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dog and cat assay data sheet
Ancylostoma duodenale
Ancylostoma duodenale is commonly known as
the Old World hookworm. It primarily infects humans and can infect
non-human primates, but paratenic infections of dogs, cats, pigs, and
hamsters have been documented. This parasite attaches to the wall of the small intestine, especially the jejunum, where it feeds on blood, leading to hookworm disease or ancylostomiasis. A. duodenale and Necator americanus are the main causes of intestinal hookworm infections worldwide, affecting an estimated 72.5 million people, mostly in tropical and subtropical regions like Asia, Africa, and parts of the Americas.
The adult worm is small and cylindrical, with a greyish-white or pinkish
color. Adult males are about 8-11 mm long, while females are about
10-13 mm long. It has a hook-like bend at the head, which is equipped
with cutting plates or teeth to latch onto the intestinal mucosa. The
morphology is very similar to
Necator americanus; thus, it is very difficult to differentiate
the two parasites morphologically.
Adult females can shed thousands of eggs per day into feces. When these
eggs are passed in the environment, especially in warm, moist soil,
the eggs hatch into the infective larvae. These larvae can penetrate
human skin (often through bare feet), enter the bloodstream, travel to
the lungs, and then migrate to the small intestine, where they mature
into adults. Transmission typically occurs in areas where sanitation
is poor or where people walk barefoot on contaminated soil. Infection
with A. duodenale can also
occur via ingestion of larvae or possibly through breast milk in rare
cases. The full cycle from infection to egg production takes about 5-9
weeks. Infections are mostly asymptomatic in light cases, but heavy infestations can cause iron-deficiency anemia due to blood loss, abdominal pain, diarrhea, and fatigue. In children, stunted growth and cognitive impairment may result. Skin entry may cause an itchy rash called "ground itch," and lung migration can lead to cough or fever. In severe cases, it can result in gastrointestinal bleeding. Prevention relies on practicing good personal hygiene, wearing shoes in endemic areas, improving sanitation, and conducting mass deworming programs.
Although microscopic examination of feces to diagnose the parasitic
infection has low cost and is simple to perform, it has low
sensitivity and specificity. This method is also not suitable for
environmental surveillance because the concentration of eggs is
usually very low and non-homogeneous in environmental samples like
soil. PCR is increasingly used to replace the traditional microscopic
method because PCR can provide species-specific detection with minimal
sample volume, even in complex matrices where viable eggs may be
scarce or degraded (Barda et al., 2020; Miswan et al., 2022). Utilities:
References: Miswan N, Singham GV, Othman N. Advantages and Limitations of Microscopy and Molecular Detections for Diagnosis of Soil-transmitted Helminths: An Overview. Helminthologia. 2022 Dec 30;59(4):321-340. Specimen
requirement:
2 ml of feces; or rectal swab; or 10 ml of
soil; or environmental swabs or swipes; or 2 ml EDTA whole blood. Contact Zoologix if advice is needed to determine an appropriate specimen type for a specific diagnostic application. For specimen types not listed here, please contact Zoologix to confirm specimen acceptability and shipping instructions. For all specimen
types, if there will be a delay in shipping, or during very warm
weather, refrigerate specimens until shipped and ship with a cold pack
unless more stringent shipping requirements are specified. Frozen
specimens should be shipped so as to remain frozen in transit. See
shipping instructions for more
information. Turnaround
time:
2 business days
Methodology:
Qualitative real time
PCR Normal range: Nondetected |
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