1. Medical Parasitology Lab.
Detection of Blood Parasites
Thick & Thin
Blood Smear

2. Raed Z. Ahmed, Medical Parasitology Lab.,2012
Blood Examination
The most commonly used technique for blood examination is stained blood films.
Geimsa stain is usually used to stain the films.
Delafild’s haematoxylin stain is used for microfilariae.
Either thick or thin films may be used depending on the circumstances.
The thick film is more sensitive in detecting parasite and also saves time in examination.
The thin film technique cause very little distortion of the parasite, and permits species identification when it may not be possible in thick films, but many fields must be examined to detect parasite when they are few in number.
Raed Z. Ahmed, Medical Parasitology Lab.,2012

3. Raed Z. Ahmed, Medical Parasitology Lab.,2012
Continue ………
Therefore, both thick and thin films must always be prepared when searching for plasmodia and trypanosomes.
If a precise identification can not be made from thick film, the thin film will be available.
Thick films should be used when searching for microfilariae.
The most economical use of slides is achieved by making a combination thick and thin slide.
However, combination films must dry thoroughly 8-10 hrs. to overnight before they can be satisfactorily stained.
Slides for malaria should be stained in the same day.
Raed Z. Ahmed, Medical Parasitology Lab.,2012

4. Raed Z. Ahmed, Medical Parasitology Lab.,2012
Continue ………
The thin films will dry quickly and can be stained as soon as they are dry, and examine for parasites.
If parasites are not seen in the thin film, stain the thick film using Field’s stain, and examine for parasites.
Direct wet mounts of fresh whole blood (or centrifuged blood) are usually used for detection of microfilariae and trypanosomes, this only gives evidence of infection and stained films are necessary for confirmation of species present.
In areas where malaria, trypanosomes, and/or microfilariae may all present, both wet and stained films should be prepared and examined.
If neither trypanosomes nor microfilariae occur in region, only stained smears need to be made for detection of plasmodia.
Raed Z. Ahmed, Medical Parasitology Lab.,2012

5. Examination of Thick & Thin blood smear
For optimum staining, the thick and thin films should be made on separate slides and different concentrations used for staining.
When it’s done good quality staining of thick film is of primary importance, best results are obtained if the blood smear have dried overnight.
Fixation of thin blood film done by adding 3 drops of methanol, or dipping it in a container of methanol for few seconds, with prolonged fixation it may be difficult to demonstrate Schuffner’s dots and Maurer’s dots.
To permit dehemoglobinization, thick film should not be fixed; therefore avoid exposure to methanol or methanol vapor
Raed Z. Ahmed, Medical Parasitology Lab.,2012

6. Raed Z. Ahmed, Medical Parasitology Lab.,2012
Reading of Thick Film
Focus on film with 10x objective and search for microfilariae. They are easily detected with 10x objective.
If microfilariae are present, switch to oil- immersion objective and identify the species.
Also, look for malaria parasites with oil- immersion objective, at least 100 fields should be examined.
Microscopy of thick film should reveal the following features:
The background should be clean, free from debris, with a pale mottled- gray color derived from the lysed erythrocytes.
Leukocyte nuclei are stained a deep, rich purple.
Malaria parasite are well defined with deep- red chromatin and pale purplish blue cytoplasm.
Raed Z. Ahmed, Medical Parasitology Lab.,2012

7. Raed Z. Ahmed, Medical Parasitology Lab.,2012
Reading of Thin Film
Focus with the 10x objective on the thin terminal end of the film where the RBCs are in one layer, put oil drop on the slide and switch to the oil-immersion objective.
When examining fro malaria parasites and trypanosomes, at least 200 fields should be examined.
Microscopy of thin film should reveal the following features:
The background should be clean and free from debris; erythrocytes are stained a pale greyish pink.
Neutrophil leukocytes have deep purple nuclei and well defined granules.
Malaria parasite are well defined with deep- red chromatin and pale purplish blue cytoplasm.
Like plasmodia, the cytoplasm of trypanosomes stain blue, the nucleus and kinetoplast stain red or purple.
Raed Z. Ahmed, Medical Parasitology Lab.,2012

8. Identification of malarial parasites
In thin films, look at the appearance of the parasite and the appearance of the RBCs containing the parasites.
The appearance of the parasites
The appearance of the RBC containing the parasites:
Size: Is the parasitized cell the same size as the blood cell without parasite or Is it enlarged?
Stippling: Is the RBC filled with pink or red staining dots?
Schuffner’s stippling in the “ghost” of the erythrocyte can some times be seen at the edges of the film and indicate infection with Plasmodium vivax or P. ovale,.
Maurer’s dots show as stippling in erythrocytes containing the larger ring forms of Plasmodium falciparum.
Raed Z. Ahmed, Medical Parasitology Lab.,2012

9. Comparison Thick smear Thin smear Lysed RBCs, many layer
Fixed RBCs, single layer
0.25 μl blood/100 fields ( large volume )
0.005 μl blood/100 fields ( small volume )
Good screening test
( positive or negative )
Good species differentiation
Save time
Requires more time to read
Low density infection can be detected as blood elements more concentrate ( more sensitive )
Low density infections can be missed
More difficult to diagnose species
Raed Z. Ahmed, Medical Parasitology Lab.,2012

10. Raed Z. Ahmed, Medical Parasitology Lab.,2012
Blood Parasites
Raed Z. Ahmed, Medical Parasitology Lab.,2012

11. Plasmodium falciparum
Blood Protozoa
Blood Parasite
Microfilariae
Trypanosoma
Leishmania
Plasmodium
Plasmodium falciparum
Plasmodium vivax
Plasmodium ovale
Plasmodium malariae
Raed Z. Ahmed, Medical Parasitology Lab.,2012

12. Raed Z. Ahmed, Medical Parasitology Lab.,2012
Blood Parasites
Trypanosoma spp.
Raed Z. Ahmed, Medical Parasitology Lab.,2012

13. Raed Z. Ahmed, Medical Parasitology Lab.,2012
Life cycle
Raed Z. Ahmed, Medical Parasitology Lab.,2012

14. Raed Z. Ahmed, Medical Parasitology Lab.,2012
Trypanosoma spp.
Trypanosoma cruci (Americans) cause Chaga’s disease.
Trypanosoma bruci (Africans) cause sleeping sickness disease.
Trypanosoma have many stages:
Amastigote, Promastigote, Epimastigote and Trypomastigote.
Reservoir host: mammalian animal.
Intermediate host: Tse tse fly (Glossina spp.)
Definitive host: Human.
Infective stage: Metacyclic trypomastigote.
Diagnostic stage: Trypomastigote.
Raed Z. Ahmed, Medical Parasitology Lab.,2012

15. Raed Z. Ahmed, Medical Parasitology Lab.,2012
Continue ……
Diagnosis:
Detection of Trypanosoma chancer after bite
Blood smear within 21 days from the bite, it will show the parasites.
Lymph node aspiration (most reliable).
Lumber puncture if brain affected.
Undulating membrane
Flagellum
Nucleus
Raed Z. Ahmed, Medical Parasitology Lab.,2012

16. Trypanosoma Trypomastigotes
Raed Z. Ahmed, Medical Parasitology Lab.,2012

17. Raed Z. Ahmed, Medical Parasitology Lab.,2012
Blood Parasites
Leishmania spp.
Raed Z. Ahmed, Medical Parasitology Lab.,2012

18. Raed Z. Ahmed, Medical Parasitology Lab.,2012
Life cycle
Raed Z. Ahmed, Medical Parasitology Lab.,2012

19. Raed Z. Ahmed, Medical Parasitology Lab.,2012
Leishmania spp.
There is many species affect man:
Leishmania tropica : cause skin lesion ( cutaneous )
Leishmania braziliense : cause muco-cutaneous lesion.
Leishmania donovani : cause visceral lesion.
Leishmania have two stages:
Amastigote (Leishmania stage), in man (reticuloendothelial cell).
Promastigote (Leptomonas stage), the infective stage and present in the lumen gut of the sand fly.
Reservoir host: dogs and rodents.
Intermediate host: Sand fly (Phlebotomus).
Definitive host: Human.
Raed Z. Ahmed, Medical Parasitology Lab.,2012

20. Raed Z. Ahmed, Medical Parasitology Lab.,2012
Continue ……
Diagnosis:
Thick and thin blood film
Skin scraping
Blood culture on N.N.N media*
Serological tests
Nucleus
Flagellum
* Culture media used to growth leishmania is Novy, MacNeal and Nicolle's “NNN” or Schneider's Drosophila medium, supplemented with 30% fetal bovine serum,
Raed Z. Ahmed, Medical Parasitology Lab.,2012

21. Leishmania promastigotes
Raed Z. Ahmed, Medical Parasitology Lab.,2012

22. Raed Z. Ahmed, Medical Parasitology Lab.,2012
Blood Parasites
Plasmodium spp.
Raed Z. Ahmed, Medical Parasitology Lab.,2012

23. Raed Z. Ahmed, Medical Parasitology Lab.,2012
Life cycle
Raed Z. Ahmed, Medical Parasitology Lab.,2012

24. Raed Z. Ahmed, Medical Parasitology Lab.,2012
Plasmodium spp.
Four species of Plasmodium are the causative agent of malaria, these are:
P. vivax, P. malariae, P. falciparum, and P. ovale.
Intermediate host: Human.
Definitive host: Anopheles mosquitoes.
Plasmodium spp. have 4 stages:
Ring form (young trophozoite.)
Late ( old ) trophozoite
Schizonts
Gametocyte.
Infective stage: Sporozoites.
Diagnosis:
Thick and stained thin blood film to detect parasites.
Raed Z. Ahmed, Medical Parasitology Lab.,2012

25. Raed Z. Ahmed, Medical Parasitology Lab.,2012

26. Raed Z. Ahmed, Medical Parasitology Lab.,2012

27. Raed Z. Ahmed, Medical Parasitology Lab.,2012

28. Raed Z. Ahmed, Medical Parasitology Lab.,2012

29. Raed Z. Ahmed, Medical Parasitology Lab.,2012
Ring form
P. vivax
P. ovale
P. malariae
P. falciparum
Raed Z. Ahmed, Medical Parasitology Lab.,2012

30. Raed Z. Ahmed, Medical Parasitology Lab.,2012
Trophozoite form
P. vivax
P. ovale
P. malariae
P. falciparum
Raed Z. Ahmed, Medical Parasitology Lab.,2012

31. Raed Z. Ahmed, Medical Parasitology Lab.,2012
Schizonts form
P. vivax
P. ovale
P. malariae
P. falciparum
Raed Z. Ahmed, Medical Parasitology Lab.,2012

32. Raed Z. Ahmed, Medical Parasitology Lab.,2012
Gametocyte form
P. vivax
P. ovale
P. malariae
P. falciparum
Raed Z. Ahmed, Medical Parasitology Lab.,2012

33. Species Differentiation On Thin Films
Species Differentiation On Thin Films
Feature
P. falciparum
P. vivax
P. ovale
P. malariae
Enlarged infected RBC - +
Infected RBC shape
round
round, distorted
oval, fimbriated
Stippling infected RBC
Maurer’s clefts
Schuffner's spots
Schuffner's dots
none
Trophozoite shape
small ring, applique
large ring, amoeboid
large ring, compact
small ring, compact
Chromatin dot
often double
single
large
Mature schizont
rare, merozoites
12-24 merozoites
4-12 merozoites
( scattered )
6-12 merozoites
( rosette )
Gametocyte
crescent shape
large, round
compact, round
Raed Z. Ahmed, Medical Parasitology Lab.,2012