (méthylène. Les cloisons de séparation desarticles semblent avoir p Stock Photo
RM2AXG8EWAnnales de l'Institut Pasteur . ; ils donnent unesérie de noyaux secondaires qui constitueront les noyaux desarticles de nouvelle formation. Le mécanisme ordinaire de cettedivision est représenté dans les articles de droite de lélément b(allongement en haltères et séparation des deux masses).;nit que les articles aient atteint toute leur longueur, deminces cloisons apparaissent dans lépaisseur du bacille ; on les BACILLUS HOPLOSTEMUS (PAILLOT) 405 distingue nettement après coloration au Giemsa, ou colorationvitale au bleu de (méthylène. Les cloisons de séparation desarticles semblent avoir p
Giemsa stain thin film photomicrograph of a Plasmodium malariae ring, 1971. Image courtesy Centers for Disease Control and Prevention (CDC) / Dr Mae Melvin. () Stock Photo
RMT697CXGiemsa stain thin film photomicrograph of a Plasmodium malariae ring, 1971. Image courtesy Centers for Disease Control and Prevention (CDC) / Dr Mae Melvin. ()
Boletim da Sociedade Portuguesa de Ciias Naturais . ment lutées O Fig. 1 à la paraffine, nous avons rencontré, 4 jours après, au lieudu Trypanosoma costatum, une énorme quantité de formesherpétomoniques et spirochaetiques. Ce fait était dautant plus curieux quil nexistait, chezcette Grenouille, aucun parasite endocellulaire. Ces herpétomones, qui présentaient une vive mobilité, ontun noyau relativement gros, se colorant facilement par laméthode de Giemsa et, en avant de celui-ci, un blépharo-plaste allongé transversalement, duquel se détache un flagelletrès net, relativement court (fig. 1). Ja Stock Photo
RM2AJEMH5Boletim da Sociedade Portuguesa de Ciias Naturais . ment lutées O Fig. 1 à la paraffine, nous avons rencontré, 4 jours après, au lieudu Trypanosoma costatum, une énorme quantité de formesherpétomoniques et spirochaetiques. Ce fait était dautant plus curieux quil nexistait, chezcette Grenouille, aucun parasite endocellulaire. Ces herpétomones, qui présentaient une vive mobilité, ontun noyau relativement gros, se colorant facilement par laméthode de Giemsa et, en avant de celui-ci, un blépharo-plaste allongé transversalement, duquel se détache un flagelletrès net, relativement court (fig. 1). Ja
Plasmodium vivax schizont revealed in thick micrograph film using Giemsa stain, 1971. Image courtesy Centers for Disease Control (CDC) / Dr Mae Melvin. () Stock Photo
RMM1HCEHPlasmodium vivax schizont revealed in thick micrograph film using Giemsa stain, 1971. Image courtesy Centers for Disease Control (CDC) / Dr Mae Melvin. ()
Giemsa stain thick film photomicrograph of a Plasmodium malariae gametocyte, 1969. Image courtesy Centers for Disease Control and Prevention (CDC) / Dr Mae Melvin. () Stock Photo
RMT69729Giemsa stain thick film photomicrograph of a Plasmodium malariae gametocyte, 1969. Image courtesy Centers for Disease Control and Prevention (CDC) / Dr Mae Melvin. ()
Giemsa stain thin film photomicrograph of an immature Plasmodium malariae schizont, 1971. Image courtesy Centers for Disease Control and Prevention (CDC) / Dr Mae Melvin. () Stock Photo
RMT6972GGiemsa stain thin film photomicrograph of an immature Plasmodium malariae schizont, 1971. Image courtesy Centers for Disease Control and Prevention (CDC) / Dr Mae Melvin. ()
Malaria parasite revealed in a debris of red blood cell using Giemsa stain, 1967. Image courtesy Centers for Disease Control (CDC) / Dr Mae Melvin. () Stock Photo
RMM1HEW1Malaria parasite revealed in a debris of red blood cell using Giemsa stain, 1967. Image courtesy Centers for Disease Control (CDC) / Dr Mae Melvin. ()
Giemsa stain thick film photomicrograph of a growing Plasmodium malariae trophozoite, 1973. Image courtesy Centers for Disease Control and Prevention (CDC) / Dr Mae Melvin. () Stock Photo
RMT697DEGiemsa stain thick film photomicrograph of a growing Plasmodium malariae trophozoite, 1973. Image courtesy Centers for Disease Control and Prevention (CDC) / Dr Mae Melvin. ()
Annales de l'Institut Pasteur . oins leur localisation, auxstades antérieurs de la vie des Glossines. pIG, h. Levures symbiotiques de Gl.., pal palis sur frottis. iNATURE DES ZONES DE RÉGÉNÉRATION. Les Fix. osmique; color. LEVURES SYMBIOTIQUES CHEZ LES GLOSSINES Giemsa. — Gr. 1100. adultes (1). — Stuhlmann, qui a parfaite-ment décrit et figuré les corps bactéroïdes observés par luidans les cellules de ces zones de régénération, ne sest pas pro-noncé avec précision sur leur véritable nature. 11 les tient, ilest vrai, pour des organismes spéciaux, mais il tend à lesconsidérer comme des protozo Stock Photo
RM2AXG6R4Annales de l'Institut Pasteur . oins leur localisation, auxstades antérieurs de la vie des Glossines. pIG, h. Levures symbiotiques de Gl.., pal palis sur frottis. iNATURE DES ZONES DE RÉGÉNÉRATION. Les Fix. osmique; color. LEVURES SYMBIOTIQUES CHEZ LES GLOSSINES Giemsa. — Gr. 1100. adultes (1). — Stuhlmann, qui a parfaite-ment décrit et figuré les corps bactéroïdes observés par luidans les cellules de ces zones de régénération, ne sest pas pro-noncé avec précision sur leur véritable nature. 11 les tient, ilest vrai, pour des organismes spéciaux, mais il tend à lesconsidérer comme des protozo
Plasmodium vivax trophozoite revealed in a thick photomicrograph film, using Giemsa stain, 1973. Image courtesy Centers for Disease Control (CDC) / Dr Mae Melvin. () Stock Photo
RMM1HCBBPlasmodium vivax trophozoite revealed in a thick photomicrograph film, using Giemsa stain, 1973. Image courtesy Centers for Disease Control (CDC) / Dr Mae Melvin. ()
Giemsa stain thin film photomicrograph of a mature Plasmodium malariae trophozoite, 1971. Image courtesy Centers for Disease Control and Prevention (CDC) / Dr Mae Melvin. () Stock Photo
RMT6972EGiemsa stain thin film photomicrograph of a mature Plasmodium malariae trophozoite, 1971. Image courtesy Centers for Disease Control and Prevention (CDC) / Dr Mae Melvin. ()
Traité pratique de bactériologie . ode de Giemsa ou même à la thionine phéni-quée. On les observe facilement dans le sang, où ils se montrent trèsmobiles. La maladie se communique très facilement aux chauves-souris parinoculation intrapéritonéale de sang virulent; une première atteinteguérie rend lanimal réfractaire. Les singes et les souris blanches ne sont pas sensibles aux inocula-tions. SPIRILLUM REFRINGENS Schaudinn. Il a été trouvé par Schaudinn et Hoffmann {2) dans de la sérosité depapules syphilitiques, à côtédexemplaires typiques de Spi-rille pâle, dont il se distinguefacilement par s Stock Photo
RM2AM582GTraité pratique de bactériologie . ode de Giemsa ou même à la thionine phéni-quée. On les observe facilement dans le sang, où ils se montrent trèsmobiles. La maladie se communique très facilement aux chauves-souris parinoculation intrapéritonéale de sang virulent; une première atteinteguérie rend lanimal réfractaire. Les singes et les souris blanches ne sont pas sensibles aux inocula-tions. SPIRILLUM REFRINGENS Schaudinn. Il a été trouvé par Schaudinn et Hoffmann {2) dans de la sérosité depapules syphilitiques, à côtédexemplaires typiques de Spi-rille pâle, dont il se distinguefacilement par s
Giemsa stain thin film photomicrograph of an old growing Plasmodium malariae trophozoite, 1971. Image courtesy Centers for Disease Control and Prevention (CDC) / Dr Mae Melvin. () Stock Photo
RMT6972AGiemsa stain thin film photomicrograph of an old growing Plasmodium malariae trophozoite, 1971. Image courtesy Centers for Disease Control and Prevention (CDC) / Dr Mae Melvin. ()
Annales de l'Institut Pasteur . io -3o 3o to Fio. 5. — Eléments du sang de chenilles de Lymantria dispar.Coloration : Giemsa dilué. trouve des intermédiaires : a, jusquà 5|a de diamètre; a,, 1 h 8jj. de dia-mètre; a„, 10 (x et plus de diamètre. Type b. — Noyau relativement petit; couche protoplasmique plus ou moinsépaisse mais peu dense et vacuolaire, colorable en bleu pâle par le Giemsa.Quelquefois, les éléments se présentent sans contour net et le protoplasme,à peine visible, semble diffuser dans le milieu. Dans le sang de certaineschenilles on les rencontre en assez grande abondance, ils se Stock Photo
RM2AXG828Annales de l'Institut Pasteur . io -3o 3o to Fio. 5. — Eléments du sang de chenilles de Lymantria dispar.Coloration : Giemsa dilué. trouve des intermédiaires : a, jusquà 5|a de diamètre; a,, 1 h 8jj. de dia-mètre; a„, 10 (x et plus de diamètre. Type b. — Noyau relativement petit; couche protoplasmique plus ou moinsépaisse mais peu dense et vacuolaire, colorable en bleu pâle par le Giemsa.Quelquefois, les éléments se présentent sans contour net et le protoplasme,à peine visible, semble diffuser dans le milieu. Dans le sang de certaineschenilles on les rencontre en assez grande abondance, ils se
Giemsa stain thin film photomicrograph of a mature Plasmodium malariae schizonts, 1971. Image courtesy Centers for Disease Control and Prevention (CDC) / Dr Mae Melvin. () Stock Photo
RMT697CRGiemsa stain thin film photomicrograph of a mature Plasmodium malariae schizonts, 1971. Image courtesy Centers for Disease Control and Prevention (CDC) / Dr Mae Melvin. ()
. The bacteriology of the eye. tisparenchymatosa, with Spirochceta (according to Giemsa and Levaditi). resulted. On severaloccasions gummatous or condylomatous changes were developed in the iris. 2 Berlin. Kliu. Woch., 1907, p. 75. SYPHILIS OF THE EYE 359 a considerableexamined. In generation, it is possible that they, like the Trypanosoma, will notshow their usual form in many of their stages. Spirochceta are scanty in the Giemsa preparationsnumber of them must therefore be stained andsuperficial processes, accordingto Schaudinn, another Spiro-chata is occasionally found, theSpiroclncta perfr Stock Photo
RM2CEKYN9. The bacteriology of the eye. tisparenchymatosa, with Spirochceta (according to Giemsa and Levaditi). resulted. On severaloccasions gummatous or condylomatous changes were developed in the iris. 2 Berlin. Kliu. Woch., 1907, p. 75. SYPHILIS OF THE EYE 359 a considerableexamined. In generation, it is possible that they, like the Trypanosoma, will notshow their usual form in many of their stages. Spirochceta are scanty in the Giemsa preparationsnumber of them must therefore be stained andsuperficial processes, accordingto Schaudinn, another Spiro-chata is occasionally found, theSpiroclncta perfr
Giemsa stain thin film photomicrograph of a mature Plasmodium malariae schizont, 1971. Image courtesy Centers for Disease Control and Prevention (CDC) / Dr Mae Melvin. () Stock Photo
RMT697CHGiemsa stain thin film photomicrograph of a mature Plasmodium malariae schizont, 1971. Image courtesy Centers for Disease Control and Prevention (CDC) / Dr Mae Melvin. ()
20 merozoites of Plasmodium vivax schizont revealed in thick micrograph film using Giemsa stain, 1977. Image courtesy Centers for Disease Control (CDC) / Dr Mae Melvin. () Stock Photo
RMM1HCDA20 merozoites of Plasmodium vivax schizont revealed in thick micrograph film using Giemsa stain, 1977. Image courtesy Centers for Disease Control (CDC) / Dr Mae Melvin. ()
Giemsa stain thick film photomicrograph of a Plasmodium vivax rings and an old trophozoite, 1971. Image courtesy Centers for Disease Control and Prevention (CDC) / Dr Mae Melvin. () Stock Photo
RMT6972DGiemsa stain thick film photomicrograph of a Plasmodium vivax rings and an old trophozoite, 1971. Image courtesy Centers for Disease Control and Prevention (CDC) / Dr Mae Melvin. ()
Giemsa stain photomicrograph of a Plasmodium malariae trophozoite within a small RBC, 1973. Image courtesy Centers for Disease Control and Prevention (CDC) / Dr Mae Melvin. () Stock Photo
RMT6972JGiemsa stain photomicrograph of a Plasmodium malariae trophozoite within a small RBC, 1973. Image courtesy Centers for Disease Control and Prevention (CDC) / Dr Mae Melvin. ()
Photomicrograph of a compact, growing Plasmodium vivax trophozoite, a malaria causing parasite, present on a blood smear with Giemsa stain, magnified 1250x, 1970. Image courtesy CDC. () Stock Photo
RMM1HCTXPhotomicrograph of a compact, growing Plasmodium vivax trophozoite, a malaria causing parasite, present on a blood smear with Giemsa stain, magnified 1250x, 1970. Image courtesy CDC. ()
. Annals of surgery . MULTIPLE MYELOMA OF THE PLASMA-CELL TYPE round nuclei was somewhat condensed at the periphery, but coarse, irregular, chro-matic clumps were scattered through the nuclear body. A few cells containedtwo nuclei. The cellular cytoplasm was slightly cloudy but almost smooth andgenerally basophilic; with methylene blue-eosin and with Giemsa stain, many cellswere shown to possess neutrophilic and a few. eosinophilic cytoplasm. In short,the tumor elements somewhat resembled plasma cells. There were, however,certain differences. None of the tumor cells had the pale perinuclear ha Stock Photo
RM2CDYBJB. Annals of surgery . MULTIPLE MYELOMA OF THE PLASMA-CELL TYPE round nuclei was somewhat condensed at the periphery, but coarse, irregular, chro-matic clumps were scattered through the nuclear body. A few cells containedtwo nuclei. The cellular cytoplasm was slightly cloudy but almost smooth andgenerally basophilic; with methylene blue-eosin and with Giemsa stain, many cellswere shown to possess neutrophilic and a few. eosinophilic cytoplasm. In short,the tumor elements somewhat resembled plasma cells. There were, however,certain differences. None of the tumor cells had the pale perinuclear ha
Malarial schizont clump of platelets revealed in a blood smear micrograph film using Giemsa stain, 1977. Image courtesy Centers for Disease Control (CDC) / Dr Mae Melvin. () Stock Photo
RMM1H9GAMalarial schizont clump of platelets revealed in a blood smear micrograph film using Giemsa stain, 1977. Image courtesy Centers for Disease Control (CDC) / Dr Mae Melvin. ()
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
RMM1HEYWPhotomicrograph 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 of the malaria parasite Plasmodium malariae in mature trophozoite stage, on a thin blood smear with Giemsa stain, magnified 1125x, 1973. Image courtesy CDC/Dr. Mae Melvin. () Stock Photo
RMM1HF0TPhotomicrograph of the malaria parasite Plasmodium malariae in mature trophozoite stage, on a thin blood smear with Giemsa stain, magnified 1125x, 1973. Image courtesy CDC/Dr. Mae Melvin. ()
. Rapport de la mission d'études de la maladie du sommeil au Congo français 1906-1908. FIg. 128. — Trypanosoiiip du nioiiloii Hitoii. Tr. longolense. (ir. H80 cnv. Dans le sang circulant qui présentait fort nettement le phénomène de lauto-agglutination, nous avons trouvé des trypanosomés assez nombreux. La plupart dutemps les parasites restaient sur place et leurs mouvements consistaient en une sortede vibration ; ils ne se déplaçaient que très rarement et seulement de cinq ou sixfois leur longueur. Le trypanosome se colore vivement par le Giemsa ; le protoplasma prend uneteinte bleue violac Stock Photo
RM2CF09G8. Rapport de la mission d'études de la maladie du sommeil au Congo français 1906-1908. FIg. 128. — Trypanosoiiip du nioiiloii Hitoii. Tr. longolense. (ir. H80 cnv. Dans le sang circulant qui présentait fort nettement le phénomène de lauto-agglutination, nous avons trouvé des trypanosomés assez nombreux. La plupart dutemps les parasites restaient sur place et leurs mouvements consistaient en une sortede vibration ; ils ne se déplaçaient que très rarement et seulement de cinq ou sixfois leur longueur. Le trypanosome se colore vivement par le Giemsa ; le protoplasma prend uneteinte bleue violac
Photomicrograph of the malaria parasite Plasmodium Malaria in trophozoite form, on a thick blood smear using Giemsa stain, magnified 1125 x, 1973. Image courtesy CDC/Dr. Mae Melvin. () Stock Photo
RMM1HF0APhotomicrograph of the malaria parasite Plasmodium Malaria in trophozoite form, on a thick blood smear using Giemsa stain, magnified 1125 x, 1973. Image courtesy CDC/Dr. Mae Melvin. ()
. Rapport de la mission d'études de la maladie du sommeil au Congo français 1906-1908. laçant dans le champ du microscope avec la plus grande rapidité. Colorées par le Giemsa les parties constituantes de ce parasite présentent lesaspects suivants : Le protoplasme prend une teinte violacée tirant très légèrement sur le rouge, on y 670 LA MALADIK DU SOMMEIL AU COiSOO FRANÇAIS remarque assez souvent un très fin pointill( de jïraniilotions un peu plus sombres quele fond sur lequel elles se détachent. Le centrosome, très net, et le flagelle se colorent en uni teinte rouge violacée, maistirant bea Stock Photo
RM2CF09HT. Rapport de la mission d'études de la maladie du sommeil au Congo français 1906-1908. laçant dans le champ du microscope avec la plus grande rapidité. Colorées par le Giemsa les parties constituantes de ce parasite présentent lesaspects suivants : Le protoplasme prend une teinte violacée tirant très légèrement sur le rouge, on y 670 LA MALADIK DU SOMMEIL AU COiSOO FRANÇAIS remarque assez souvent un très fin pointill( de jïraniilotions un peu plus sombres quele fond sur lequel elles se détachent. Le centrosome, très net, et le flagelle se colorent en uni teinte rouge violacée, maistirant bea
Photomicrograph of the malaria parasite Plasmodium vivax in 'tennis racket' shaped ring form, on Giemsa stained thin film, magnified 1125 x, 1973. Image courtesy CDC/Dr. Mae Melvin. () Stock Photo
RMM1HD3MPhotomicrograph of the malaria parasite Plasmodium vivax in 'tennis racket' shaped ring form, on Giemsa stained thin film, magnified 1125 x, 1973. Image courtesy CDC/Dr. Mae Melvin. ()
Photomicrograph of a blood sample with malaria causing parasite P. vivax in an immature stage, schizont with 8 chromatin masses, with Giemsa stain, magnified 1000x, 1977. Image courtesy CDC/Dr. Mae Melvin. () Stock Photo
RMM1HCRYPhotomicrograph of a blood sample with malaria causing parasite P. vivax in an immature stage, schizont with 8 chromatin masses, with Giemsa stain, magnified 1000x, 1977. Image courtesy CDC/Dr. Mae Melvin. ()
Photomicrograph of the malaria parasite Plasmodium vivax in ring form without Schuffner's dots, on Giemsa stained thin film, magnified 1125 x, 1973. Image courtesy CDC/Dr. Mae Melvin. () Stock Photo
RMM1HD3WPhotomicrograph of the malaria parasite Plasmodium vivax in ring form without Schuffner's dots, on Giemsa stained thin film, magnified 1125 x, 1973. Image courtesy CDC/Dr. Mae Melvin. ()
. A text-book upon the pathogenic Bacteria and Protozoa for students of medicine and physicians. Bacteriology; Pathogenic bacteria; Protozoa. P'ig. 214.—Photomicrograph of an eosin-methylene-blue-stained section;- 1000 diameters. Shows tr3T)anosomes about a small vessel of the cortex of the brain (Wolbach and Binger, in "Jour, of Med. Research"). histological examination of the nervous tissues, on the contrary, shows that in both the brain and spinal cord there is proliferation and overgrowth of neuroglia cells, especially those connected with. Fig. 215.—Photomicrograph of a Giemsa-s Stock Photo
RMRE1C69. A text-book upon the pathogenic Bacteria and Protozoa for students of medicine and physicians. Bacteriology; Pathogenic bacteria; Protozoa. P'ig. 214.—Photomicrograph of an eosin-methylene-blue-stained section;- 1000 diameters. Shows tr3T)anosomes about a small vessel of the cortex of the brain (Wolbach and Binger, in "Jour, of Med. Research"). histological examination of the nervous tissues, on the contrary, shows that in both the brain and spinal cord there is proliferation and overgrowth of neuroglia cells, especially those connected with. Fig. 215.—Photomicrograph of a Giemsa-s
Photomicrograph of a blood smear with two ring forms of the parasite Plasmodium falciparum which causes malaria, magnified 1125X, on a slide with Giemsa stain, 1973. Image courtesy CDC/Dr. Mae Melvin. () Stock Photo
RMM1HAEEPhotomicrograph of a blood smear with two ring forms of the parasite Plasmodium falciparum which causes malaria, magnified 1125X, on a slide with Giemsa stain, 1973. Image courtesy CDC/Dr. Mae Melvin. ()
Photomicrograph of the malaria causing parasite Plasmodium vivax in its mature trophozoite phase, on a thick film blood smear with Giemsa stain, magnified 1125 x, 1971. Image courtesy CDC/Dr. Mae Melvin. () Stock Photo
RMM1HCTKPhotomicrograph of the malaria causing parasite Plasmodium vivax in its mature trophozoite phase, on a thick film blood smear with Giemsa stain, magnified 1125 x, 1971. Image courtesy CDC/Dr. Mae Melvin. ()
Photomicrograph of the malaria parasite Plasmodium vivax in ring phase with chromatin mass in its center, on Giemsa stained thin film, magnified 1125 x, 1973. Image courtesy CDC/Dr. Mae Melvin. () Stock Photo
RMM1HD3BPhotomicrograph of the malaria parasite Plasmodium vivax in ring phase with chromatin mass in its center, on Giemsa stained thin film, magnified 1125 x, 1973. Image courtesy CDC/Dr. Mae Melvin. ()
Photomicrograph of the malaria causing parasite Plasmodium vivax, in ring and young trophozoite forms, on a thick film blood smear with Giemsa stain, magnified 1125x, 1971. Image courtesy CDC/Dr. Mae Melvin. () Stock Photo
RMM1HCP9Photomicrograph of the malaria causing parasite Plasmodium vivax, in ring and young trophozoite forms, on a thick film blood smear with Giemsa stain, magnified 1125x, 1971. Image courtesy CDC/Dr. Mae Melvin. ()
Photomicrograph of the malaria parasite Plasmodium vivax in its ring stage, with basophilic stippling in the red blood cell, on Giemsa stained thin film, magnified 1125 x, 1973. Image courtesy CDC/Dr. Mae Melvin. () Stock Photo
RMM1HD3YPhotomicrograph of the malaria parasite Plasmodium vivax in its ring stage, with basophilic stippling in the red blood cell, on Giemsa stained thin film, magnified 1125 x, 1973. Image courtesy CDC/Dr. Mae Melvin. ()
Photomicrograph of a malaria causing parasite, Plasmodium vivax, in immature forms schizont, rings and growing trophozoites, in a Giemsa stained blood smear, magnified 1125x, 1971. Image courtesy CDC/Dr. Mae Melvin. () Stock Photo
RMM1HCRNPhotomicrograph of a malaria causing parasite, Plasmodium vivax, in immature forms schizont, rings and growing trophozoites, in a Giemsa stained blood smear, magnified 1125x, 1971. Image courtesy CDC/Dr. Mae Melvin. ()
. Annals of tropical medicine and parasitology. Parasites. 252 film for at least thirty minutes, and to regulate the amount of washing afterwards by frequent microscopic examinations. It was found that the Giemsa method showed up the flagellar attachments better than the Leishman method did, whereas the latter demonstrated the nuclear karyosome better. (Plate XVIII, figs. 12 and 14.) V. MORPHOLOGY This protozoon is a typical specimen of the genus Prowazekia (Hartmann and Chagas, 1910), formerly included in the genus Bodo. It possesses two fiagella (an anterior and a lateral), and two nuclei (a Stock Photo
RMRMGXAP. Annals of tropical medicine and parasitology. Parasites. 252 film for at least thirty minutes, and to regulate the amount of washing afterwards by frequent microscopic examinations. It was found that the Giemsa method showed up the flagellar attachments better than the Leishman method did, whereas the latter demonstrated the nuclear karyosome better. (Plate XVIII, figs. 12 and 14.) V. MORPHOLOGY This protozoon is a typical specimen of the genus Prowazekia (Hartmann and Chagas, 1910), formerly included in the genus Bodo. It possesses two fiagella (an anterior and a lateral), and two nuclei (a
Photomicrograph of a blood sample infected with two species of malariae in different stages of development (Plasmodium falciparum gametocyte and Plasmodium malariae trophozoite), magnified 1125X, on a Giemsa stained slide, 1971. Image courtesy CDC/Dr. Mae Melvin. () Stock Photo
RMM1HAF0Photomicrograph of a blood sample infected with two species of malariae in different stages of development (Plasmodium falciparum gametocyte and Plasmodium malariae trophozoite), magnified 1125X, on a Giemsa stained slide, 1971. Image courtesy CDC/Dr. Mae Melvin. ()
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