Filarial Worms PDF

Summary

This document provides detailed information about filarial worms, including their morphology, life cycle, and transmission methods. It also covers different types of filarial worms and potential symptoms of infection in humans.

Full Transcript

FILARIAL WORMS

The filarial worms have complex life cycles involving a developmental stage in an

insect vector. They require an arthropod vector for their transmission. The worms

inhabit either the lymphatic system or the subcutaneous tissues of man.

The female worm gives rise to a young worm called microfilaria. The microfilariae,

when taken by the arthropod intermediate host during biting, develop into

filariform larvae, which are the infective stages. Humans get infected when bitten

by the infected arthropod intermediate host.

Wuchereria bancrofti- ‫داء الفيل‬

Is a filarial nematode that causes Wuchereriasis or filariasis (commonly called
elephantiasis) in human beings. The name of this worm is given Wuchereria
bancrofti in honor of the two scientists Wucherer and Bancroft who made a
considerable contribution in studying the disease caused by these worms.

This is a parasite of lymph nodes and lymphatic vessels- causing lymphatic

filariasis. This filarial worm is transmitted by the bite of various species of

mosquitoes. It is believed that over 100 million people are infected. The

microfilariae are nocturnal – seen in greatest numbers in peripheral blood in the

night between 10 PM -2 AM. The physiological basis of this nocturnal periodicity

is not understood.

Morphology:

These are long, hair-like, transparent, translucent, thread-like worms with smooth
cuticle and tapering ends.
These are filiform and cylindrical in shape with both ends tapering.
Sexes are separate with distinct sexual dimorphism.
The female is larger (70–100 × 0.25 mm) than the male (25–40 × 0.1 mm).
The posterior end of the female worm is narrow and pointed that bears an anus, while
that of the male is curved vertically and contains numbers of genital papillae
two copulatory spicules of unequal length.
Males and females remain coiled together usually in the abdominal and inguinal
lymphatics and in the testicular tissues.
The head end is slightly enlarged.
 Mouth aperture is simple, without lips.
The pharynx is divisible into an anterior muscular portion and a posterior glandular
portion. An oesophageal bulb is lacking.
The intestine is simple.
The vulva of the female is located ventrally in the pharyngeal region and provided with
a pyriform ejector mechanism.
The female worm is viviparous and directly liberates sheathed microfilariae into the
lymph.
The adult worms live for many years, probably 10–15 years or more.

Mode of transmission and pathogenesis

The filariform larvae are introduced through the skin by the bite of the arthropod

intermediate host.

The larvae invade the lymphatics, usually the lower limb, where they develop into adult
worms. The microfilariae are librated into the blood stream.

They remain in the pulmonary circulation during day, emerging into the peripheral
circulation only during night, to coincide with the biting habit of the vector.

Presence of the adult worms causes lymphatic blockage and gross lymphedema, which
sometimes lead to elephantiasis.

The adult worm obstructs the flow of lymph in the lymph nodes and the lymphatic
vessels draining the lower limbs and the external genitalia.

The lower limbs and external genitalia become swollen.

The skin becomes thick and fissured. The disease is called bancroftian elephantiasis.

The major symptoms and findings include: lymphangitis, lymphedema, fever, headache,
myalgia, hydrocele and chyluria.
Epidemiology: W. bancrofti infection occurs in sub-Saharan Africa, Southeast Asia, the
Indian subcontinent, many of the Pacific islands, and focal areas of Latin America and
the Caribbean (including Haiti). B. malayi occurs mainly in China, India, Malaysia, the
Philippines, Indonesia, and various Pacific islands. B. timori occurs on the Timor Island
of Indonesia

Pathogenecity and clinical features:

Microfilaria

The first stage larva is called microfilaria. They are colorless, transparent bodies with
blunt anterior ends and pointed tails.

They are very active and can move forward and backward within the sheath which is
much longer than the embryo.

They are microscopic and measure about250–300 μm in length and 6–10 μm in
thickness.
Its body is covered with a hyaline sheath followed by a cuticula being lined by
flattened subcuticular cells or epidermis and an inner column of cytoplasm containing
nuclei. Its cuticle has well-marked striations.
Somatic cella or Nuclei appear as granules in the central axis of the body extended from
head to tail except for the 5% terminal end of the tip.
Their head-end has clear space devoid of granules known as cephalic space.
Important structures from the anterior end downwards are future mouth or oral stylet,
nerve ring: oblique area devoid of granules, nephridiopore, renette cell, dark-colored
inner mass, and 4 cells of the future anus.
They do not undergo further development in the human body unless they are taken up
by their suitable host (mosquitoes).
Their life span in the human body is probably 70 days.

Third stage of the larva (infective form)
The third stage larva is the infective form of the parasite is found only in mosquitoes.
They are elongated, filariform, measures1.5mm in length, and 18-23 µm in diameter

Life cycle of Wuchereria bancrofti:
Wuchereria bancrofti is digenetic i.e. its life history is completed in two hosts
Definitive host: Man. No animal host or reservoir is known for W. bancrofti
Intermediate host: Female mosquitoes, belonging to genus Culex, Aedes, and
Anopheles.
Infective form: Actively motile third-stage filariform larva is infective to man.
 Life cycle of W. bancrofti

Diagnosis

♦ Blood film examination after staining by Giemsa or Leishman stain to detect

microfilaria. The film should be taken by night.

Treatment - Diethyl carbamazine (DEC): 2 mg/kg 3x daily for 2 weeks.

Endemic non-filarial elephantiasis (Podoconiosis)

Non-filarial elephantiasis of the lower limbs is common in Ethiopia. Silicon,

aluminium and iron particles in the red clay soil are absorbed through skin

abrasions in bare footed persons. The mineral particles cause obstruction of the

lymphatics.
 Microfilaria of W. bancrofti in blood smear

Onchocerca volvulus: African River blindness

Infection by this filarial worm is common in Africa.

It causes onchocerciasis, and is the second-leading cause of blindness due to infection
worldwide after trachoma

Morphology:

Male: Similar to that of Wuchereria bancrofti, measure 15-45 mm in length

Female: The female measures 30-50 cm in length. It is present inside of a fibrous
nodule (onchocercomata or onchocerca tumor) in subcutaneous tissue.

Adult males of Onchocerca volvulus ; females are 30-50 cm.

Intermediate Host and vector:

Female Simulium, (Simulium damnosum) complex black flies, found around plantations
following rivers or river basins. Backflies breed along fast-flowing rivers and streams, close to
remote villages located near fertile land where people rely on agriculture.
Microfilaria:

Measures 300 microns in length. It is non-sheathed microfilaria. It is present in

the subcutaneous tissue fluids and not in blood.
 Life cycle of O. volvulus

Life cycle:

Onchocerca volvulus breed exclusively in the Simulium yahense black fly, found only in
certain endemic areas near fast-flowing rivers and streams.

The life cycle starts by a black fly biting an infected human host and ingesting
microfilariae from the skin or blood.

These microfilariae migrate from the gut to the thoracic flight muscles of the fly, where
they develop from the initial larval phase into the infective microfilariae after one week
(Stages J1 --> J2).

They then migrate to the salivary glands of the fly and are ready to be transmitted again
(Stage J3s).

The third stage larvae are then introduced into the skin of the new human host via a fly
bite, where over the next 6-12 months, they develop into mature adult parasites.

The larger female nematode migrates to the subcutaneous or deeper fascial tissues and
becomes encapsulated by a fibrous shell.

The males migrate into these capsules in order to fertilize the females.
It is these capsules that are the characteristic subcutaneous nodules of onchocerciasis.
Fertilized adult females in these nodules produce millions of microfilariae, which are
responsible for the systemic and ocular findings of onchocerciasis.

While the most common mode of transmission is direct via insect bites, the disease can
also be spread transplacentally from an infected mother to her fetus

Pathogenicity and clinical manifestations:

The disease, onchocerciasis or river blindness includes:

Skin fibrous nodules (onchocercomata) enclosing female worms. The nodules

are common in neck, iliac crest and the coccyx.

Skin hypo- or hyper- pigmentation.

Dermatitis is present. In advanced cases,

the skin becomes thickened and wrinkled, showing lizard or leopard skin appearance.

Diagnosis:

Superficial biopsy (skin snip) is taken from the skin using sharp razor blade. The

specimen is allowed to stand for 30 minutes in saline before it is examined

microscopically for microfilariae.

Microfilaria of O. volvulus
Treatment

Ivermectin: 50 mg/kg bodyweight, given every 6 or 12 months. Because it kills

microfilariae but not adult worms, retreatment is necessary over a period of

years.

Prevention

Vector control

Mass treatment

Establishment of villages away from Simulium breeding places.

Use of repellents

Protective clothing

Loa loa: Loiasis, African eye worm
The insect vectors include mango or mangrove flies of Chrysops - Chrysops silacea,
Chrysops dimidiata. It spreads to people through the repeated bites of deerflies that
breed in rain forests in West and Central Africa.

Loiasis is endemic in Central and West Equatorial Africa.

The abundant rubber plantations provide a favorable environment for the vector to
transmit the disease.
Morphology

Adults of Loa loa are often isolated from the subconjunctiva.

Adult females are 40-70 mm in length and 0.45-0.60 mm wide; males are smaller at 30-
34 mm long and 0.35-0.40 mm wide.

The exterior of the cuticle lacks ridging seen in many Dirofilaria but contains irregularly-
spaced elevations called “bosses

Pathogenesis

The microfilaria have a sheath. Their diurnal periodicity corresponds to the

feeding pattern of the insect vector, which bites humans from 10:00 AM to 4:00

PM.

The adult worms live in subcutaneous tissue and wander round the body, provoking
localized reactions known as Calabar swellings and sometimes migrating across the
front of the eye. The sheathed microfilariae of Loa loa exhibit diurnal periodicity, so that,
unlike those of Wucheraria

Microflora:

Microfilariae of Loa loa are sheathed and measure 230-250 µm long in stained blood
smears and 270-300 µm in 2% formalin. The tail is tapered and nuclei extend to the tip
of the tail. Microfilariae circulate in the blood.
Life Cycle:
Clinical Features

Incubation period is about one year. It causes calabar swelling beneath the skin

due to parasites. There is fever, pain, pruritus, urticaria, allergic reactions,

retinopathy, glomerulonephritis, meningo-encephalitis etc.
Laboratory diagnosis:

Detection of microfilaria in peripheral blood, urine, sputum, CSF - stained with

Giemsa or unstained

Eosinophilia

Treatment:

Diethylcarbamazine(DEC), 6 to 10 mg per kilogram per day for 2 to 3 weeks: but has
side effects - allergic reactions.

DRACUNCULUS MEDINENSIS (Guinea worm or Medina worm) -
‫تنينة مدينية‬
Dracunculus medinensis causes dracunculiasis.

The infection is endemic to Asia and Africa: India, Nile Valley, central, western and
equatorial Africa, lowlands of Ethiopia and Eritrea.

Morphology

This worm is the largest of the tissue parasite affecting humans.

Gravid female worms measure 70-120 cm in length. Mature female worms can measure
up to 1 meter in length and are 1 to 2 mm wide. Male worms measure 15 to 40mm in
length and are 0.4 mm wide

Their body cavity is almost fully occupied by a uterus greatly distended with rhabditiform
larvae (250-750 μm

in length).

A digestive tube and cuticular annulations distinguish the larvae from microfilariae.

The adult female, which carries about 3 million embryos, can measure 600 to 800 mm
in length and 2 mm in diameter.

When a person drinks contaminated water from ponds or shallow open wells, the small
crustacean copepods (cyclops ) which contain the larvae of D. medinensis which is
dissolved by the gastric acid of the stomach and the larvae are released and migrate
through the intestinal wall. infected larvae released in the stomach penetrate the
mucosa of the stomach and intestinal wall and migrate into the connective tissue. The
larvae then mature into adult worms.
After 100 days, the male and female meet and mate.

The male becomes encapsulated and dies in the tissues while the female moves down
the muscle planes. After about one year of the infection, the female worm emerges,
usually from the feet, releasing thousands of larvae and thus repeating the life cycle.

An alternative life cycle was proposed recently involving dogs and fish.

After eating raw fish containing guinea worm larvae, dogs can get infected.

By eating raw fish, humans can get infected; this reported alternative cycle had made
the eradication of the disease more challenging, especially in Chad.

Larvae of D. medinensis
Pathogenicity and life cycle

Infection is acquired by drinking unfiltered or not boiled water that contains

Cyclops species. The larvae are released in the stomach, penetrate the intestinal

wall and find their way to the subcutaneous tissue. Mating takes place in the

axillary or inguinal regions 3 months after infection. The male worms then die in

the tissue and the female worms move down to the limbs within 10 months. In

about 1 year, female worms in the subcutaneous tissue provoke the formation of

a burning blister in the skin of the legs. When in water, the blister bursts, and

about 5 cm of the worm is extruded from the resulting ulcer - thus releasing many

thousands of first stage larvae. The larvae swim in water and are ingested by the

intermediate host - Cyclops species- within about 4 days. Inside the Cyclops, the

larvae molt twice and become infective in 2 weeks

Life cycle of Drancunculus medinesis
Clinical feature:

The female parasites in the subcutaneous tissue release toxic byproducts of

histamine-like nature, which cause systemic allergic reactions, like erythema,

urticaria, pruritus, fainting, asthma, dyspnea, etc. This is followed by the

appearance of a blister on the legs, which ruptures on contact with water

releasing larvae into the water by the female worm. The wound may ulcerate.

The worms migrate into other tissues and may cause arthritis, pericarditis,

abscesses etc. It occasionally penetrates the eyeball and causes loss of the eye.

Diagnosis

1. Clinical: Observation of blister, worm or larvae

2. Histologic features of subcutaneous sinus tract
3. Eosinophilia and radiographic evidence

Treatment

Surgical excision when the worm is in the leg

Niridazole (Ambilhar) or DEC

Prevention

Health education on:

♦ Boiling or filtering of drinking water

♦ Treating of patients and educating them not to enter water bodies

♦ Using insect larvicides to kill Cyclops in water.

TRICHINOSIS ‫داء الشعرينات‬
Etiologic agent - Trichinella spiralis

This is the only important species in this group.

It causes trichinosis – a cosmopolitan infection. More than 100 different animal species
can be infected with Trichinella species, but the major reservoir host for human
infections is swine.

These roundworm parasites (trichinella) use a host body to live and reproduce.

These parasites infect animals such as bears, cougars, walruses, foxes, wild boars and
domestic pigs.

Human get the infection by eating the immature form of the roundworm (larvae) in raw
or undercooked meat.

When humans eat raw or undercooked meat containing trichinella larvae, the larvae
grow into adult worms in the small intestine. This takes several weeks. The adult worms
produce larvae that travel through the bloodstream to different parts of the body. They
then bury themselves in muscle tissue.
Morphology

Adult female worm measures 3-4 mm in length and the adult male worm

measures 1.4-2.6 mm in length. The encysted larvae measure 800-1300 μm in

length.

Pathogenicity and life cycle

After ingesting infected meat, the capsule of the encysted larvae is digested by

gastric juice, and the larvae are released in the duodenum or jejunum where they

molt four times to become adult worm.

After mating, the male worm dies and the female worm begins to deliver the embryos
4-7 days after the infection.

The larvae penetrate the intestinal wall and migrate through the lymphatic vessels to

the blood stream, which carries them to various organs.

Skeletal muscles and diaphragm are most frequently parasitized. Others include the
tongue, masseter and ocular muscles.
 Life cycle of Trichinella spiralis

Clinical features

There are two clinical phases.

1. The intestinal phase: lasting 1-7 days - asymptomatic; sometimes cause

nausea, vomiting, diarrhea, constipation, pain, etc,

2. The muscle phase: which causes myalgia, palpabral edema, eosinophilia,

fever, myocarditis, meningitis, bronchopneumonia etc.
Diagnosis:

♦ Muscle Biopsy

♦ Detection of larvae in blood or CSF

♦ Detection of larvae and adult worms in stool (rare).

♦ ELISA

Treatment - Thiabendazol

Prevention

♦ Cooking of all meat before consumption

♦ Inspection of pigs

♦ Pork must be stored at -150

C for 20 days.