1. Department of Microbiology and Parasitology
TREMATODES
Department of
Microbiology and Parasitology

2. CLASSIFICATION OF MEDICALLY IMPORTANT GROUPS AND SPECIES OF TREMATODES
PHYLUM: Platyhelminthes
CLASS: Trematoda (flukes)
Subclass Digenea
1. Order Strigeiformes
a. Superfamily Schistosomatoidea Family Schistosomatidae
1) Schistosoma haematobium
2) Schistosoma mansoni
3) Schistosoma japonicum

3. CLASSIFICATION OF MEDICALLY IMPORTANT GROUPS AND SPECIES OF TREMATODES
1. Order Strigeiformes
b. Superfamily Echinostomatoidea Family Fasciolidae
Fasciola hepatica
Fasciola gigantica
Fasciolopsis buski
Family Echinostomatidae
Echinostoma ilocanum

4. CLASSIFICATION OF MEDICALLY IMPORTANT GROUPS AND SPECIES OF TREMATODES
PHYLUM: Platyhelminthes
CLASS: Trematoda (flukes)
Subclass Digenea
2. Order Opisthorchiformes
Family Opisthorchiidae
Genus Clonorchis
Clonorchis sinensis
Genus Opisthorchis
Opisthorchis felineus
Opisthorchis viverrini
Family heterophyidae
Heterophyes heterophyes

5. CLASSIFICATION OF MEDICALLY IMPORTANT GROUPS AND SPECIES OF TREMATODES
PHYLUM: Platyhelminthes
CLASS: Trematoda (flukes)
Subclass Digenea
3. Order Plagiorchiformes
Family Troglotrematidae
Paragonimus westermani

6. CLASSIFICATION OF MEDICALLY IMPORTANT GROUPS AND SPECIES OF TREMATODES
Species which inhabit the portal blood stream of vertebrates.
Schistosoma japonicum
Schistosoma mansoni
Schistosoma haematobium

7. CLASSIFICATION OF MEDICALLY IMPORTANT GROUPS AND SPECIES OF TREMATODES
Species which inhabit the liver of vertebrates
Fasciola hepatica
Clonorchis sinensis
Opisthorchis felineus

8. CLASSIFICATION OF MEDICALLY IMPORTANT GROUPS AND SPECIES OF TREMATODES
Species which inhabit the small intestines of vertebrates
Fasciolopsis buski
Echinostoma ilocanum
Heterophyid group
Species which inhabit the lungs of vertebrate
  Paragonimus westermani

9. Echinostoma ilocanum

10. Echinostoma ilocanum Euparyphium ilocanum
Common name: Garrison’s fluke
-the species was formerly Echinostoma
- Huffman and Fried considered it in a related genus Eupharium
A. EPIDEMIOLOGY
the eggs of this fluke was first discovered by Garrison among prisoners of the Bilibid Prison in Manila
Tubangi in 1933 completed its life cycle
It is endemic in the Ilocos provinces, Leyte, Samar and Mindanao
Man acquires the infection from eating raw snail
Pila luzonica called “kuhol”

11. Echinostoma ilocanum Euparyphium ilocanum
B. MORPHOLOGY
1. Adult
adults are reddish gray in color when alive
measuring 2.5 – 6.5 mm in length by mm breadth
the anterior end is provided with a circumoral disk surrounded with a crown of 49 – 51 spines
the integumen is covered with plaque-like scales
the oral sucker lies in the center of the oral disk,
the ventral sucker is located in the anterior fifth of the body proper
the tests are deeply lobed and are located posteriorly
the ovoidal ovary is located in front of the testes

12. Echinostoma ilocanum Euparyphium ilocanum

13. Echinostoma ilocanum Euparyphium ilocanum
B. MORPHOLOGY
2. Ovum
the eggs are straw colored, operculated, ovoidal measuring microns by microns
they are immature when passed in the feces
the eggs may be mistaken for Fasciola or Fasciolopsis eggs except that they are slightly smaller and the operculum appears like a tiny dot on the egg shell

14. Echinostoma ilocanum Euparyphium ilocanum

16. Echinostoma ilocanum Euparyphium ilocanum
B. MORPHOLOGY
3. Cercariae
has a simple tail and a body resembling in miniature form that of the adult

17. Echinostoma ilocanum Euparyphium ilocanum
C. LIFE CYCLE
The definitive host are man, dog, rats and other snail eating mammals
The adult worms inhabit the small intestines and lay immature eggs (unembryonated) which are passed out in the feces
The eggs mature in fresh water in 6-15 days hatch and librates the miracidia

18. The free-swimming miracidia penetrate the first intermediate host a snail
Gyraulus convexiusculus
The miracardia metamorphose into mother rediae and produce in turn, daughter rediae and cercariae
  The free-swimming cercariae leave the body of the snail and encyst in another fresh-water snail, Pila luzonica, the second intermediate host

19. The metacercariae is the infective stage to man.
When ingested by man or other animals it excysts and matures in the small intestines

21. Echinostoma ilocanum Euparyphium ilocanum
Lumnaea spp. 2nd IH
Radix spp. 1st IH

22. Gyraulus spp. An IH
Viviparus spp. 2nd IH

23. Cobicula spp. 2nd IH

24. Echinostoma ilocanum Euparyphium ilocanum
D. PATHOLOGY
little damage is caused to the intestinal mucosa by attachment of these flukes
Clinical Features: Inflammation and mild ulceration often occurs due to the penetration of the sharp-spined collar into the intestinal mucosa.  In heavy infections, nausea, vomiting, diarrhea, fever and abdominal pain may occur.

25. Echinostoma ilocanum Euparyphium ilocanum
E. DIAGNOSIS
specific diagnosis is based on demonstration of eggs in the patient’s stools
Because the eggs are large, careful measurements must be taken to avoid confusion with the eggs of Fasciola or Fasciolopsis.  Species-level identification cannot be done based on egg morphology and adults are needed for a definitive diagnosis.
F. TREATMENT
Praziquantrel
G. PREVENTION AND CONTROL
Thorough cooking of snails in endemic areas

26. Chlonorchis

27. Chlonorchis sinensis Common name: Chinese liver fluke
- first discovered in the bile passages of a Chinese carpenter in Calcutta in 1875
A. EPIDEMIOLOGY:
occurs in large areas of China ( including Taiwan ) Japan, Korea, and Vietnam.
 Clonorchiasis has been reported in non endemic areas (including the United States).  In such cases, the infection is found in Asian immigrants, or following ingestion of imported, undercooked or pickled freshwater fish containing metacercariae.

28. Chlonorchis sinensis B. MORPHOLOGY: 1. Adult of moderate size,
from cm. by cm.
broadest in the midportion of the body tapering towards both ends
adult worm live in the bile ducts and apparently localize first in the more distal portions, just under the capsule of the liver
adult worm are known to live as long as 30 years

29. Clonorchis sinensis

30. Chlonorchis sinensis

31. Chlonorchis sinensis B. MORPHOLOGY: 1. Ovum
eggs resemble very closely those of Heterophyes and Metagonimus but may have a small comma-shaped process at the abopercular end
the average length is 29 microns

32. Chlonorchis sinensis Small knob at abopercular end
Note operculum resting on “shoulders”

33. Chlonorchis sinensis

34. Chlonorchis sinensis C. LIFE CYCLE:
Eggs are passed out in the feces which reaches water.
The egg is ingested by a snail and it hatches in the snails intestine releasing a miracidium.
The miracidium bores in to the tissue of the snail producing a cercariae.
The cercariae encyst in the second intermediate host which is a fresh water fish producing a metacercariae.
Man gets infected by eating fresh water fish.
 The metacercariae excyst in the small intestine.

36. Chlonorchis sinensis
Parafossarulus manchouricus, the most common snail host of C. sinensis in endemic areas in southeast Asia.
Bithynia sp., another common intermediate host of C. sinensis.

37. Chlonorchis sinensis D. PATHOLOGY
1. light infections are generally asymptomatic
heavier infections, if acquired over an extended period, seldom cause early symptoms
the symptoms include fever, diarrhea, epigastric pain, anorexia, enlargement and tenderness of the liver
there may be leukocytosis and eosinophilia
eggs appear in the feces after a month and acute symptoms subside
once the acute symptoms subside persons not subject to repeated reinfection generally do not have any recognizable symptoms from the chronic low-grade infections

38. Chlonorchis sinensis D. PATHOLOGY Heavy worm burdens
as a result of repeated infections over a period of years may result to localized biliary obstruction at times aggravated by intrahepatic stone formation, cholangitis and the formation of multiple liver abscesses
cholecystisis and cholelithiasis may be the result of invasion of the gallbladder by these worms

39. Chlonorchis sinensis D. PATHOLOGY
Thickening and localized dilatation of the bile ducts is seen in heavy infections, accompanied by moderate to marked hyperplasia of the small mucinous glands
These changes may persist for many years in patients whose infections have become very light
Hou ( 1965 ) described adenocarcinoma (cholangiocarcinoma) arising from the hyperplastic bile duct mucosa in persons infected with C. sinensis and concluded that they have been induced by the infection

40. Chlonorchis sinensis E. DIAGNOSIS: recovery of the eggs from the feces
recovery of the eggs from duodenal aspirates or the enteric capsule
compliment fixation and intradermal tests – not generally available
F. TREATMENT : 
Praziquantrel

41. Opisthorchis

42. Opisthorchis felineus
as the name implies it parasitizes cats
in areas where human population eat raw fish, humans are also infected
it also inhabits bile ducts and produces much the same disease picture
the life cycle is also similar to Clonorchis sinensis
the adult Opisthorchis felineus differs from C. sinensis only in some relatively minor details of structure
eggs of O. felineus are narrower than those of C. sinensis and otherwise they are indistinguishable

43. The eggs are operculated and possess prominent opercular 'shoulders' and abopercular knob. 
Eggs of Opisthorchis spp. are µm long by µm wide and are often indistinguishable from the eggs of Clonorchis sinensis

44. Opisthorchis

45. Opisthorchis
Opisthorchis felineus
Opisthorchis viverrini

46. Clonorchis sinensis
Opisthorchis felineus

47. Opisthorchis
Snails in the genera Bithynia and Cordiella may serve as a first intermediate host for Opisthorchis spp.

48. Opisthorchis
The adult flukes deposit fully developed eggs that are passed in the feces
After ingestion by a suitable snail (first intermediate host) , the eggs release miracidia , which undergo in the snail several developmental stages (sporocysts , rediae , cercariae ). 
Cercariae are released from the snail and penetrate freshwater fish (second intermediate host), encysting as metacercariae in the muscles or under the scales . 
The mammalian definitive host (cats, dogs, and various fish-eating mammals including humans) become infected by ingesting undercooked fish containing metacercariae. 
After ingestion, the metacercariae excyst in the duodenum and ascend through the ampulla of Vater into the biliary ducts, where they attach and develop into adults, which lay eggs after 3 to 4 weeks . 
The adult flukes (O. viverrini: 5 mm to 10 mm by 1 mm to 2 mm; O. felineus: 7 mm to 12 mm by 2 mm to 3 mm) reside in the biliary and pancreatic ducts of the mammalian host, where they attach to the mucosa.

50. Heterophyid family

51. Heterophyid THE FAMILY HETEROPHYIDAE
The more common species are the following:
Heterophyes heterophyes
Metagonimus yokogawai

52. Heterophyid A. EPIDEMIOLOGY
practically all species are potential parasites of man and 14 species have been found infecting man
Heterophyes and Metagonimus occur in Japan, Korea, China, Taiwan and the Philippines
In the Philippines, dogs, cats and birds are important reservoir host
Man acquires the infection from consumption of raw fresh water or brackish water fishes
Fishermen, boatman, hunters, mining prospectors, rangers and other persons whose occupations being them to close associations with marine life are probably more prone to eat fish in the raw state.

53. Heterophyid B. MORPHOLOGY 1. Adult
the family heterophyidae are small, elongated, oval or pyriform, measuring less than 2 man in length
the cuticle is covered with fine scale-like spines
in other species, beside the oral and ventral suckers, there is a genital sucker or gonotyle situated near the ventral sucker. The gonotyle is provided with spines

55. Heterophyes heterophyes
Metagonimus yokogawai

56. Heterophyid B. MORPHOLOGY 2. Ovum
the eggs are minute, operculated, ovoidal, light brown in color and measure by microns
the eggs when oviposited are already mature and contain fully developed miracidia
those of heterophyes are on average very lightly larger than those of Metagonimus but differences are too slight to be of value
the eggs closely resemble in size and shape those of worms belonging to the genera Clonorchis and Opisthorchis

57. Heterophyid C. LIFE CYCLE
The definitive hosts are man, cat and other flesh eating mammals.
The adult flukes inhabit the small intestines of the definitive hosts.
Eggs containing fully developed miracidia are passed out in the feces and upon reaching a body of water they are ingested by the appropriate snail host
The first intermediate host may be any fresh water as brackish water snail
Inside the snail, the miracidium is liberated from the egg and passes stages of sporocyst, one or two redial generation and then cercariae
The free living cercariae escape from the snail host and encyst in the second intermediate hosts which may be any fresh water or brackish water fish
The encysted metacercariae are attached to the fish scales in fins, tails and
Upon ingestion of raw infected fish the metacercariae excyst in the duodenum and attach to the wall of the small intestines

59. Heterophyid
Cerithideopsilla cingulata is the main first intermediate host for H. heterophyes in southeast Asia.

60. Heterophyid D. PATHOLOGY
Adult flukes provoke inflammation at the site of attachment in the intestinal mucosa there is mild irritation, colicky pains, mucus diarrhea and superficial necrosis of the mucus coat
In the Philippines, it has been found that heterophyid eggs or adults may be filtered thru the intestinal wall and brought to the heart muscles via the blood circulation granulomas that form around these eggs produce cardiac insufficiency
Eggs may also be carried to the spinal cord resulting loss of motor and sensory functions
Eggs carried to the brain may result in seizures and neurologic deficits or even cerebral hemorrhage

61. Heterophyid E. DIAGNOSIS
diagnosis is based on the recovery of eggs in the stool
eggs are difficult to differentiate from those of Clonorchis and Opistorchis
the egg contain fully developed miracidium which has the internal organs arranged in bilateral symmetry
Cardiac heterophyidiasis may be mistaken for cardiac beri-beri since they resemble closely the gross appearance of the latter
there is thickening of the right ventricle however tissue sections will reveal eggs of heterohyids or even adults

62. Heterophyid F. TREATMENT Praziquantrel 25 mg / kg p.o tid x 1 day
G. PREVENTION AND CONTROL 
avoiding ingestion of raw or inadequately cooked fresh water or brackish water fishes

63. Paragonimus westermani

64. Paragonimus westermani
Common name: Oriental lung fluke
Disease: Paragonimiasis
A. EPIDEMIOLOGY
because of its distribution and its spotty distribution and its low prevalence it is not considered a public health problem at the moment
the endemic foci are Sorsogon, Camarines, Samar, Leyte, Mindoro, Agusan and some provinces in Mindanao

65. Paragonimus westermani
B. MORPHOLOGY
1. Adult
the habitat of this fluke is in the lungs where they are encapsulated in pockets or cystic structures adjacent to the bronchi
the adult fluke is ovoid, reddish brown in color and measures 7.5 – 12 mm in length by 4-6 mm breadth resembling a coffee bean

66. Paragonimus westermani
They are hermaphroditic, with a lobed ovary located anterior to two branching testes. Like all members of the Trematoda, they possess oral and ventral suckers.
Adults of Paragonimus spp. are large, robust, ovoid flukes

67. Paragonimus westermani

68. Paragonimus westermani
B. MORPHOLOGY
2. Ovum
the eggs are golden brown in color, oral and provided with flattened operculum which is distinctly set off from the rest of the shell by raised opercular shoulders
the eggs measure microns and are immature when oviposited
3. Metacercariae
round and measures not more than 0.5 mm in diameter
this is infective stage for man and other definitive hosts

69. The eggs are unembryonated when passed in sputum or feces.
they are yellow-brown, ovoid or elongate, with a thick shell, and often asymmetrical with one end slightly flattened.  At the large end, the operculum is clearly visible.  The opposite (abopercular) end is thickened. 
The eggs are unembryonated when passed in sputum or feces.

70. Paragonimus westermani

71. Paragonimus westermani
C. LIFE CYCLE
adult worms are found inside the human lungs
eggs are produced and escape from the cyst into the alveoli
they are carried up into the trachea and coughed up with the sputum or swallowed back and passed out in the feces
when eggs reach a body of water, they develop and became mature in 2-7 weeks
the miracidium pushes the operculum and swims freely in the water in search for the appropriate snails host (Brotia asperata) as its first intermediate host 
Metamorphosis takes place in the snail from sporocyst to first generation redia to 2nd generation redia to cercaria
The cercaria leaves the snail and looks for its 2nd intermediate host which is a mountain crab (Sundathelphusa philippina) where it encysts as metacercaria 
Human infection takes place when man ingests infected and insufficiently cooked crab
other animals such as cats, dogs, field rats and other rodents serve as reservoir hosts

73. D. PATHOLOGY
no recognizable symptoms attend the migration of parasites
as they grow in the lungs there is an inflammatory reaction, which may be sufficient to produce fever
when cysts rupture, a cough develops and there may be increased production of sputum
the sputum is frequently blood tinged and may contain numerous dark brown eggs and Charcot-Leyden crystals
the severity and progression of symptoms depends on the number of parasites present
increasing fibrosis of the lungs occurs with longstanding infections
the clinical picture may closely resemble that of pulmonary tuberculosis

75. E. DIAGNOSIS F. TREATMENT G. PREVENTION CONTROL
diagnosis depends on identification of the characteristic dark golden-brown eggs in sputum or feces, although the clinical picture may be suggestive
F. TREATMENT
Paraziquantrel 25 mg / kg p.o. tid x 2 days or
Bithional mg / kg p.o.
G. PREVENTION CONTROL
for as long as man does not eat raw crabs, man will never get infection even if the infection in nature may continue amongst reservoir host

76. Pulmonary paragonimiasis is the most common presentation of patients infected with Paragonimus spp., although extrapulmonary (cerebral, abdominal) paragonimiasis may occur. Detection of eggs in sputum or feces of patients with paragonimiasis is often very difficult; therefore, serodiagnosis may be very helpful in confirming infections and for monitoring the results of individual chemotherapy. In the United States, detection of antibodies to Paragonimus westermani has helped physicians differentiate paragonimiasis from tuberculosis in Indochinese immigrants. The complement fixation (CF) test has been the standard test for paragonimiasis; it is highly sensitive for diagnosis and for assessing cure after therapy. Because of the technical difficulties of CF, enzyme immunoassay (EIA) tests were developed as a replacement. The immunoblot (IB) assay performed with a crude antigen extract of P. westermani has been in use at CDC since Positive reactions, based on demonstration of an 8-kDa antigen-antibody band were obtained with serum samples of 96% of patients with parasitologically confirmed P. westermani infection. Specificity was >99%; of 210 serum specimens from patients with other parasitic and non-parasitic infections, only 1 serum sample from a patient with Schistosoma haematobium reacted. Antibody levels detected by EIA and IB do decline after chemotherapeutic cure but not as rapidly as those detected by the CF test. Most published literature deals with pulmonary paragonimiasis due to P. westermani although in some geographic areas other Paragonimus species cause similar or distinct clinical manifestations in human infections. Cross-reactivity between species does occur but at varying levels for different species. Thus, use of a test for P. westermani may not allow detection of antibodies to other Paragonimus species.

77. Trematodes
Schistosoma mansoni
140 mm x 66 mm.  Range, mm x mm.
Elongated with prominent lateral spine near posterior end.  Anterior end tapered and slightly curved.
Yellow or yellow brown.
Embryonated.  Contains mature miracidium.
Lateral spine.  Found in feces; in rare cases, in urine also.  Eggs are discharged at irregular intervals and may not be found in every stool specimen.  Are rare in chronic stages of infection.
Schistosoma japonicum
90 mm x 70 mm.  Range, mm x mm.
Oval.  Small lateral spine is often seen or may appear as a small hook or "knob" located in a depression in the shell.
Found in feces.  Often coated with debris and may be overlooked.
Schistosoma haematobium
143 mm x 60 mm.  Range, mm x mm.
Elongated with rounded anterior end and terminal spine at posterior end.
Terminal spine.  Found in urine, occasionally in feces.  Egg often covered with debris.
Schistosoma intercalatum
175 mm x 60 mm.  Range, mm x mm.
Elongated with tapered anterior end and terminal spine.  Sometimes "spindle-shaped."
Terminal spine long, slender with bent tip.  Resembles S. haematobium egg except it is longer, is thinner, and has a longer spine.  Found in feces.  May have debris adhering to shell.
Schistosoma mekongi
69 mm x 56 mm*  Range, mm x mm.
Spherical.  Small lateral spine, not always visible or may appear as a small "knob" in a depression in the shell.
Found in feces.  Closely resembles S. japonicum egg except it is smaller.  May be coated with debris.
Clonorchis sinensis
30 mm x l6 mm.  Range, mm x mm.
Small, ovoidal, or elongated with broad rounded posterior end and a convex operculum resting on "shoulders."  A small "knob" may be seen on the posterior end.
Yellow brown.
Small size, operculum and "knob" on posterior end.  Shell often is covered by adhering debris.
Opisthorchis felineus
30 mm x 12 mm.  Range, mm x mm.
Elongated with operculum on anterior end and pointed terminal "knob" on posterior end.
Lacks prominent shoulders characteristic of Clonorchis and has more tapered end.
Heterophyes heterophyes
28 mm x 15 mm.  Range, mm x mm.
Small, elongated or slightly ovoidal.  Operculum. Slight "knob" at posterior end.
Resembles Clonorchis egg but with less distinct shoulders.  Operculum is broader than in Clonorchis.
Metagonimus yokogawai
28 mm x 17 mm.  Range, mm x mm.
Small, elongated or ovoidal. Operculum.  No "shoulders" at anterior end.  Small "knob" often seen on posterior end.
Resembles Clonorchis and Heterophyes eggs.  Shell is slightly thinner than Heterophyes.  Operculum is broader than Clonorchis.
Paragonimus westermani
85 mm x 53 mm.  Range, mm x mm.
Ovoidal or elongate with thick shell.  Operculum is slightly flattened and fits into shoulder area of shell.  Posterior end is thickened.  Egg often asymmetrical with one side slightly flattened.
Yellow brown to dark brown.
Unembryonated.  Filled with yolk material in which a germinal cell is imbedded.  Cells are irregular in size.
Found in sputum, occasionally in feces.  Resembles egg of D. latum but is larger, slightly asymmetrical and the operculum is smaller and flatter.  The widest part of the Paragonimus egg is usually anterior to the center ; in a D. latum, the widest area is around the center.
Fasciola hepatica
145 mm x 80 mm.  Range, mm x mm.
Ellipsoidal, thin shell.  Small, indistinct operculum.
Yellow to light brown.
Unembryonated.  Filled with yolk cells in which an indistinct germinal cell is imbedded.
Large size.  Broadly oval eggs.
Fasciolopsis buski
140 mm x 80 mm.  Range, mm x mm.
Large size.  Resembles F. hepatica egg and cannot be easily distinguished from Fasciola.

79. THE END
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