Intestinal Parasites

Question 1

Protozoa

Answer 1

single celled animals – eukaryotes
2-100nm in length
Many species free-living, some are important parasites of humans.

Question 2

Classification of Protozoa

Answer 2

Classified according to their means of locomotion

Amoebae, Flagellates, Cilliates, Sporozoa (coccidia)

Question 3

Three species of particular importance

Answer 3

Cryptosporidium parvum / hominis
Entamoeba histolytica
Giardia intestinalis (aka lamblia/duodenalis)

Question 4

reproduction in protozoa

Answer 4

Reproduction in the human host is usually asexual, by division of growing stages (trophozoites)

In certain species, sexual reproduction may occur in insect vector phase of life cycle (eg malaria)

Question 5

Cryptosporidium

Answer 5

Domestic animals can be reservoirs

Organism arranges itself along microvilli of intestinal tract

Becomes intracellular – covered by host cell membrane

Question 6

Cryptosporidium life cycle

Answer 6

Question 7

oocysts

Answer 7

containing 4 sporozoites, are excreted by the infected host through feces and possibly other routes such as respiratory secretions.

Oocysts are infective upon excretion, thus permitting direct and immediate fecal-oral transmission.

Two different types of oocysts are produced
the thick-walled, which is commonly excreted from the host
the thin-walled oocyst, which is primarily involved in autoinfection.

Question 8

excystation

Answer 8

Following ingestion or inhalation of oocytsts…

sporozoites are released and parasitize epithelial cells of the gastrointestinal tract or other tissues such as the respiratory tract.

Question 9

sexual and asexual reproduction

Answer 9

Within host cells, the parasites undergo 
asexual multiplication (schizogony or merogony) and then 
sexual multiplication (gametogony) producing microgamonts (male)and macrogamonts (female). 

Upon fertilization of the macrogamonts by the microgametes, oocysts develop that sporulate in the infected host.

Question 10

Cryptosporidium organisms

Answer 10

Question 11

Transmission ofCryptosporidium

Answer 11

parvumandC. hominisoccurs mainly through contact with contaminated water (e.g., drinking or recreational water).

Many outbreaks in the United States have occurred in waterparks, community swimming pools, and day care centres.

Zoonotic and anthroponotic transmission ofC. parvumand anthroponotic transmission ofC. hominisoccur through exposure to infected animals or exposure to water contaminated by feces of infected animals.

Question 12

Cryptosporidium diagnosis

Answer 12

Microscopy with an acid fast stained stool smear – stains oocysts bright red

Enzyme immunoassay EIA

Fluorescent microscopy using monoclonal antibody to oocyst wall

PCR commonly used for confirmation, epidemiological tracking

Question 13

Cryptosporidium symptoms In immunocompetent individuals

Answer 13

Begin 2-10 days after infection
Frequent watery diarrhoea (1-2 weeks, self-limiting)
Less commonly - Nausea, vomiting, abdominal cramps, fever

Question 14

Cryptosporidium symptoms in immunocompromised individuals

Answer 14

illness is more severe

Debilitating diarrhoea (up to 20l  per day – electrolyte imbalance, dehydration)
Severe abdominal cramps, fever, weight loss

Question 15

Cryptosporidium infection

Answer 15

no specific treatment

supportive treatment for symptoms that appear

Question 16

Protozoa as Intracellular parasites

Answer 16

can infect all the major tissues and organs of the body
in a wide variety of cells (red blood cells, macrophages, epithelial cells, brain, muscle) and take up nutrients from cytoplasm.

Question 17

Protozoa as extracellular parasites

Answer 17

Extracellular parasites in the blood, intestine or genito-urinary system and take up nutrients directly from environment, or by ingesting host cells.

Question 18

Helminths

Answer 18

refer to all groups of parasitic worms
Helminths are generally large multicellular organisms with complex body organisation
– although invading larval stages may only measure 100-200 μm, adult
worms may be centimetres or even metres long.

Question 19

Three main groups of Helminths important in humans

Answer 19

Tapeworms (Cestoda)

Flukes (Trematoda or Digenea)

Roundworms (Nematoda)

Question 20

Flatworms or platyhelminths

Answer 20

Tapeworms or flukes

Flatworms have flattened bodies with muscular suckers and/or hooks for attachment to the host.

Question 21

Roundworms

Answer 21

Roundworms have long cylindrical bodies and generally lack specialised attachment organs.

Question 22

Transmission of helminths x4

Answer 22

Swallowing infective eggs or larvae via the faecal-oral route

Swallowing infective larvae in the tissues of another host

Active penetration of the skin by larval stages

The bite of an infected blood-sucking insect vector

Question 23

Who gets these infections in the UK?

Answer 23

People who travel to the tropics/low income countries

Migrants

Protozoan species Cryptosporidium and Giardia can be acquired here, and in other high income countries.

Question 24

How do we diagnose them?

Answer 24

still depends largely on microscopic detection of the various parasite stages in faeces, duodenal fluid, or intestine biopsy specimens

Question 25

Why use a wet mount identification technique.

Answer 25

Protozoan trophozoites, cysts, oocysts, and helminth eggs and larvae may be seen and identified

Question 26

Stained smears used in identification x5

Answer 26

Trichrome stain (Protozoa)
Modified trichrome stain (microsporidia)
Modified Fields stain
Giemsa
Modified Ziehl–Neelsen (ZN) stain, also known as acid-fast stain (coccidia)

Question 27

Why is it important for microscopist to be able to measure objects in the microscopic field?

Answer 27

Size might be a major diagnostic feature, when morphology very similar,
eg Trematode eggs
using a calibrated measuring scale in the eyepiece

Question 28

Testing faecal samples

Answer 28

To improve sensitivity, concentration of faecal sample is recommended
Increases the chance of detecting parasitic ova, cysts and larvae

Eg by formalin-ether method, or commercially available concentrators

Multiple samples collected over several days often required – intermittent shedding

Question 29

Detection of Parasite Antigens

Answer 29

Since faecal examination is very labour-intensive and requires a skilled microscopist,

antigen detection tests have been developed as alternatives

using direct fluorescent antibody (DFA), enzyme immunoassay (EIA), and rapid, dipstick-like tests.

Question 30

Molecular methods of detection of parasite antigens

Answer 30

such as real time PCR, are becoming increasingly used as a front-line diagnostic tool (in developed countries).

DNA sequencing is useful, eg to investigate outbreaks

Question 31

Pathogenic amoebae; Entamoeba histolytica

Answer 31

Obligate intracellular parasites

Invades intestinal mucosa (or occasionally blood, via the liver)

Trophozoites can feed on bacteria as well host tissue

Question 32

Transmission of Entamoeba histolytica

Answer 32

Person-to-person spread, faecal oral route (eg contaminated water)

Both trophozoites and cysts can be passed in diarrhoea

Question 33

Entamoeba histolytica symptoms

Answer 33

10% to 20% of people who are infected withE. histolyticabecome sick

Symptoms often quite mild - loose faeces, stomach pain, and stomach pain

Amoebic dysentery is a severe form of amoebiasis associated with stomach pain, bloody stools and fever

Released proteinases can cause tissue damage to colon – portal for other pathogens

Can form abscesses in liver, brain & other soft tissue sites (rare)

Question 34

E. Histolytica life cycle

Answer 34

Question 35

Entamoeba diagnosis using faecal samples

Answer 35

Fresh faecal sample: wet mounts and permanently stained preparations (e.g., trichrome).

Concentrates from faecal sample: wet mounts, with or without iodine stain, and permanently stained preparations (e.g., trichrome).

Concentration procedures not useful for demonstrating trophozoites.

Question 36

Detecting E. histolyticatrophozoites

Answer 36

E. histolyticatrophozoites can also be identified in aspirates or biopsy samples obtained during colonoscopy or surgery.

Question 37

Antigen detection

Answer 37

Antigen detection by EIA may be useful as an adjunct; can distinguish between pathogenic and nonpathogenic infections.

PCR for confirmation

Question 38

E. Histolytica Stains

Answer 38

Question 39

Giardia

Answer 39

the first intestinal parasite to be observed under a microscope -
Anton van Leeuwenhoek described it in 1681.

Question 40

Giardia life cycle stages

Answer 40

1. Flagellate binucleate trophozoite

2. Resistant four nucleate cyst

Question 41

Giardia Lifecycle

Answer 41

Question 42

Cysts

Answer 42

Cysts are resistant forms and are responsible for transmission of giardiasis.

The cysts are hardy and can survive several months in cold water.

can be found in the feces (diagnostic stages).

Infection occurs by the ingestion of cysts in contaminated water, food, or by the fecal-oral route (hands or fomites).

Because the cysts are infectious when passed in the stool or shortly afterward, person-to-person transmission is possible.

Question 43

trophozoites

Answer 43

can be found in the feces (diagnostic stages)

Trophozoites multiply by longitudinal binary fission, remaining in the lumen of the proximal small bowel where they can be free or attached to the mucosa by a ventral sucking disk.

Question 44

excystation

Answer 44

In the small intestine, excystation releases trophozoites (each cyst produces two trophozoites).

Question 45

Encystation

Answer 45

occurs as the parasites transit toward the colon. The cyst is the stage found most commonly in nondiarrheal feces.

Question 46

Giardia symptoms

Answer 46

spectrum varies from asymptomatic carriage to severe diarrhoea and malabsorption.

Question 47

Acute giardiasis

Answer 47

develops after 1 to 14 days and usually lasts 1 to 3 weeks.

Symptoms include diarrhoea (explosive!), abdominal pain, bloating (sometimes large amounts of gas produced!), nausea, and vomiting.

Question 48

chronic giardiasis

Answer 48

symptoms recurrent and malabsorption and debilitation may occur.

Question 49

Giardia diagnosis

Answer 49

Identification of cysts or trophozoites in the faeces, using direct mounts as well as concentration procedures.

Repeated samplings may be necessary.

Antigen detection tests by EIA, and detection of parasites by immunofluorescence. Both available in commercial kits.

Question 50

Identifying cysts

Answer 50

Cysts typically seen in wet mount preparations, while trophozoites are seen in permanent mounts (i.e. trichrome).

Question 51

Identifying trophozoites

Answer 51

Samples of duodenal fluid or duodenal biopsy may demonstrate trophozoites.

Question 52

Soil transmitted helminths: Nematodes species

Answer 52

Ascaris lumbricoides
Strongyloides stercoralis (threadworm)
Trichuris trichiura (whipworm) and
Necator americanusandAncylostoma duodenale (hookworms)

Question 53

Tapeworms (cestodes) species

Answer 53

Taenia saginata

Taenia solium

Question 54

Fluke (trematode) species

Answer 54

Schistosoma sp

Question 55

Soil transmitted helminthiasis

Answer 55

Among the most common infections worldwide

Affect the poorest and most deprived communities

Transmitted by eggs present in human faeces which in turn contaminate soil in areas where sanitation is poor.

Question 56

Soil transmitted helminthiasis main species

Answer 56

Ascaris lumbricoides
Strongyloides stercoralis (threadworm)
Trichuris trichiura (whipworm)
Necator americanusandAncylostoma duodenale (hookworms)

Question 57

Soil transmitted helminthiasis - Morbidity

Answer 57

Morbidity is directly related to worm burden

Question 58

Soil transmitted helminthiasis - short term symptoms

Answer 58

Often ‘asymptomatic’

When present, symptoms include intestinal manifestations (diarrhoea, abdominal pain), general malaise and weakness

Nutritional status often impaired, sometimes causing death by

• intestinal bleeding,
• anaemia,
• loss of appetite,
• anorexia, diarrhoea or dysentery,
• reducing absorption of micronutrients

Question 59

Soil transmitted helminthiasis - complications

Answer 59

Complications that require surgical intervention (intestinal obstruction and rectal prolapse).

Worsening school performance – cognitive defects

Question 60

Concomitant infections

Answer 60

Concomitant infections with other parasite species are frequent

• may have additional effects on nutritional status and organ pathology.

Question 61

Ascaris lumbricoides

Answer 61

Nematoda – roundworm

Question 62

The lifecycle of Ascaris

Answer 62

Eggs are highly resistant to harsh environmental conditions

must mature in the soil for a few weeks before becoming infective.

(Worms are not directly transmitted between human hosts.)

Question 63

Symptoms of Ascaris lumbricoides

Answer 63

Clinical ascariasis can include fever, wheezing, shortness of breath.
Heavy worm loads can cause malabsorption of nutrients, obstruction of ducts (bile, pancreatic)

Question 64

Diagnosis

Answer 64

Fertilised eggs rounded - thick shell with an external mammillated (rounded lumps) layer
Fertile eggs 45 to 75 µm in length.

Unfertilised eggs elongated and larger (up to 90 µm).
Shell is thinner
Contain a mass of refractile granules.

Question 65

Trichuris trichiura - lifecycle

Answer 65

Question 66

unembryonated eggs

Answer 66

The unembryonated eggs are passed with the stool.

In the soil, the eggs develop into a 2-cell stage, an advanced cleavage stage, and then they embryonate

Question 67

Embryonated eggs

Answer 67

eggs become infective in 15 to 30 days.

After ingestion (soil-contaminated hands or food), the eggs hatch in the small intestine, and release larvaethat mature and establish themselves as adults in the colon

Question 68

Adult worms

Answer 68

The adult worms (approximately 4 cm in length) live in the cecum and ascending colon.

The adult worms are fixed in that location, with the anterior portions threaded into the mucosa.

The females begin to oviposit 60 to 70 days after infection.

Female worms in the cecum shed between 3,000 and 20,000 eggs per day.

The life span of the adults is about 1 year.

Question 69

Trichuris trichiura - diagnosis

Answer 69

Question 70

Strongyloides stercoralis lifecycle

Answer 70

TheStrongyloideslife cycle is more complex than that of most nematodes with its alternation between free-living and parasitic cycles, and its potential for autoinfection and multiplication within the host.

Question 71

Free-living cycle

Answer 71

The rhabditiform larvae passed in the stool can either become infective filariform larvae (direct development), or free-living adult males and femalesthat mate and produce eggsfrom which rhabditiform larvae hatchand eventually become infective filariform larvae.

The filariform larvae penetrate the human host skin to initiate the parasitic cycle

Question 72

Parasitic cycle

Answer 72

Filariform larvae in contaminated soil penetrate the human skin, and by various, often random routes, migrate to the small intestine.

In the small intestine they mote twice and become adult female worms.

The females live threaded in the epithelium of the small intestine and by parthenogenesis produce eggs, which yield rhabditiform larvae.

Question 73

rhabditiform larvae

Answer 73

The rhabditiform larvae can either be passed in the stoolor can cause autoinfection.

In autoinfection, the rhabditiform larvae become infective filariform larvae, which can penetrate either the intestinal mucosa (internal autoinfection) or the skin of the perianal area (external autoinfection); in either case, the filariform larvae may disseminate throughout the body.

Question 74

Autoimmunity

Answer 74

To date, occurrence of autoinfection in humans with helminthic infections is recognized only inStrongyloides stercoralisandCapillaria philippinensisinfections.

In the case ofStrongyloides, autoinfection may explain the possibility of persistent infections for many years in persons who have not been in an endemic area and of hyperinfections in immunodepressed individuals.

Question 75

Migration of L3 larvae

Answer 75

Historically it was believed that the L3 larvae migrate via the bloodstream to the lungs, where they are eventually coughed up and swallowed.

However, there is also evidence that L3 larvae can migrate directly to the intestine via connective tissues

Question 76

Strongyloides stercoralis acute infection symptoms

Answer 76

Infection withS stercoralisoften mild or asymptomatic – may be increased peripheral blood eosinophil count as only marker.

Acute infection may give a characteristic cutaneous reaction as the larvae penetrate the skin, known as ground itch.

Question 77

Symptoms as larvae migrate

Answer 77

As the larvae migrate through the lungs they can produce respiratory symptoms, such as a dry cough or wheeze.

Question 78

Symptoms associated adult worms

Answer 78

Once adult worms reach the small intestine - vague gastrointestinal symptoms such as diarrhoea, anorexia, and vomiting, and epigastric pain worsened by eating.

Question 79

Chronic strongyloidiasis

Answer 79

common – lifelong infections

Question 80

Strongyloides stercoralis; Diagnosis

Answer 80

Diagnosis rests on the microscopic identification of larvae (rhabditiform and occasionally filariform) in the stool or duodenal fluid.

Question 81

Hookworms Lifecycle

Answer 81

Question 82

Hatching of larvea

Answer 82

Eggs are passed in the stool, and under favorable conditions (moisture, warmth, shade), larvae hatch in 1 to 2 days.

Question 83

rhabditiform larvae

Answer 83

The released rhabditiform larvae grow in the feces and/or the soil,

and after 5 to 10 days (and two molts) they become filariform (third-stage) larvae that are infective.

These infective larvae can survive 3 to 4 weeks in favorable environmental conditions.

Question 84

infecting humans

Answer 84

On contact with the human host, the larvae penetrate the skin and are carried through the blood vessels to the heart and then to the lungs.

They penetrate into the pulmonary alveoli, ascend the bronchial tree to the pharynx, and are swallowed.

The larvae reach the small intestine, where they reside and mature into adults.

Question 85

Adult worms

Answer 85

Adult worms live in the lumen of the small intestine, where they attach to the intestinal wall with resultant blood loss by the host.

Most adult worms are eliminated in 1 to 2 years, but the longevity may reach several years.

SomeA. duodenalelarvae, following penetration of the host skin, can become dormant (in the intestine or muscle).

Question 86

Transmission

Answer 86

In addition, infection byA. duodenalemay probably also occur by the oral and transmammary route.N. americanus, however, requires a transpulmonary migration phase.

Question 87

Symptoms

Answer 87

Iron deficiency anemia (caused by blood loss at the site of intestinal attachment of the adult worms) is the most common symptom of hookworm infection, and can be accompanied by cardiac complications.

Gastrointestinal and nutritional/metabolic symptoms can also occur.

In addition, local skin manifestations (‘ground itch’) can occur during penetration by the filariform (L3) larvae, and respiratory symptoms can be observed during pulmonary migration of the larvae.

Question 88

Diagnosis

Answer 88

The eggs ofAncylostomaandNecatorcannot be differentiated microscopically.
The eggs are thin-shelled, colourless and measure 60-75 µm by 35-40 µm.

Question 89

Tapeworm (cestodes) species

Answer 89

Taenia saginata
Taenia solium
T. asiatica.

Humans are the only definitive hosts for these three species.

Question 90

how tapeworm infection is acquired

Answer 90

Adult tapeworms are acquired by eating undercooked or raw meat containing larval stages.

Question 91

tapeworm infection

Answer 91

Tapeworms frequently infect humans, but are relatively harmless, despite their potential for reaching a large size.

Humans can also act as the intermediate hosts for certain species and the development of larval stages can cause severe disease.

Question 92

Transmission of tapeworms

Answer 92

Eggs or gravid proglottids are passed with feces

the eggs can survive for days to months in the environment.

Cattle (T. saginata) and pigs (T. soliumandT. asiatica) become infected by ingesting vegetation contaminated with eggs or gravid proglottids.

Question 93

Lifecycle in animal intestine

Answer 93

In the animal’s intestine, the oncospheres hatch, invade the intestinal wall, and migrate to the striated muscles, where they develop into cysticerci.

A cysticercus can survive for several years in the animal.

Question 94

Lifecycle stage in human intestine

Answer 94

Humans become infected by ingesting raw or undercooked infected meat.

In the human intestine, the cysticercus develops over 2 months into an adult tapeworm, which can survive for years.

The adult tapeworms attach to the small intestine by their scolexand reside in the small intestine.

Length of adult worms is usually 5 m or less forT. saginata(however it may reach up to 25 m) and 2 to 7 m forT. solium.

Question 95

proglottids

Answer 95

The adults produce proglottids which mature, become gravid, detach from the tapeworm, and migrate to the anus or are passed in the stool (approximately 6 per day).

T. saginataadults usually have 1,000 to 2,000 proglottids, whileT. soliumadults have an average of 1,000 proglottids.

The eggs contained in the gravid proglottids are released after the proglottids are passed with the feces.T. saginatamay produce up to 100,000 andT. soliummay produce 50,000 eggs per proglottid respectively.

Question 96

Cysticercosis

Answer 96

Cysticercosis is a tissue infection caused by larval cysts of the tapeworm Taenia solium.

Question 97

How Cysticercosis is acquired

Answer 97

People infected by swallowing eggs found in the faeces of a person with an intestinal tapeworm.

Question 98

How eggs develop

Answer 98

Eggs develop into larval stages and form cysts in the brain, muscle or other tissue.

Question 99

complications

Answer 99

An important cause of adult onset seizures in several low income countries where sanitation is poor.

Question 100

Several species of fluke (trematodes) can mature in humans

Answer 100

Three main species

Question 101

Where fluke develop in humans

Answer 101

developing in the intestines, lungs, liver and blood vessels.

Question 102

the parasite in the environment

Answer 102

Infection occurs when skin comes in contact with contaminated freshwater in which certain types of snails that carry the parasite are living.

Freshwater becomes contaminated by Schistosoma eggs when infected people urinate or defecate in the water.

Question 103

eggs hatching

Answer 103

The eggs hatch, and if the appropriate species of snails are present in the water, the parasites infect, develop and multiply inside the snails.

The parasite leaves the snail and enters the water where it can survive for about 48 hours.

Question 104

Penetrating and migrating in humans

Answer 104

Schistosoma parasites can penetrate the skin of persons who come in contact with contaminated freshwater, typically when wading, swimming, bathing, or washing.

Over several weeks, the parasites migrate through host tissue and develop into adult worms inside the blood vessels of the body.

Question 105

maturing worms

Answer 105

Once mature, the worms mate and females produce eggs.

Some of these eggs travel to the bladder or intestine and are passed into the urine or stool.

Question 106

cause of symptoms of schistosomiasis

Answer 106

are caused not by the worms themselves but by the body’s reaction to the eggs.

Eggs shed by the adult worms that do not pass out of the body can become lodged in the intestine or bladder, causing inflammation or scarring.

Question 107

repeat infections

Answer 107

Children who are repeatedly infected can develop anemia, malnutrition, and learning difficulties.

After years of infection, the parasite can also damage the liver, intestine, spleen, lungs, and bladder.

Question 108

Common Symptoms

Answer 108

Most people have no symptoms when they are first infected.

However, within days after becoming infected, they may develop a rash or itchy skin.

Within 1-2 months of infection, symptoms may develop including fever, chills, cough, and muscle aches.

The acute phase is coincident with first egg release and is characterised by allergic responses (overwhelming immune complex formation), resulting in pyrexia, fatigue, aches, lymphadenopathy, gastrointestinal discomfort and eosinophilia.

Question 109

Chronic schistosomiasis

Answer 109

Without treatment, schistosomiasis can persist for years.
The chronic phase occurs in response to the cumulative deposition of fluke eggs in tissues and the host reactions that develop against them.

Signs and symptoms of chronic schistosomiasis include: abdominal pain, enlarged liver, blood in the stool or blood in the urine, and problems passing urine.

Chronic infection can also lead to increased risk of bladder cancer.

Rarely, eggs are found in the brain or spinal cord and can cause seizures, paralysis, or spinal cord inflammation.

Question 110

Schistosomiasis (or bilharzia) course of infection

Answer 110

divided into three phases: migratory, acute and chronic.

The migratory phase occurs when cercariae penetrate and migrate through the skin.
This is often asymptomatic, but in sensitized patients, it may cause transient dermatitis
(‘swimmers itch’), and occasionally pulmonary lesions and pneumonitis.

Question 111

Evidence that chronic infection predisposes to cancer

Answer 111

S. haematobium – bladder cancer

S. mansoni – colorectal cancer??