Identification?
Monday, June 11, 2018
Case of the Week 497
This week's case was generously donated by Florida Fan. The following bug were submitted by the physician of a 69-year-old woman. No further history is available. As Florida Fan says, "Here comes the summer, and with it comes the bugs."
Identification?
Identification?
Monday, June 4, 2018
Case of the Week 496
Welcome to the first Monday of June 2018, and our case from Idzi Potters and the Institute of Tropical Medicine, Antwerp.
The patient is a 65-year-old owner of a camel farm who presents to his primary care provider for a yearly check-up. As he has mild intestinal complaints, he submits a fecal sample to be checked for parasites. The following structures were observed, and measure approximately 85 x 45 microns. Diagnosis please?
Concentrated wet preparation, 400x
Concentrated wet preparation, 400x with Lugol's iodine
The patient is a 65-year-old owner of a camel farm who presents to his primary care provider for a yearly check-up. As he has mild intestinal complaints, he submits a fecal sample to be checked for parasites. The following structures were observed, and measure approximately 85 x 45 microns. Diagnosis please?
Concentrated wet preparation, 400x
Sunday, June 3, 2018
Answer to Case 496
Answer: Trichostrongylus sp. egg
Congratulations to everyone who wrote in with the correct answer. Although this egg looks like those of the hookworms, Oesophagostomum spp., Ternidens spp., and Strongyloides stercoralis (latter only rarely seen in stool), the larger size (85 micrometers long) and tapered end points us towards Trichostrongylus.
This diagnosis is also supported by the history of camel exposure, as Trichostrongylus is primarily a parasite of ruminants. As Blaine mentioned, I should have posted this case on a Wednesday for 'hump' day!
William Sears also mentioned that the presence of eggs with well-developed larva indicates that the specimen likely sat for some time before being examined since the eggs are passed in human stool in an unembryonated state. Thanks again to Idzi Potters for donating this fascinating case.
Congratulations to everyone who wrote in with the correct answer. Although this egg looks like those of the hookworms, Oesophagostomum spp., Ternidens spp., and Strongyloides stercoralis (latter only rarely seen in stool), the larger size (85 micrometers long) and tapered end points us towards Trichostrongylus.
This diagnosis is also supported by the history of camel exposure, as Trichostrongylus is primarily a parasite of ruminants. As Blaine mentioned, I should have posted this case on a Wednesday for 'hump' day!
William Sears also mentioned that the presence of eggs with well-developed larva indicates that the specimen likely sat for some time before being examined since the eggs are passed in human stool in an unembryonated state. Thanks again to Idzi Potters for donating this fascinating case.
Monday, May 21, 2018
Case of the Week 495
This week's case was donated by Dr. Kamran Kadkhoda. It's a 'real life' case that I thought provided a fun challenge. The specimen was obtained from a 5 year old boy from Canada and submitted to the laboratory for identification. What do you all think?
Sunday, May 20, 2018
Answer to Case 495
Answer: Ixodes species tick (fragment), unengorged female
As Blaine, Idzi, Sheldon, Florida Fan, Richard, Agnes, and William nicely described, we can easily identify this tick fragment as an Ixodes species by its characteristic 'U-shaped' anal groove. Lack of festoons also supports the identification. One of our tick experts, Ellen, mentioned that the color is a good feature for determining sex, since female Ixodes are orange-brown while males are black and nymphs are transparent charcoal-grayish. Color can also be helpful for determining the degree of engorgement since adult females will become grayish-white once becoming engorged due to growth of new opisthosoma tissue. Thanks for the great description Ellen!
The tick is most likely I. scapularis, but could also be I. pacificus if it was from Western Canada. Dr. Kadkhoda (who donated this case) is in Manitoba, so I. scapularis would be most likely. Given the partial nature of this tick, we also need to consider other human-biting Ixodes species such as I. muris.
As Blaine, Idzi, Sheldon, Florida Fan, Richard, Agnes, and William nicely described, we can easily identify this tick fragment as an Ixodes species by its characteristic 'U-shaped' anal groove. Lack of festoons also supports the identification. One of our tick experts, Ellen, mentioned that the color is a good feature for determining sex, since female Ixodes are orange-brown while males are black and nymphs are transparent charcoal-grayish. Color can also be helpful for determining the degree of engorgement since adult females will become grayish-white once becoming engorged due to growth of new opisthosoma tissue. Thanks for the great description Ellen!
Monday, May 14, 2018
Case of the Week 494
A patient with recent travel to southern Africa presented with fever and myalgias. The following are representative views from Giemsa-stained thick and thin peripheral blood films.
Identification?
Any thoughts on the percentage of parasitemia?
What should the laboratory do when seeing this?
Identification?
Any thoughts on the percentage of parasitemia?
What should the laboratory do when seeing this?
Sunday, May 13, 2018
Answer to Case 494
Answer: Malaria due to Plasmodium falciparum; >20% parasitemia
There were lots of great suggestions for what the lab should do after making this identification. The step of primary importance is to urgently contact the clinical team to relay the result and ensure they understand the importance of the diagnosis. In my laboratory we treat all malaria diagnoses as critical results. In this case, the causative agent (P. falciparum) and the high parasitemia (>2%) make this call even more urgent, since the patient is at very high risk of death from his infection and requires immediate treatment.
In addition to antimalarial treatment (e.g. IV quinidine or artesunate), red blood cell exchange may also be performed for patients with >10 % parasitemia. While the United States Centers for Disease Control and Prevention (CDC) no longer recommends red cell exchange for severe malaria, many other groups such as the American Society for Apheresis (ASA) feel that it is still warranted in life-threatening infections such as this one. You can read the arguments for red blood cell exchange for malaria with >10% parasitemia here:
CDC paper arguing AGAINST red cell exchange for severe malaria:
https://www.ncbi.nlm.nih.gov/pubmed/23800940
Counter argument from the ASA:
https://academic.oup.com/cid/article/58/2/302/333989
Thanks to everyone who wrote in on this case, and kudos to those who took the time to calculate the % parasitemia!
There were lots of great suggestions for what the lab should do after making this identification. The step of primary importance is to urgently contact the clinical team to relay the result and ensure they understand the importance of the diagnosis. In my laboratory we treat all malaria diagnoses as critical results. In this case, the causative agent (P. falciparum) and the high parasitemia (>2%) make this call even more urgent, since the patient is at very high risk of death from his infection and requires immediate treatment.
In addition to antimalarial treatment (e.g. IV quinidine or artesunate), red blood cell exchange may also be performed for patients with >10 % parasitemia. While the United States Centers for Disease Control and Prevention (CDC) no longer recommends red cell exchange for severe malaria, many other groups such as the American Society for Apheresis (ASA) feel that it is still warranted in life-threatening infections such as this one. You can read the arguments for red blood cell exchange for malaria with >10% parasitemia here:
CDC paper arguing AGAINST red cell exchange for severe malaria:
https://www.ncbi.nlm.nih.gov/pubmed/23800940
Counter argument from the ASA:
https://academic.oup.com/cid/article/58/2/302/333989
Thanks to everyone who wrote in on this case, and kudos to those who took the time to calculate the % parasitemia!
Monday, May 7, 2018
Case of the Week 493
It's time for our monthly case from Idzi Potters and the Institute of Tropical Medicine, Antwerp.
The mother of a 5 year-old Belgian patient brought in a small worm-like structure (measuring 12 mm in length) along with a fecal sample. Microscopic examination of the worm-like structure using low power magnification revealed the following:
Anterior end:
A direct wet
mount was made from the stool sample. The structures that are found in the wet
mount are shown in following image and videoclips.
Identification?
The mother of a 5 year-old Belgian patient brought in a small worm-like structure (measuring 12 mm in length) along with a fecal sample. Microscopic examination of the worm-like structure using low power magnification revealed the following:
Check out these cool videos (you may need to press play twice)
Sunday, May 6, 2018
Answer to Case 493
Answer: Enterobius vermicularis adult female and eggs (containing viable larvae). I hope you all got to see the beautiful video of 'baby's first steps' (or wriggles?) that Idzi provided showing a larva hatching from an egg.
The diagnostic features include prominent cervical alae, bulbous esophagus, pointed 'pin-like' tail, and "D" shaped eggs, with flattening on one side.
As Florida Fan mentioned, Blaine did a fabulous job replicating these eggs in his Halloween costume last year.
AND, he left some presents behind!
The diagnostic features include prominent cervical alae, bulbous esophagus, pointed 'pin-like' tail, and "D" shaped eggs, with flattening on one side.
As Florida Fan mentioned, Blaine did a fabulous job replicating these eggs in his Halloween costume last year.
AND, he left some presents behind!
Tuesday, May 1, 2018
Case of the Week 492
The following objects were seen on a thin blood smear that was made to evaluate a patient for malaria. No further history is available. Images courtesy of Emily Fernholz.
Identification?
Identification?
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