Parasitology - Enterobius and Strongyloides PDF

Summary

This document provides a detailed study of Enterobius and Strongyloides, two types of parasitic worms. It covers their morphology, life cycle, diagnosis, treatment, and prevention. It is likely intended for a postgraduate study in parasitology.

Full Transcript

 Set your learning environment
 Set a good time to watch the lecture
 Take notes as how you will take note in a class
 DO NOT SPEED UP!
Morphology
 Parasitic Female is 2.2 by.04 mm.
 Slender tapering anterior end and short conical posterior end
 Long and slender esophagus extending to the anterior fourth of
the body
 Vulva is located 1/3 the length of the body
 Uteri contain a single file of 8-12 thin shelled ova
 Free living female is 1 mm. by.06 mm
 Has a muscular double bulbed esophagus
 The intestine is a straight cylindrical tube
 Free living male is 0.7 mm. by.04 mm
 Has a ventrally curved tail
 Has two copulatory spicules
 Strongyloides stercoralis (most common)
 S. fuelleborni (fülleborni) subsp. fuelleborni
 S. fuelleborni subsp. kellyi
 S.myopotami
 S. procyonis
 225 by 16 µm
 Has an elongated esophagus with pyriform posterior bulb
 Slightly smaller and less attenuated than hookworm
 Shorter buccal capsule and larger genital primordium
 Feeding Stage
 Pyriform
Posterior Bulb
 Infective and Non-feeding Stage
 Similar to the filariform larva of hookworm but is usually
smaller and has a notched tail
 Direct Life Cycle
 Indirect Cycle
 Autoinfection
 Rhabditiform larvae are passed out of the stool
 After short feeding period (2-3 days) larva
molts into Filariform larva
 Filariform larva penetrates the human skin and
enter the venous circulation
 Larvae follow the heart-lung journey
 Larvae are coughed out to the glottis and
swallowed
 Larvae reach the upper part of the intestines
and develop into adults
 Rhabditiform larvae develop into free-living
male and females in the soil
 Male and female copulate and produce eggs
 Eggs develop into rhabditiform larvae
 Rhabditiform larvae may develop into
Filariform larvae and can enter a new host
 Filariform cannot develop into adults and
MUST find a new host (Belizario)
 Rhabditiform larvae in the intestines may develop
immediately into Filariform larvae
 Filariform larvae penetrate the intestinal mucosa or perianal
skin
 Establish a developmental cycle within the host
 Resembles the hookworm but prevalence is lower in the
temperate regions
 Especially prevalent in tropical and subtropical regions
 Areas where warmth, moisture and lack of sanitation are
present
 Most infections are light and usually go unnoticed
 3 phases(cutaneous, pulmonary, gi)
 Moderate infections can cause burning, dull or sharp, non-radiating
midepigastric pain and may exhibit tenderness and pain when
pressed
 Nausea, vomiting, alternate diarrhea and constipation
 Long-standing and heavy infection result in weight loss due to
chronic dysentery, malabsorption and steatorrhea (Cochin China
Diarrhea)
 History of itching in the buttocks, lower back or upper thigh
(caused by autoinfection)
 Caused when Strongyloides larval dissemination occurs
beyond the intestines
 Usually seen in patients with high-dose corticosteroids.
 Fever and pneumonia
 Gram negative bacteremia and/or meningitis
 Larvae can be demonstrated in the sputum
 May become disseminated
 Left untreated, the mortality rates of hyperinfection
syndrome and disseminated strongyloidiasis can approach
90%.
 S. myopotami — causes Larva
curens (nutria itch)
 Subcutaneous migration
 Recurrent serpiginous
maculopapular/urticarial rash along
the Bottocks/Perineum/thighs due to
repeated autoinfection
 S. fuelleborni subsp. kellyi
 Causes a severe, systemic illness
(protein-losing enteropathy
sometimes manifesting as peritoneal
ascites— swollen belly syndrome)
 Unexplained eosinophilia
 Sequence of atypical pneumonia or bronchitis, mucoid or
watery diarrhea, epigastric pain and eosinophilia is suggestive
 Eosinophilia usually ranges from 10% to 20% but is absent in
hyperinfection
 Clinical diagnosis is difficult
 Examination of feces and duodenal contents (duodenal
aspiration)
 Presence of motile rhabditiform larva in the stool or duodenal
aspirate
 In disseminated strongyloidiasis, larvae may be found in
sputum or urine.
 Eggs are rarely found in the stool and can be obtained only
by drastic purge or duodenal intubation
 Baermann funnel gauze method
 Culture
 Harada-Mori culture technique
 Koga culture method
 Charcoal culture
 Beale’s string test (Enterotest)
 Antibody detection — if suspected organism not detected on
other methods but suspicion is high
 Molecular methods
 Ivermectin
 Albendazole and thiabendazole
 Prognosis is good in light infections
 Mortality is high in moderate and heavy infection
 Hyperinfection can occur in immunocompromised patients
which is exacerbated by autoinfection
 Sanitary disposal of feces
 Protection of susceptible individuals
 Treatment of infected individuals
 Education on health and sanitation
 Old name: Oxyuris vermicularis
 Causative agent of enterobiasis/oxyuriasis
 Most common helminth parasite in the temperate regions,
 Less in tropics
Morphology
 Adult female is small (8 – 13 mm. by 0.4
mm)
 Has cuticular alar expansion at the anterior
end (cephalic alae)
 Prominent esophagial bulb and pointed tail
 Uteri may be distended with eggs if gravid
 Male is smaller (2 – 5 mm. in length)
 Curved tail and a single spicule
 Asymmetrical; one side is flattened
and the other side is convex
 50 to 60 µm by 20 to 30 µm
 Translucent shell consists of outer
triple albuminous covering
 Inner embryonic lipoidal membrane
 Eggs become infective in 4 – 6 hours
 Humanity is the only known host
 Mature pinworm inhabits the cecum
 A single female lays from 4,672 to 16,888 eggs per day with an
average of 11,105 eggs, dies upon deposition
 Eggs become embryonated in the perianal region within 6 hours.
 Upon ingestion or inhalation of eggs, first larval stage hatch in the
duodenum
 Molts twice and reaches jejunum and upper ileum
 Copulation occurs in the cecum
 Eggs may be airborne
 Retroinfection is also possible but frequency is unkown.
 The eggs may survive for some days in dry dust, and
airborne eggs can infect persons at a distance via
inhalation.
 Usually innocuous
 Pruritis, perianal, perineal and vaginal
itching and irritation
 Intense scratching can lead to excoriations
secondary bacterial infection
 Itching relieved only through scratching
 Poor appetite, loss of sleep, loss of weight,
enuresis (involuntary passing of urine),
insomnia, grinding of teeth, irritability,
abdominal pain, nausea and vomiting
 Familial disease/group disease
 Complications such as
appendicitis, vaginitis,
endometritis, salpingitis, and
peritonitis are all due to
aberrant adult worm
migration.
 Extraintestinal infections are
rare
 Female reproductive system is
the most common
 Suspected if patient shows perianal itching, insomnia
and restlessness
 Bedwetting
 Finding of characteristic eggs and adults
 Eggs are seldom found in the feces
 Scotch adhesive tape method
 A drop of toluol may be placed between the slide and
the tape to clear the specimen
 Repeated consecutive examination is required
 Anal swabs (Swube Tubes)
 Graham’s scotch adhesive tape swab (perianal cellulose tape
swab), done in the morning before defecation
 Addition of toluene can clear everything except the eggs and
hair
 Nails may also be tested (children)
 Mebendazole, Albendazole, Pyrantel Pamoate
 Mebendazole is teratogenic
 Pyrantel pamoate: 11 mg. per kg body weight single dose
repeated after two weeks
 Side reactions include headache, dizziness, vomiting, abdominal
pain and diarrhea and elevated SGOT levels but are mild and
transitory
 Family members must be diagnosed and treated
 Personal cleanliness
 Hand washing before and after meals; after using the
toilet
 Anal region should be washed upon waking up
 Infected children should wear tight fitting pants
 Infected individual should sleep alone
 Underwear, clothes, beddings should be laundered with
hot soapy water
 Food should be protected from dust