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Giemsa stain (/ˈɡiːmzə/), named after German chemist and bacteriologist Gustav Giemsa, is a nucleic acid stain used in cytogenetics and for the histopathological diagnosis of malaria and other parasites.^[1]

Uses

It is specific for the phosphate groups of DNA and attaches itself to regions of DNA where there are high amounts of adenine-thymine bonding. Giemsa stain is used in Giemsa banding, commonly called G-banding, to stain chromosomes and often used to create a karyogram (chromosome map). It can identify chromosomal aberrations such as translocations and rearrangements.^{[citation needed]}

It stains the trophozoite Trichomonas vaginalis, which presents with greenish discharge and motile cells on wet prep.^{[citation needed]}

Giemsa stain is also a differential stain, such as when it is combined with Wright stain to form Wright-Giemsa stain. It can be used to study the adherence of pathogenic bacteria to human cells. It differentially stains human and bacterial cells purple and pink respectively. It can be used for histopathological diagnosis of the Plasmodium species that cause malaria^[2] and some other spirochete and protozoan blood parasites. It is also used to stain Wolbachia cells in host tissue.^[3]

Giemsa stain is a classic blood film stain for peripheral blood smears and bone marrow specimens. Erythrocytes stain pink, platelets show a light pale pink, lymphocyte cytoplasm stains sky blue, monocyte cytoplasm stains pale blue, and leukocyte nuclear chromatin stains magenta. It is also used to visualize the classic "safety pin" shape in Yersinia pestis.

Giemsa stain is also used to visualize chromosomes. This is particularly relevant for detection of Cytomegalovirus infection, where the classical finding would be an "owl-eye" viral inclusion.^[4]

Giemsa stains the fungus Histoplasma, Chlamydia bacteria, and can be used to identify mast cells.^[5]

Generation

Giemsa's solution is a mixture of methylene blue, eosin, and Azure B. The stain is usually prepared from commercially available Giemsa powder.

A thin film of the specimen on a microscope slide is fixed in pure methanol for 30 seconds, by immersing it or by putting a few drops of methanol on the slide. The slide is immersed in a freshly prepared 5% Giemsa stain solution for 20–30 minutes (in emergencies 5–10 minutes in 10% solution can be used), then flushed with tap water and left to dry.^[6]

References

^ Zipfel, E.; Grezes, J. -R.; Naujok, A.; Seiffert, W.; Wittekind, D. H.; Zimmermann, H. W. (1984). "Über Romanowsky-Farbstoffe und den Romanowsky-Giemsa-Effekt". Histochemistry. 81 (4): 337–351. doi:10.1007/bf00514328. ISSN 0301-5564. PMID 6210276.
^ Shapiro, Howard M.; Mandy, Francis (August 2007). "Cytometry in malaria: moving beyond Giemsa". Cytometry Part A. 71 (9): 643–645. doi:10.1002/cyto.a.20453. PMID 17712779. S2CID 12831277.
^ Riegler, Markus; O’Neill, Scott L. (2006). "The Genus Wolbachia". In Dworkin, Martin; Falkow, Stanley; Rosenberg, Eugene; Schleifer, Karl-Heinz; Stackebrandt, Erko (eds.). The Prokaryotes. Springer. pp. 547–561. doi:10.1007/0-387-30745-1_22. ISBN 978-0-387-30745-9.
^ Woods, G. L.; Walker, D. H. (July 1996). "Detection of infection or infectious agents by use of cytologic and histologic stains". Clinical Microbiology Reviews. 9 (3): 382–404. doi:10.1128/cmr.9.3.382. ISSN 0893-8512. PMC 172900. PMID 8809467.
^ Damsgaard, T. E.; Olesen, Anne Braae; Sørensen, Flemming Brandt; Thestrup-Pedersen, Kristian; Schiøtz, Peter Oluf (April 1997). "Mast cells and atopic dermatitis. Stereological quantification of mast cells in atopic dermatitis and normal human skin". Archives of Dermatological Research. 289 (5): 256–260. doi:10.1007/s004030050189. PMID 9164634. S2CID 229476.
^ "4.2.2.2. Giemsa stain". impact-malaria.com. Archived from the original on 2013-10-29. Retrieved 28 Oct 2013.

[1] Zipfel, E.; Grezes, J. -R.; Naujok, A.; Seiffert, W.; Wittekind, D. H.; Zimmermann, H. W. (1984). "Über Romanowsky-Farbstoffe und den Romanowsky-Giemsa-Effekt". Histochemistry. 81 (4): 337–351. doi:10.1007/bf00514328. ISSN 0301-5564. PMID 6210276.

[2] Shapiro, Howard M.; Mandy, Francis (August 2007). "Cytometry in malaria: moving beyond Giemsa". Cytometry Part A. 71 (9): 643–645. doi:10.1002/cyto.a.20453. PMID 17712779. S2CID 12831277.

[3] Riegler, Markus; O’Neill, Scott L. (2006). "The Genus Wolbachia". In Dworkin, Martin; Falkow, Stanley; Rosenberg, Eugene; Schleifer, Karl-Heinz; Stackebrandt, Erko (eds.). The Prokaryotes. Springer. pp. 547–561. doi:10.1007/0-387-30745-1_22. ISBN 978-0-387-30745-9.

[4] Woods, G. L.; Walker, D. H. (July 1996). "Detection of infection or infectious agents by use of cytologic and histologic stains". Clinical Microbiology Reviews. 9 (3): 382–404. doi:10.1128/cmr.9.3.382. ISSN 0893-8512. PMC 172900. PMID 8809467.

[5] Damsgaard, T. E.; Olesen, Anne Braae; Sørensen, Flemming Brandt; Thestrup-Pedersen, Kristian; Schiøtz, Peter Oluf (April 1997). "Mast cells and atopic dermatitis. Stereological quantification of mast cells in atopic dermatitis and normal human skin". Archives of Dermatological Research. 289 (5): 256–260. doi:10.1007/s004030050189. PMID 9164634. S2CID 229476.

[6] "4.2.2.2. Giemsa stain". impact-malaria.com. Archived from the original on 2013-10-29. Retrieved 28 Oct 2013.

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[3]

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[5]

[6]

@@ Line 1: / Line 1: @@
+{{Short description|Stain used for diagnosis of malaria}}
 [[Image:Trypanosoma cruzi crithidia.jpeg|thumb|right|250px|Giemsa stained ''Trypanosoma'' parasites ([[Chagas disease]] pathogen)]]
-[[Image:Whirling disease pathology.jpg|thumb|right|250px|[[Whirling disease]] section stained with Giemsa]]
+[[Image:Whirling disease pathology.jpg|thumb|right|250px|[[Whirling disease]] section stained with Giemsa stain]]
-'''Giemsa stain''' ({{IPAc-en|ˈ|g|iː|m|s|ə}}), named after [[Gustav Giemsa]], an early German microbiologist, is used in [[cytogenetics]] and for the histopathological diagnosis of [[malaria]] and other [[parasite]]s.<ref>Giemsa G (1904 Eine Vereinfachung und Vervollkommnung meiner Methylenblau-Eosin-Färbemethode zur Erzielung der Romanowsky-Nocht’schen Chromatinfärbung. Centralblatt für Bakteriologie I Abteilung 32, 307–313.</ref>
+'''Giemsa stain''' ({{IPAc-en|ˈ|g|iː|m|z|ə}}), named after German chemist and bacteriologist [[Gustav Giemsa]], is a [[nucleic acid]] stain used in [[cytogenetics]] and for the histopathological diagnosis of [[malaria]] and other [[parasite]]s.<ref>{{Cite journal |last1=Zipfel |first1=E. |last2=Grezes |first2=J. -R. |last3=Naujok |first3=A. |last4=Seiffert |first4=W. |last5=Wittekind |first5=D. H. |last6=Zimmermann |first6=H. W. |date=1984 |title=Über Romanowsky-Farbstoffe und den Romanowsky-Giemsa-Effekt |url= |journal=Histochemistry |volume=81 |issue=4 |pages=337–351 |doi=10.1007/bf00514328 |pmid=6210276 |issn=0301-5564}}</ref>
 ==Uses==
+[[File:Human Chromosomes (crop).jpg|thumb|[[Karyotype|Karyotyping]] of human male chromosomes using Giemsa staining]]
-It is specific for the [[phosphate]] groups of [[DNA]] and attaches itself to regions of [[DNA]] where there are high amounts of [[adenine]]-[[thymine]] bonding. Giemsa stain is used in Giemsa banding, commonly called [[G-banding]], to stain [[chromosome]]s and often used to create a [[Karyotype|karyogram]] (chromosome map). It can identify chromosomal aberrations such as [[chromosomal translocation|translocations]] and [[chromosomal inversion|rearrangements]].
+It is specific for the [[phosphate]] groups of [[DNA]] and attaches itself to regions of DNA where there are high amounts of [[adenine]]-[[thymine]] bonding. Giemsa stain is used in Giemsa banding, commonly called [[G-banding]], to stain [[chromosome]]s and often used to create a [[Karyotype|karyogram]] (chromosome map). It can identify chromosomal aberrations such as [[chromosomal translocation|translocations]] and [[chromosomal inversion|rearrangements]].{{citation needed|date=February 2021}}
-It stains the trophozoite ''Trichomonas vaginalis'', which presents with greenish discharge and motile cells on wet prep.
+It stains the [[trophozoite]] ''[[Trichomonas vaginalis]]'', which presents with greenish discharge and motile cells on wet prep.{{citation needed|date=February 2021}}
-Giemsa stain is also a [[Differential staining|differential stain]], such as when it is combined with [[Wright's stain|Wright stain]] to form Wright-Giemsa stain. It can be used to study the adherence of [[pathogenic]] bacteria to human cells. It differentially stains human and bacterial cells purple and pink respectively. It can be used for [[histopathology|histopathological]] diagnosis of [[malaria]]<ref name="pmid17712779">{{cite journal |author=Shapiro HM, Mandy F |title=Cytometry in malaria: moving beyond Giemsa |journal=Cytometry. Part A : the journal of the International Society for Analytical Cytology |volume=71 |issue=9 |pages=643–5 |date=September 2007 |pmid=17712779 |doi=10.1002/cyto.a.20453}}</ref> and some other [[spirochete]] and [[protozoa]]n blood parasites. It is also used in [[Wolbach's tissue stain]].
+Giemsa stain is also a [[Differential staining|differential stain]], such as when it is combined with [[Wright's stain|Wright stain]] to form Wright-Giemsa stain. It can be used to study the adherence of [[pathogenic]] bacteria to human cells. It differentially stains human and bacterial cells purple and pink respectively. It can be used for [[histopathology|histopathological]] diagnosis of the ''[[Plasmodium]]'' species that cause [[malaria]]<ref>{{cite journal |last1=Shapiro |first1=Howard M. |last2=Mandy |first2=Francis |date=August 2007 |title=Cytometry in malaria: moving beyond Giemsa |journal=Cytometry Part A |volume=71 |issue=9 |pages=643–645 |doi=10.1002/cyto.a.20453 |pmid=17712779 |s2cid=12831277 |doi-access=free}}</ref> and some other [[spirochete]] and [[protozoa]]n blood parasites. It is also used to stain ''[[Wolbachia]]'' cells in host tissue.<ref>{{Cite book |last1=Riegler |first1=Markus |title=The Prokaryotes |last2=O’Neill |first2=Scott L. |publisher=Springer |year=2006 |isbn=978-0-387-30745-9 |editor-last=Dworkin |editor-first=Martin |pages=547–561 |language=en |chapter=The Genus ''Wolbachia'' |doi=10.1007/0-387-30745-1_22 |editor-last2=Falkow |editor-first2=Stanley |editor-last3=Rosenberg |editor-first3=Eugene |editor-last4=Schleifer |editor-first4=Karl-Heinz |editor-last5=Stackebrandt |editor-first5=Erko}}</ref>
-Giemsa stain is a classic [[blood film]] stain for [[peripheral blood smear]]s and [[bone marrow]] specimens. [[Erythrocyte]]s stain pink, [[platelet]]s show a light pale pink, [[lymphocyte]] [[cytoplasm]] stains sky blue, [[monocyte]] cytoplasm stains pale blue, and [[leukocyte]] nuclear [[chromatin]] stains magenta. It is also used to visualize the classic "safety pin" shape in Yersinia Pestis.
+Giemsa stain is a classic [[blood film]] stain for [[peripheral blood smear]]s and [[bone marrow]] specimens. [[Erythrocyte]]s stain pink, [[platelet]]s show a light pale pink, [[lymphocyte]] [[cytoplasm]] stains sky blue, [[monocyte]] cytoplasm stains pale blue, and [[leukocyte]] nuclear [[chromatin]] stains magenta. It is also used to visualize the classic "safety pin" shape in ''[[Yersinia pestis]]''.
+[[File:Cmv neuronal inclusions.jpg|thumb|"[[Owl's eye appearance|Owl's-eye]]" viral inclusions, associated with [[Cytomegalovirus]] infection.]]
+Giemsa stain is also used to visualize [[chromosome]]s. This is particularly relevant for detection of [[Cytomegalovirus]] infection, where the classical finding would be an "[[Owl's eye appearance|owl-eye]]" viral inclusion.<ref>{{Cite journal|last1=Woods|first1=G. L.|last2=Walker|first2=D. H.|date=July 1996|title=Detection of infection or infectious agents by use of cytologic and histologic stains|journal=Clinical Microbiology Reviews|volume=9|issue=3|pages=382–404|issn=0893-8512|pmid=8809467|doi=10.1128/cmr.9.3.382|pmc=172900}}</ref>
+Giemsa stains the fungus ''[[Histoplasma]]'', [[Chlamydia (bacterium)|''Chlamydia'']] bacteria, and can be used to identify [[mast cell]]s.<ref>{{cite journal |last1=Damsgaard |first1=T. E. |last2=Olesen |first2=Anne Braae |last3=Sørensen |first3=Flemming Brandt |last4=Thestrup-Pedersen |first4=Kristian |last5=Schiøtz |first5=Peter Oluf |date=April 1997 |title=Mast cells and atopic dermatitis. Stereological quantification of mast cells in atopic dermatitis and normal human skin |url=https://link.springer.com/article/10.1007/s004030050189 |journal=Archives of Dermatological Research |volume=289 |issue=5 |pages=256–260 |doi=10.1007/s004030050189 |pmid=9164634 |s2cid=229476 |archive-url= |archive-date=}}</ref>
-Giemsa stain is also used to visualize [[chromosome]]s.
-Giemsa stains the fungus [[histoplasma]], [[Chlamydia_(bacterium)|chlamydia]] bacteria, and can be used to identify [[mast cell]]s.<ref name="pmid9164634">{{cite journal |author=Damsgaard TE, Olesen AB, Sørensen FB, Thestrup-Pedersen K, Schiøtz PO |title=Mast cells and atopic dermatitis. Stereological quantification of mast cells in atopic dermatitis and normal human skin |journal=Arch. Dermatol. Res. |volume=289 |issue=5 |pages=256–60 |date=April 1997 |pmid=9164634 |doi= 10.1007/s004030050189|url=http://link.springer.de/link/service/journals/00403/bibs/7289005/72890256.htm}}</ref>
 ==Generation==
 Giemsa's solution is a mixture of [[methylene blue]], [[eosin]], and [http://www.chemicalland21.com/specialtychem/finechem/AZURE%20B.htm Azure B]. The stain is usually prepared from commercially available Giemsa powder.
-A thin film of the specimen on a microscope slide is fixed in pure [[methanol]] for 30 seconds, by immersing it or by putting a few drops of methanol on the slide. The slide is immersed in a freshly prepared 5% Giemsa stain solution for 20–30 minutes (in emergencies 5–10 minutes in 10% solution can be used), then flushed with tap water and left to dry.<ref name="url4.2.2.2">{{cite web |url=http://en.impact-malaria.com/web/malaria_training/detection_parasites/giemsa_stain |title=4.2.2.2. Giemsa stain |work= impact-malaria.com |accessdate= 28 Oct 2013}}</ref>
+A thin film of the specimen on a microscope slide is fixed in pure [[methanol]] for 30 seconds, by immersing it or by putting a few drops of methanol on the slide. The slide is immersed in a freshly prepared 5% Giemsa stain solution for 20–30 minutes (in emergencies 5–10 minutes in 10% solution can be used), then flushed with tap water and left to dry.<ref>{{cite web|url=http://en.impact-malaria.com/web/malaria_training/detection_parasites/giemsa_stain |title=4.2.2.2. Giemsa stain |work=impact-malaria.com |access-date=28 Oct 2013 |url-status=dead |archive-url=https://web.archive.org/web/20131029195229/http://en.impact-malaria.com/web/malaria_training/detection_parasites/giemsa_stain |archive-date=2013-10-29 }}</ref>
 ==See also==
@@ Line 27: / Line 29: @@
 *[[Staining (biology)|Biological stains and staining protocols]]
 *[[Histology]]
+*[[Leishman stain]]
 *[[Microscopy]]
 *[[Romanowsky stain]]
@@ Line 35: / Line 38: @@
 {{Stains}}
+{{Clinical microbiology techniques}}
-[[Category:Staining]]
 [[Category:Histopathology]]
+[[Category:Histotechnology]]
+[[Category:Staining dyes]]
-{{pathology-stub}}

v t e Microbial and histological stains
Iron/hemosiderin	Perls Prussian blue
Lipids	Sudan stain Sudan II Sudan III Sudan IV Oil Red O Sudan Black B
Carbohydrates	Alcian blue Mucicarmine Periodic acid–Schiff stain
Amyloid	Congo red Thioflavin
Bacteria	Gram stain Methyl violet/Gentian violet Safranin Acid-fast Ziehl–Neelsen stain/Kinyoun stain Carbol fuchsin/Fuchsine Methylene blue Auramine–rhodamine stain Auramine O Rhodamine B Auramine phenol stain
Connective tissue	trichrome stain: Masson's trichrome stain/Lillie's trichrome Light Green SF yellowish Biebrich scarlet Phosphomolybdic acid Fast Green FCF Sirius Red Van Gieson's stain
Other	Cresyl violet Cyanine Jaswant Singh–Bhattacharji (JSB) stain H&E stain Haematoxylin Eosin Y Janus Green B Giemsa stain Gömöri trichrome stain Luxol fast blue stain Methyl blue Moeller stain Movat's stain Neutral red Schaeffer–Fulton stain Silver stain Bielschowsky stain Grocott's methenamine silver stain Warthin–Starry stain Wright's stain
Tissue stainability	Acidophilic Basophilic Chromophobic