This week's case is generously donated by Dr. Ioana Bujila of the Public Health Agency of Sweden. The patient is a 67 year old woman from Gabon. Blood was examined by direct mount and Giemsa-stained blood films, and the following were identified:
These objects are approximately 228 micrometers in length.
What is your diagnosis? Are there any additional laboratory analyses that are recommended in this case?
This week's case was generously donated by Dr. Mike Mitchell and Laura Derderian. The following structure was seen in a stool concentrated wet mount specimen. It measures 27.5 micrometers in length. This was the only structure present in this specimen. Identification? What additional testing might also be useful in this case?
Answer to the Parasite Case of the Week 686: Cystoisospora belli sporulated oocyst
This case shows a single - but classic - sporulated oocyst of Cystoisospora (formerly Isospora) belli. Note that two sporoblasts are present in this case, which is unusual to see in freshly passed stool specimens. Most C. belli oocysts are shed in an immature state - either unsporulated or partially sporulated (with only one sporoblast). They mature further in the environment, with the sporoblast dividing in two so that the mature oocyst has 2 sporoblasts. The sporoblasts become sporocysts with a surrounding cyst wall, and the sporocysts divide twice so that they produce 4 sporozoites each.
You can see some great examples of MAF staining HERE, and an autofluorescent oocyst of C. belli from Florida Fan HERE.
This is week's case is from our long-time contributor, Idzi Potters from the Institute of Tropical Medicine, Antwerp. The following structures were seen in a iodine wet preparation of concentrated stool. Identification?
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Answer to the Parasite Case of the Week 685: Raphides, i.e, needle-shaped crystals of calcium oxalate or calcium carbonate used by several plants such as pineapple, kiwi, and rhubarb as a defense against plant-eating animals. According to Idzi, "The weird feeling you get in your mouth when eating too much pineapple is apparently caused by these crystals. You can find them quite often in stools and they should not be confused with Charcot-Leyden (C-L) crystals!" They can be differentiated from C-L crystals by their long needle-like shape and uniform diameter:
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Charcot-Leyden crystals:
Galectin-10 is contained in the granules from eosinophils (and also from basophils) and spontaneously crystallizes into Charcot-Leyden crystals when it is released in the extracellular environment (by exocytosis and/or cellular breakdown). Charcot-Leyden crystals are therefore indicative of eosinophilic inflammation (caused by asthma, allergic reactions, parasitic infections, etc)."
Thanks again to Idzi for this excellent case!
For our last case of May, we have a fun submission from Dr. Megan Shaughnessy. She noted the following in some fresh monkfish she purchased from a small local grocery store. What is the likely identification? Also, what is the risk to humans if ingested?
Answer to the Parasite Case of the Week 684: Anisakid L3 larvae
The following is our third and final discussion from our amazing guest author and 3rd year medical student, Hadel Go. I'm sure you will all agree that her discussions have been among the best we've ever had on this blog. Congratulations on the excellent work, Hadel!
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Worm cases are always my favorite because the comments are
either “They are so beautiful!!” (@Parasite_Power on Twitter) or “…That’s a
wholelottanope” (Valmik in the comments).
This is a nematode in the Anisakidae family, likely Pseudoterranova or Anisakis spp., the two most common cause of human anisakiasis, as many of you suggested. A third genus, Contracaecum, is also a possibility. Mario George Nascimento and Melinh Luong point out that its dark color implicates Pseudoterranova (vs Anasakis which is usually white/pink/red).
However definitive identification to the genus level requires closer inspection of the intestinal cecum and its positioning as mentioned by Idzi P. in the comments and seen in Case 563 which he donated.
Diagnostic features of Pseudoterranova and Anasakis
spp. include a “mucron… and 3 poorly formed anterior lips with a small boring
tooth” (see Case
157 and Case
557). The table below shows some varying characteristics between the two
more common culprits:
|
Larva |
Anisakis
simplex |
Pseudoterranova
decipiens |
|
Appearance |
White, milky |
Yellow-brown |
|
Dimensions |
19-36mm long;
0.3-0.6mm wide |
25-50mm,
0.3-1.2mm wide |
|
Other
features |
Blunt tail,
long stomach, Y-shaped lateral cords, no cecum |
Anteriorly
directed cecum |
LIFE CYCLE (CDC)
1. Marine mammals defecate into the sea releasing unembryonated eggs
2. Eggs become embryonated in water
3. L2 larvae form in eggs and hatch out
4. Free swimming L2 larvae are ingested by crustaceans and mature into L3
larvae in the hemocoel
5. Fish (any marine fish is susceptible) and cephalopods eat infected
crustaceans
6. Larvae migrate to mesentery and muscle tissues of the new host
7. L3 larvae are transferred from fish to fish until ingested by a marine
mammal
8. L3 larvae molt twice in the mammal and develop into adults which produce
eggs
Anisakiasis occurs when these parasites at the L3 larval stage are ingested
in raw or undercooked saltwater seafood. While some larvae will die following ingestion, or make their way up the esophagus into the oral cavity (much to the dismay of the human host!), they may also attach to the wall of the human esophagus,
stomach, or intestine causing damage or inflammation. Since humans are
incidental hosts, the anisakids do not mature into adults. Symptoms include
abdominal pain, nausea, vomiting, distention, diarrhea, blood/mucus in stool,
and mild fever. If a patient is allergic to anisakids, rash, itching, angioedema, or
anaphylaxis can occur (even when the worms are dead). Complications include intestinal obstruction,
peritonitis, and intestinal perforation. Severe immune response following
penetration of intestinal tissue can resemble Crohn’s disease.
These roundworms can be visualized and removed with an
endoscope, confirming the diagnosis. If not removed, they will eventually die and can cause
inflammation. A biopsy can reveal an eosinophilic granuloma containing the dead
nematode. Endoscopic or surgical removal of the parasites is curative. Treatment
with albendazole has been used successfully to kill the worms, although not FDA
approved for anisakiasis. Unembedded worms are usually eliminated by the body within 3
weeks.
Avoid infection by following one of these FDA
recommendations which kills the parasite:
- Cook seafood (145°F or above)
- Freeze at -4°F or below for 7 days
- Blast freeze at -31°F or below until solid and store at -31°F or below for 15
hours
- Blast freeze at -31°F or below until solid and store at -4°F for below for 24
hours
I’ve often been asked if I eat sushi and sashimi knowing the
prevalence of these worms… and the answer is YES, I love Japanese cuisine and I
eat them regularly. All fish intended for raw consumption in the US are
required by the FDA to be frozen as stated above so they should be safe. The
dead parasites may still be on the tissue, but they won’t be infectious. I would
however be more hesitant to eat raw or undercooked fish when traveling to
places where there are less stringent regulations. Ask for sushi/sashimi grade
fish and use your best judgement!
TAXONOMY
Kingdom: Animalia
Phylum: Nematoda (roundworms)
Order: Rhabditida
Family: Anisakidae
Read more:
1. CDC -
Anisakiasis
2. Anisakidosis:
Perils of the Deep | Clinical Infectious Diseases | Oxford Academic (oup.com)
3. Anisakis,
Something Is Moving inside the Fish - PMC (nih.gov)
4. Assessing
the risk of an emerging zoonosis of worldwide concern: anisakiasis - PMC
(nih.gov)
Thank you @leon_metlay on Twitter for sharing this paper:
Intestinal
anisakiasis. Report of a case and recovery of larvae from market fish - PubMed
(nih.gov)
This is my third and final post as a guest blogger here and
I’d like to thank Dr. Bobbi Pritt for the opportunity to learn more about these
creatures and share what I’ve learned with you all!
This week's case is from a 4 year old boy with sudden onset of 'explosive' watery diarrhea, accompanied by low grade fever, nausea, vomiting, and loss of appetite. A stool specimen was obtained after 1 week of symptoms, and the following objects were noted on a modified acid fast stain. They measure approximately 5 micrometers in diameter.
Here are some questions to consider:
1. What parasite is shown?
2. Name 3 common ways that infection is acquired.
3. What is the typical recommended treatment?
4. What are the risk factors for severe infection.
As with last week, Hadel Go is serving as a guest author, and will help us answer these questions later this week. Stay tuned!
Answer to Case 683: Cryptosporidium sp. oocysts
The following OUTSTANDING discussion is from our guest author, Hadel Go, a third year medical student with a strong interest in clinical parasitology.
_________________________________________
We received some excellent feedback! Thank you all
for leaving comments on the blog, on Twitter, and on LinkedIn.
Yes, these are Cryptosporidium oocysts. These
protozoans can be identified by their size and consistent red color on modified
acid-fast staining of stool samples. They can also be diagnosed from H&E
stained tissue biopsies (see images here: Cryptosporidium,
parasitewonders.com), but nucleic acid amplification
tests (NAATs) and immunofluorescence microscopy have the greatest
sensitivity and specificity. The two main species that cause infection in
humans are C. parvum and C. hominis, although several others are
also capable. Species identification requires molecular methods like NAAT and/or
sequencing.
Transmission is fecal-oral through food and water
contaminated by stool from an infected person or animal. Some examples include
swallowing pool water, eating unwashed fruits/vegetables from unsafe farms where produce is contaminated with feces containing oocysts (@StephenTristam on Twitter noted a strong association with farming
communities), handling infected farm animals especially calves (@KevKeel brought up
infections among vet students!), caring for an infected person, engaging in
anal sexual contact (as mentioned by @RA_MLS), and touching your mouth with
contaminated hands.
Cryptosporidiosis will present with explosive watery
diarrhea, stomach pain, nausea, vomiting and fever 2-10 days after acquiring
the parasite as seen in our 4-year-old case patient. These are self-limiting in
most immunocompetent individuals. Replenishing fluids and electrolytes to
prevent dehydration is usually sufficient. The infection is mainly concentrated
in the small intestine, but complications can lead to malnutrition and wasting
due to malabsorption or severe dehydration especially in babies.
Immunocompromised patients such as people with
HIV/AIDS, inherited immune diseases, or on immunosuppressive drugs can progress
to severe chronic infection which may become fatal. The respiratory tract can also
be affected (respiratory cryptosporidiosis) resulting in a persistent cough.
Nitazoxanide is the FDA approved treatment for
diarrhea caused by Cryptosporidium in immunocompetent patients ≥ 1 year
of age. However, as Idzi P. mentioned in the comments, “efficacy in
immunocompromised patients is not yet clear… for patients with HIV,
anti-retroviral therapy (to improve immune status) could resolve the symptoms.”
Prevention is essential: practice good hygiene, wash
hands often, do not swallow water when swimming, only drink filtered or treated
water/ice especially when traveling or camping, practice safe sex, do not
consume undercooked meat or unpasteurized milk/apple cider, wash your fruits
and veggies. To avoid recurrent outbreaks, please do not go swimming if you
have diarrhea or within two weeks of resolution of symptoms.
The differential diagnosis is a protozoa in the same
family - Cyclospora cayetanensis (discussed in Case 457). It causes cyclosporiasis which presents similarly
and can be differentiated from Cryptosporidium species by measuring the
oocysts. Their location within enterocytes also varies; see photos from Case 343. The table below compares the two:
|
|
Cryptosporidium parvum |
Cyclospora cayetanensis |
|
Oocyst
size |
4-6
μm |
7.5-10
μm |
|
Acid-fast
staining |
Red
staining (can be variable) |
Often
variable staining |
|
Autofluorescence
under UV |
No
(as pointed out by Idzi P.) |
Yes |
|
Location
in enterocyte |
Replicates
outside the cytoplasm just below the cell membrane |
Replicates
within the cytoplasm |
|
Transmission |
Oocysts
are immediately infectious leading to massive outbreaks |
Person-person
transmission unlikely because sporulation can take weeks and occurs in the
soil. |
DID YOU KNOW?
- Each sporulated oocysts contains 4 sporozoites.
- Cryptosporidium is resistant to chlorine treatments alone due to their
protective outer shell.
- Ultraviolet light and boiling are effective ways to inactivate this protozoan.
- Cryptosporidium parvum oocysts are commonly found in young calves 1-4
weeks old.
- Cryptosporidium zoonotic infection can occur from sheep, cows, pigs,
rodents and other animals.
LIFE CYCLE (3 developmental stages in bold)
1.
Oocysts (thick-walled spore, infective form) are shed in
stool and ingested by host
2.
Excystation releases sporozoites which parasitize
epithelial cells of the GI tract
3.
Meronts undergo asexual multiplication within the brush
border
4.
Gamonts are produced from sexual multiplication
a.
Microgamonts = male; these rupture releasing
microgametes
b.
Macrogamonts = female
5.
Microgametes fertilize macrogamonts forming a zygote
6.
Zygotes give rise to two types of oocysts
a.
Thin-walled oocysts cause autoinfection
b.
Thick-walled oocysts are excreted into the
environment
TAXONOMY
Domain: Eukaryota
Clade: SAR
Infrakingdom: Alveolata
Phylum: Apicomplexa
Order: Eucoccidiorida
Family: Cryptosporidiidae
More information:
1. Parasites - Cryptosporidium (also
known as "Crypto") | Cryptosporidium | Parasites | CDC
2. CDC - DPDx -
Cryptosporidiosis Life Cycle
Thanks to Idzi P. for sharing the following articles
about the 1993 outbreak in Milwaukee, WI (the largest known outbreak affecting
~400,000 people):
1. A Massive
Outbreak in Milwaukee of Cryptosporidium Infection Transmitted through the
Public Water Supply | NEJM
2. Costs of
Illness in the 1993 Waterborne Cryptosporidium Outbreak, Milwaukee, Wisconsin
This week we have a special guest author, Hadel Go, a medical student (Class of 2024) who is greatly interested in parasitology. I'm very excited that Hadel will be our first ever guest author! The following is our case that she will be teaching us about later this week.
The patient is a young man from Madagascar who presented with a 1-week history of chest pain, night sweats, and fever. Chest X-ray showed a right upper lobe peripheral cavitary lesion. Work up for tuberculosis including AFB stained smears of sputum and sputum PCR using the Xpert MTB/RIF assay were negative. Therefore, a wedge resection of the abscess was performed and revealed the following (H&E stain, 400x original magnification):
