This week's case is one I've previously shown before, but from many years ago. It's so cool looking that I thought it was worth showing again. The following object was found in a iodine-stained stool concentrate by Florida Fan. Any thoughts on what it is?
It's time for our monthly case from Idzi Potters and the Institute of Tropical Medicine, Antwerp. As always, Idzi has a great case for us - courtesy of Anna Rosanas and Pieter Guetens from ITM's Malariology Department: a patient with extensive recent travel - leaving Belgium to trek across rural areas of Peru, Niger, Mali, and finally the Philippines. He didn't take any malaria prophylaxis while traveling and now presents with fever and general malaise after being home for 3 weeks. The following are thick and thin Giemsa-stained blood films from this patient (pH 8.0). The percent parasitemia was calculated at 1%. Identification?
Answer to the Parasite Case of the Week 642: Plasmodium sp. infection with relatively high (1%) parasitemia; differential diagnosis includes mixed P. falciparum/P. malariae infection and P. knowlesi infection. Recommend nucleic acid amplification testing for definitive identification.
PCR testing confirmed that this was P. knowlesi infection!
This interesting case highlights the difficulty in diagnosing P. knowlesi infection, given that many of its key morphologic features in humans overlap with those of P. falciparum and P. malariae. Like P. falciparum, high parasitemias may be observed, and thin delicate rings - occasionally with double chromatin dots ("headphone" forms) and applique forms - may be seen. Conversely, all stages of P. knowlesi are commonly seen in peripheral blood, unlike most cases of P. falciparum, so that late stage trophozoites and schizonts are also seen. Many of these later stage forms resemble those of P. malariae, such as "band form" late stage trophozoites. Of note, P. malariae does not reach high levels of parasitemia (1% would be unexpectedly high).
Given this complexity, PCR confirmation is important for understanding the nature of infection and guiding therapy.
This week's case was generously donated by Dr. Alexander Fenwick and includes some beautiful images.
The following objects were seen in a sputum specimen from a patient living in Eastern Kentucky. This patient was receiving corticosteroid therapy for poorly-controlled COPD. Identification?
Gram stain (10x and 100x magnification)
Wet mount:
Answer to the Parasite Case of Week 641: Strongyloides stercoralis L3 (filariform) larvae.
As mentioned in the comments, other items on the differential diagnosis include larvae of the hookworms and Ascaris lumbricoides. The larvae of these nematodes are only rarely seen during the initial stage of infection, in which larvae migrate to the lung before reaching their permanent destination in the intestinal tract. For that reason, it is very rare to identify them in clinical specimens. In comparison, S. stercoralis has an ongoing autoinfection cycle in humans which results in recurrent migration of L3 larvae through the lung. This normal low-level of autoinfection is often subclinical and allows the infection to persist for decades. However, immunocompromised patients (such as those receiving corticosteroids like this patient) are at risk for hyperinfection, during which large numbers of L3 larvae leave the intestinal tract and migrate to the lungs and other organs. This is the common scenario in which larvae are found in respiratory specimens.
In addition to the clinical indicators of strongyloidiasis (patient from Kentucky, receiving immunosuppressive agents), there are a few morphologic features that can be used for differentiating S. stercoralis larvae from other nematode larvae found in the lung. One of the primary features is the shape of the tail. S. stercoralis L3 larvae have a subtly-notched tail, whereas the hookworm L3 larvae (the stage found in the lung, and rarely in unfixed stool examined several days after passage) have a pointed tail. I believe that A. lumbricoides L3 larvae also have a pointed tail - can anyone tell me for sure?
Here's a fun case for you all - submitted for arthropod identification. Thoughts?
Answer to the Parasite Case of the Week 640: Pseudoscorpion
Despite the scary look of this arthropod's front pincers (enlarged pedipalps), it is not a scorpion and does not harm humans. In fact, pseudoscorpions can be helpful; Dwight Ferris pointed out that they feed on other arthropods pests that you don't want in your house such as carpet beetles, book lice, ants and clothes moths.
The main way to tell a pseudoscorpion apart from a true scorpion is that the former is much smaller (usually < 5 mm long) and lacks a telson (venom bulb) and aculeus (stinger) at the end of their abdomen. Of note, both pseudoscorpions and scorpions are arachnids and have 8 legs in their adult form - just like ticks and mites.
Pseudoscorpions may occasionally be submitted to the laboratory after concerned individuals find them in their home and bring them to their physician. That is probably how we received this one. However, Chuck Blend also noted that they are commonly found in the library, 'hanging out' between the pages of old books. You can also find them out in nature, under stones, leaf litter, tree bark and mulch.
This week's case was generously donated by Drs. Timothy Y. Chou and Roberta J. Seidman. The specimen is a corneal biopsy in an elderly woman who had been receiving ocular steroid treatment (but no systemic immunocompromising agents). The patient went on to develop bilateral punctate keratitis, and corneal biopsy showed the following objects:
H&E, 600x and 1000x
Answer to Case of the Week 639: Microsporidia spores.
As many of you noted, the differential diagnosis includes Toxoplasma gondii tachyzoites.
Here are some of the key morphologic features:
This week's case was generously donated from Drs. Cynthia Magro and Lars Westblade. The following object was identified in an hematoxylin and eosin stained tissue section of toenail in a patient with onychomycosis. Identification?
