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Question 1

Parasite/s found in Crabs, shrimp

Answer 1

Gnathostoma

Question 2

Parasite/s found in Freshwater Fish

Answer 2

Capillaria

Question 3

Parasite/s found in Marine fish

Answer 3

Anisakis, Gnathostoma, Pseudoterranova

Question 4

Parasite/s found in Fruits, vegetables

Answer 4

Angiostrongylus, Ascaris

Question 5

Parasite/s found in Squid

Answer 5

Anisakis

Question 6

Parasite/s found in Water

Answer 6

Ascaris, Gnathostoma

Question 7

Parasite/s found in Other Meat

Answer 7

Gnathostoma (frogs, snakes)
Trichinella (bear, cougar , horse, walrus, wild boar)

Question 8

humans can get the disease from animal exposure (usually through ingestion – inadequate cooking/improper preparation)

Answer 8

ZOONOTIC PARASITES

Question 9

Meat-borne parasites occurring in livestock (domesticated animals)

Answer 9

Farm to Fork Food Chain

Question 10

Trichinella (infective encysted larvae is found in pork muscle) is example of what food chain

Answer 10

Farm to Fork Food Chain

Question 11

Meat-borne parasites occurring in wildlife (bears, cougars, etc.)

Answer 11

Forest to Fork Food Chain

Question 12

Example of Forest to Fork Food Chain

Answer 12

Trichinella

Question 13

Fish-borne parasites –consumption of either
freshwater/seawater (aquatic/marine) fishes

Answer 13

Freshwater/Ocean/Pond to Fork Food Chain

Question 14

Example of Freshwater/Ocean/Pond to
Fork Food Chain

Answer 14

Anisakis – usually from seawater and brackish water
Capillaria – ingestion of freshwater fish

Question 15

• A metastrongyloid parasite (that occurs in the lungs of mammals)

Answer 15

Angiostrongylus

Question 16

Rat Lungworm

Answer 16

Angiostrongylus/Parastrongylus cantonensis

Question 17

Disease caused by A. cantonensis

Answer 17

Angiostrongyliasis, Eosinophilic meningitis/ Neural angiostrongyliasis

Question 18

target is CNS occasionally, ocular disease

Answer 18

Angiostrongyliasis, Eosinophilic meningitis/ Neural angiostrongyliasis

Question 19

Disease caused by A. costaricensis

Answer 19

Angiostrongyliasis, Eosinophilic gastroenteritis (abdominal/intestinal angiostrongyliasis)

Question 20

Definitive host A. cantonencis

Answer 20

• Black/ House/ Roof/ Ship rat (Rattus rattus)
• Brown/Norway rat (Rattus norvegicus)
• Hispid cotton rat (Sigmodon hispidus)

Question 21

Definitive host A. costaricensis

Answer 21

• Hispid cotton rat (Sigmodon hispidus) – Main
• Black rat (Rattus rattus)
• Pygmy rice rat (Oligoryzomys fulvescens)
• Short-tailed canemouse/ short-tailed zygodonts (Zygodontomys brevicauda)
• Spiny pocket mice (Heteromys adsperus)

Question 22

Intermediate host of A. cantonensis

Answer 22

Gastropod (slugs and snails):
- Achatina spp.
- Biomphalaria spp.
- Bulinus spp.
- Lymnaea spp.
- Pomaecea spp.
In the Philippines:
* Achatina fulica (Giant African snail)
* Helicostyla macrostoma
* Hemiplecta sagittifera
* Vaginilus plebeius
*Veronicella altae

Question 23

Intermediate host of A. costaricensis

Answer 23

Gastropod (slug):
- Limacidae family
- Veronicellidae family

Question 24

Aberrant/ Incidental host of A. cantonensis

Answer 24

Humans, birds, wild and domestic mammals

Question 25

Aberrant/ Incidental host of A. costaricensis

Answer 25

Humans, non-human primates, and other mammals (opossum, raccoons)

Question 26

Distribution of A. cantonensis

Answer 26

Predominant in SEA, tropical Pacific Islands; seen also in Africa, Australia, Caribbean, Hawaii and Southern US

Question 27

Distribution of A. costaricensis

Answer 27

Caribbean, Latin America

Question 28

Specimen for A. cantonensis

Answer 28

Brain tissue, CSF (Neural)

Question 29

Specimen for A. costaricensis

Answer 29

Intestinal tissue section

Question 30

Laboratory Diagnosis of A. cantonensis

Answer 30

Abnormal CSF:
* Elevated pressure
* (+) protein
* (+) leukocyte
* Eosinophilia
* Rarely: (+) parasite larvae

Presence of proteins and leukocyte are signs of non-specific inflammatory reactions

Question 31

Laboratory Diagnosis of A. costaricensis

Answer 31

Finding of eggs, larvae, or adult in tissue sections taken through biopsy/surgery

Question 32

Molecular diagnosis of A. cantonensis

Answer 32

CSF real-time PCR –identification of parasite genes in a sample

Question 33

Molecular diagnosis of A. costaricensis

Answer 33

Tissue conventional PCR, then DNA sequence analysis (no specific molecular test is available)

Question 34

Treatment for A. cantonensis

Answer 34

None (Supportive treatment only)

Question 35

Treatment for A. costaricensis

Answer 35

None, but may require surgery

Question 36

Prevention and Control for A. cantonensis

Answer 36

• Health education
• Avoid consumption of raw/undercooked slugs, snails, freshwater shrimps, land crabs, frogs, monitor lizards (transport hosts), or contaminated vegetable and vegetable juices
• Remove slugs, snails, and rats near gardens and houses
• Thoroughly wash vegetables if eaten raw

Question 37

Prevention and Control for A. costaricensis

Answer 37

• Health education
• Avoid consumption of raw/undercooked slugs or contaminated vegetable/vegetable juices
• Remove slugs and rats near gardens and houses
• Throughly wash hands and utensils after preparing slugs
• Thoroughly wash vegetables if eaten raw

Question 38

Cantonensis: first found in

Answer 38

Canton, China

Question 39

Costaricensis: first found in

Answer 39

Costa Rica

Question 40

group of parasites that reside in lungs of certain mammals

Answer 40

Metastrongyloid

Question 41

: reside in lungs of rodents

Answer 41

Angiostrongylus

Question 42

Lifecycle of Angiostrongylus cantonensis

Answer 42

1) Eggs hatch in lungs, first stage larvae are passed in rodent feces
2) First-stage larva shed from definitive host are ingested by gastropod (intermediate host)
3) Larvae reach infective stage (L3) after two molts in the intermediare host
4) Third-stage larva are ingested by the definitive host
5) Accidental ingestion of gastropod or larvae (e.g. contaminated produce)
6) Larvae migrate to the brain (occasionally eyes or lungs) in aberrant human host, and DO NOT REACH REPRODUCTIVE MATURITY

Question 43

Lifecycle of Angiostrongylus costaricensis

Answer 43

differ in target area from A. cantonensis (intestine)
* Larvae migrate to intestinal wall and maturation may occur
* Adult parasites reside in the ileocecal mesenteric arteries

Question 44

Morphology of Adult A. cantonensis - Female

Answer 44

• Bigger than male (3 cm long)
• Barber’s pole appearance of the parasite
• Vaginal opening (vulva) at the subterminal posterior portion of the body
• Made up of:
• dark red intestine tract filled with blood intertwined; with
• a pair of the white genital tract (uterus)

Question 45

Morphology of Adult A. cantonensis - Male

Answer 45

• Posterior end showing a small bursa—used for copulation and two copulatory spicules

Question 46

• Extraintestinal nematode
• An aphasmid worm (Adenophorea) with Capillaria, Trichuris, and Hymenolepis nana
  (aphasmid cestode

Answer 46

Trichinella spp.

Question 47

sensory organ found in the posterior part of nematodes

Answer 47

Phasmid

Question 48

Aphasmid Nematodes

Answer 48

Trichuris, Capillaria, Trichinella

Question 49

Source and Distribution of T. spiralis

Answer 49

Carnivorous and omnivorous animals (Pigs=primary reservoir host) - Worldwide

Question 50

Source and Distribution of T. pseudospiralis

Answer 50

Birds and mammals - Worldwide

Question 51

Source and Distribution of T. britovi

Answer 51

Carnivorous animals - Worldwide

Question 52

Source of T. nativa

Answer 52

Arctic bears

Question 53

Source and Distribution of T. nelsoni

Answer 53

African predators and scavengers

Question 54

Source and Distribution of T. papuae

Answer 54

Wild and domesticated pigs - Papua New Guinea and Thailand

Question 55

Common name of T. spiralis

Answer 55

Garbage/pork/trichina worm

Question 56

Disease caused by T. spiralis

Answer 56

Trichinellosis/Trichinosis, Neurotrichinellosis –affects the CNS due to larva migration

Question 57

Definitive/intermediate and reservoir host of T. spiralis

Answer 57

Pigs/rats

Question 58

Aberrant host of T. spiralis

Answer 58

Humans

Question 59

MOT of T. spiralis

Answer 59

Ingestion of muscle tissue infected with encysted larvae (consumption of undercooked pork)

Question 60

Habitat of T. spiralis

Answer 60

Small intestine – jejunum (Adults) Striated muscle (Larvae)
Larvae → distribute throughout the muscles due to intestinal absorption and circulation

Question 61

Manner of Reproduction of T. spiralis

Answer 61

Viviparous
* Male dies after fertilizing the female
* Female dies after 16 weeks (after discharging the larvae)

Question 62

Target site of larva: (T. spiralis)

Answer 62

striated smooth muscle

Question 63

Clinical Manifestations of T. spiralis

Answer 63

Diarrhea, facial edema, fever, headache,
myalgia

Neurotrichinellosis

Question 64

• Sequelae (consequence) of severe
  trichinella infection
• Encelopathy
• Neuromuscular disturbance
• Ocular involvement

Answer 64

Neurotrichinellosis

Question 65

(T. spiralis) 10 larvae =

Answer 65

Asymptomatic

Question 66

(T. spiralis) 50-500 larvae =

Answer 66

Symptomatic (moderate infection)

Question 67

(T. spiralis) 1000-3000 larvae =

Answer 67

Severe infetion

Question 68

Phases of the Neurotrichinellosis: – incubation and intestinal invasion

Answer 68

Enteric Phase

Question 69

Phases of the Neurotrichinellosis – larval migration and muscle invasion

Answer 69

Invasion Phase

Question 70

Phases of the Neurotrichinellosis - encystment and encapsulation

Answer 70

Covalescent Phase

Question 71

Diagnosis (T. spiralis)

Answer 71

Muscle biopsy
Muscle digestion technique using HCl and Pepsin
Serology
Molecular techniques
Nonspecific tests:

Question 72

demonstration of larvae in histological examination of 0.2-0.5 gram of muscle tissue) – most definitive diagnosis of T. spiralis

Answer 72

Muscle biopsy

Question 73

Commonly used muscle for Muscle Biopsy

Answer 73

DELTOID MUSCLE

Question 74

determine the number of larvae per gram muscle

Answer 74

Muscle digestion technique using HCl and Pepsin

Question 75

Disadvantage of Muscle digestion technique using HCl and Pepsin

Answer 75

Younger larvae may be digested, hence used to digest 10-12 days old muscle larvae (can be done 2-3 weeks post-infection)

Question 76

(T. spiralis) Diagnosis - Serology

Answer 76

• ELISA
• Western Blot technique – confirmatory
  test
• Latex agglutination – rapid test, non-conclusive due to cross-reactions (with Strongyloides stercoralis); screening tests for initial diagnosis

Question 77

(T. spiralis) Diagnosis - Molecular Techniques

Answer 77

Polymerase Chain Reaction (PCR)

Question 78

(T. spiralis) Diagnosis - Non specific tests

Answer 78

• Eosinophilia
• Increased muscle enzymes (XK, LDH, myokinase) due to muscular damage
• Increased total serum IgE

Question 79

(T. spiralis) GROUP A Symptoms

Answer 79

Fever, eyelid and/or facial edema, myalgia

Question 80

(T. spiralis) GROUP B Symptoms

Answer 80

Diarrhea, neurological signs, cardiac signs,
conjunctivitis, subungual hemorrhages,
cutaneous rash

Question 81

(T. spiralis) GROUP C Symptoms

Answer 81

Eosinophilia (>1,000/mL blood) and/or
increased total IgE levels, increased levels of
muscular enzymes

Question 82

(T. spiralis) GROUP D Symptoms

Answer 82

Positive serology (with a highly specific test)

Question 83

(T. spiralis) 3 Group A and one Group C symptoms - INTERPRETATION

Answer 83

Probable

Question 84

(T. spiralis) only 1 symptom from Group A, B, or C
- INTERPRETATION

Answer 84

Very unlikely

Question 85

(T. spiralis) the presence of 1 symptom from Group A or two from Group B, and one from
Group - INTERPRETATION

Answer 85

Suspect

Question 86

(T. spiralis) presence of 3 Group A and 2 Group C symptoms - INTERPRETATION

Answer 86

Highly probable

Question 87

(T. spiralis) 3 Group A, 2 Group C, 1 Group D; or any of symptoms from Group A or B, and one from Group C and one from Group D - INTERPRETATION

Answer 87

Confirmed

Question 88

Trichinella spiralis - Human Lifecycle (Accidental/Aberrant)

Answer 88

1) Human ingestion of infected pig (most likely means of transmission)
2) Processed meat, ham, sausage (homemade)
3) Improperly cooked meat ingested by human
4) DEAD END

Question 89

Trichinella spiralis - Pig Lifecycle

Answer 89

1) Pig eat larva → enzymes digest meat, larva remain → small intestine
2) Larva excysts in small intestine and develops to adult (copulation)
3) L1 larva deposited and absorbed in intestinal tissue
4) Enter blood circulation
5) Enter striated muscle
6) Encysts in muscle cells

Question 90

Three Lifecycles of T. spiralis

Answer 90

• Urban/Domestic
• Marine
• Sylvatic

Question 91

Lifecycles of T. spiralis - Poorly cooked pork is ingested/eaten by man

Answer 91

Urban/Domestic

Question 92

Lifecycles of T. spiralis - Predators and scavengers become hosts of the parasite

Answer 92

Sylvatic

Question 93

Lifecycles of T. spiralis - Polar bears, seals, walruses, and whales become hosts of the parasite

Answer 93

Marine

Question 94

Morphology of T. Spiralis - Adult

Answer 94

• Females are larger than males
• Smallest nematodes in human
• Male
  
  • No spicule
  • Pair of conspicuous papillae (claspers) – uses to hold female during reproduction
• Females are VIVIPAROUS (not sure)

Question 95

Morphology of T. Spiralis - Larva

Answer 95

• 80x7-8 mcm
• Encysted larva: 1 mm length x 36 mcm
• NOTE: encystation only occur in striated muscles (not in other tissues as they degenerate and are absorbed → calcification

Question 96

Lifespan of T. Spiralis (encysted)

Answer 96

5-10 years, or up to 40 years (chronic infection especially if asymptomatic)

Question 97

Calcification of infected muscle cell + larva:

Answer 97

6-12 months post-infection
- Creation of a nurse cell is 6-12 months
- Pepsin-HCl digestion releases larva from nurse cell

Question 98

• Muscle biopsy (get sample)
• Add HCl-Pepsin to digest muscle to release encysted larvae

Answer 98

Pepsin-HCl digestion as Diagnostic Tool (Muscle Digestion Technique

Question 99

T. Spiralis Treatment - Mebendazole

Answer 99

5 mg/kg daily for 10-15 days

Question 100

T. Spiralis Treatment - Albendazole

Answer 100

15 mg/kg of body weight daily in 2 divided doses for 10-15 days

Children >=2 years old: 10mg/kg body weight daily in 2 divided doses for 10-15 day

Question 101

T. Spiralis Treatment - Thiobendazole

Answer 101

Not used for adverse drug reactions

Question 102

T. Spiralis Treatment -Supportive treatments
(analgesics, antipyretics, corticosteroids)

Answer 102

Control symptoms (corticosteroids= control hypersensitivity from larvae. Treat myosistis and vasculitis)

Question 103

T. Spiralis Prevention and Control

Answer 103

• Health education
• Adequate cooking of meat (minimum of +77 C or +170 F)
• Freezing or storing at -15 C for 20 days or -30 C C for 6 days
• Regular animal monitoring
• Keep pigs in rat-free pens
• Proper disposal of suspected carcasses

Question 104

NOTE: Salting, smoking, or drying of meat DOES NOT KILL THE LARVAE of T. spiralis

Answer 104

OMSIM lods