1. Foundations in Microbiology Seventh Edition Chapter 23 Lecture PowerPoint to accompany Talaro Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display. To run the animations you must be in Slideshow View. Use the buttons on the animation to play, pause, and turn audio/text on or off. Please Note: Once you have used any of the animation functions (such as Play or Pause), you must first click in the white background before you can advance to the next slide.

2. 2 23.1 Parasitology The study of eukaryotic parasites, protozoa, and helminths Cause 20% of all infectious diseases Less prevalent in industrialized countries; increasingly common in AIDS patients

3. 3 23.2 Typical Protozoan Pathogens Single-celled, animal-like microbes, most having some form of motility Estimated 100,000 species, approximately 25 are important pathogens Life cycles vary –Most propagate by simple asexual cell division of the active feeding cell (trophozoite) –Many undergo formation of a cyst –Others have a complex life cycle that includes asexual and sexual phases

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6. 6 Infective Amebas

7. 7 Entamoeba Histolytica and Amebiasis Alternates between a large trophozoite, motile by means of pseudopods and a smaller nonmotile cyst Trophozoite has a large nucleus and lacks most other organelles Humans are the primary hosts Ingested Carried by 10% of world population

8. Figure 23.1 Entamoeba histolytica 8

9. 9 Entamoeba Histolytica Cysts are swallowed and arrive at the small intestine; alkaline pH and digestive juices stimulate cysts to release 4 trophozoites Trophozoites attach, multiply, actively move about and feed Asymptomatic in 90% of patients Ameba may secrete enzymes that dissolve tissues and penetrate deeper layers of the mucosa Causing dysentery, abdominal pain, fever, diarrhea, and weight loss

10. Figure 23.2 Intestinal amebiasis 10

11. 11 Entamoeba Histolytica Life-threatening manifestations are: hemorrhage, perforation, appendicitis, and tumorlike growths, amoebomas May invade liver and lung Severe forms of disease result in 10% fatality rate Effective drugs are iodoquinol, metronidazole, and chloroquine

12. Figure 23.3 Entamoeba histolytica in specimen 12

13. 13 Amebic Infections of the Brain Caused by Naegleria fowleri and Acanthamoeba Ordinarily inhabit standing water Primary acute meningoencephalitis is acquired through nasal contact with water or traumatic eye damage Infiltration of brain is usually fatal

14. 14 An Intestinal Ciliate: Balantidium Coli An occupant of the intestines of domestic animals such as pigs and cattle Acquired by ingesting cyst-containing food or water Trophozoite erodes intestine and elicits intestinal symptoms Healthy humans are resistant Rarely penetrates intestine or enters blood Treatment – tetracycline, iodoquinol, nitrimidazine or metronidazole

15. Figure 23.5 (a) Microscopic views of Balantidium coli 15

16. 16 The Flagellates

17. 17 Trichomonads: Trichomonas Species Small, pear-shaped 4 anterior flagella and an undulating membrane Exist only in trophozoite form 3 infect humans: –T. vaginalis –T. tenax –T. hominis

18. Figure 23.6 Trichomonads of humans 18

19. 19 Trichomonas Vaginalis Causes an STD called trichomoniasis Reservoir is human urogenital tract 50% of infected are asymptomatic Strict parasite, cannot survive long outside of host 3 million cases yearly, a top STD Female symptoms – foul-smelling, green-to-yellow discharge; vulvitis; cervicitis; urinary frequency and pain Male symptoms – urethritis, thin, milky discharge, occasionally prostate infection Metronidazole

20. 20 Giardia Lamblia and Giardiasis Pathogenic flagellate Unique symmetrical heart shape with concave ventral surface that acts like a suction cup Cysts are small, compact, and multinucleate Reservoirs include beavers, cattle, coyotes, cats, and humans Cysts can survive for 2 months in environment Usually ingested with water and food ID 10 to 100 cysts

21. Figure 23.7 (a) Identification of trophozoites 21

22. 22 Cysts enter duodenum, germinate, travel to jejunum to feed and multiply Causes giardiasis – diarrhea, abdominal pain Diagnosis is difficult because organism is shed in feces intermittently Treatment: quinacrine or metronidazole Agent is killed by boiling, ozone, and iodine

23. 23 Hemoflagellates: Vector-Borne Blood Parasites Obligate parasites that live in blood and tissues of human host Cause life-threatening and debilitating zoonoses Spread in specific tropical regions by blood- sucking insects that serve as intermediate hosts Have complicated life cycles and undergo morphological changes Categorized according to cellular and infective stages

24. Hemoflagellates Amastigote: the form lacking a free flagellum Promastigote: the stage bearing a single, free, anterior flagellum Epimastigote: the flagellate stage Trypomastigote: large, fully formed stage 24

25. 25 23.3 Apicomplexan Parasites Sporozoans Lack locomotor organelles in the trophozoite state Alternate between sexual and asexual phases and between different animal hosts Most form specialized infective bodies that are transmitted by arthropod vectors, food, water, or other means –Plasmodium –Toxoplasma –Cryptosporidium

26. 26 Plasmodium: The Agent of Malaria Dominant protozoan disease Obligate intracellular sporozoan 4 species: P. malariae, P. vivax, P. falciparum, and P. ovale Female Anopheles mosquito is the primary vector; blood transfusions, mother to fetus 300-500 million new cases each year 2 million deaths each year

27. Figure 23.12 The malaria belt 27

28. 28 2 distinct phases of malarial parasite development: Asexual phase – human host –Infected female mosquito injects asexual sporozoite which localizes in liver; it then undergoes schizogony generating numerous merozoites which enter circulation in 5-16 days depending on species –Merozoites attach to and enter red blood cells, convert to trophozoites and multiply; red cell bursts releasing merozoites that differentiate into gametes

29. 29 Sexual phase – mosquito host –Mosquito draws infected RBCs; gametes fertilize forming diploid cell which forms sporozoites in stomach –Sporozoites lodge in salivary glands; available to infect human host

30. 30 Figure 23.13 Plasmodium

31. 31 Plasmodium Symptoms include episodes of chills-fever-sweating, anemia, and organ enlargement Symptoms occur at 48-72 hour intervals as RBCs rupture; interval depends on species P. falciparum most malignant type; highest death rate in children Diagnosis by presence of trophozoite in RBCs, symptoms Increasing drug resistance Therapy is chloroquine, mefloquine

32. Figure 23.14 Malaria 32

33. 33 Coccidian Parasites Zoonotic in domestic animals and birds

34. 34 Toxoplasma Gondii and Toxoplasmosis Intracellular apicomplexan parasite with extensive distribution Lives naturally in cats that harbor oocysts in the GI tract Acquired by ingesting raw meats or substances contaminated by cat feces Most cases of toxoplasmosis go unnoticed except in fetus and AIDS patients who can suffer brain and heart damage Treatment: pyrimethamine and sulfadiazine

35. 35 Figure 23.16 The life cycle and morphological forms of Toxoplasma gondii

36. Figure 23.17 Toxoplasmosis in the brain of an AIDS patient 36

37. 37 Sarcocystis and Sarcocystosis Sarcocystis – parasites of cattle, swine, and sheep Domestic animals are intermediate hosts; they pick up infective cysts while grazing on grass contaminated with human feces Humans are infected when the meat is consumed Symptoms include diarrhea, nausea, and abdominal pain No specific treatment

38. 38 Cryptosporidium: A Newly Recognized Intestinal Pathogen An intestinal pathogen Infects a variety of mammals, birds, and reptiles Exists in tissue and oocyst phases 1990s – 370,000 cases in Milwaukee, WI, due to contaminated water; filtration required for removal Ingestion of oocysts gives rise to sporozoites that penetrate intestinal cells Causes gastroenteritis, headache, sweating, vomiting, abdominal cramps, diarrhea AIDS patients may suffer chronic persistent diarrhea No effective drugs

39. Figure 23.18 Other apicomplexan parasites 39

40. 40 23.4 A Survey of Helminth Parasites Adults are large, multicellular animals with specialized tissues and organs Adult worms mate and produce fertilized eggs that hatch; larvae then mature in several stages to adults The sexes may separate or hermaphroditic Adulthood and mating occur in the definitive host Larval develop occurs in the intermediate host A transport host experiences no parasitic development Four basic patterns of life and transmission

41. Figure 23.20 Four helminth cycles 41

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43. 43 Helminths Pathology arises from worms feeding on and migrating through tissues, accumulation of worms, and worm products Diagnosis based on blood cell count (eosinophilia), serological tests; eggs, larvae, or adult worms in feces; sputum, urine, blood, or tissue biopsies Antihelminthic drugs suppress a helminthic metabolic process that differs from the human process, inhibit the worm’s movement, prevent it from holding position, and act locally in the intestine

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45. 45 Nematode (Roundworm) Infestations Most abundant animal groups; 50 species that affect humans Elongated, cylindrical worms with protective cuticles, circular muscles, a complete digestive tract, and separate sexes Divided into intestinal nematodes, and tissue nematodes

46. Figure 23.21 Ascaris lumbricoides 46

47. 47 Ascaris Lumbricoides A large intestinal roundworm Most cases in the U.S. occur in the southeastern states Indigenous to humans Ascaris spends its larval and adult stages in humans; release embryonic eggs in feces, and are spread to other humans; food, drink, or contaminated objects Ingested eggs hatch into larvae and burrow through the intestine into circulation and travel to the lungs and pharynx and are swallowed Adult worms complete cycle in intestines and reproduce – 200,000 eggs/day

48. 48 Ascaris Lumbricoides Worms retain motility, do not attach Severe inflammatory reactions mark the migratory route Allergic reactions can occur Heavy worm loads can retard physical and mental development

49. 49 Trichuris Trichiura and Whipworm Infection Whipworm Humans sole host Trichuriasis has its highest incidence in the tropics Eggs hatch in intestines, larvae attach, penetrate the outer wall and develop into adults Females lay 3,000-5,000 eggs daily Worms can pierce capillaries, cause localized hemorrhage Heavy infestations can cause dysentery, rectal prolapse – can be fatal in children

50. 50 Enterobius Vermicularis and Pinworm Infection Pinworm or seatworm Enterobiasis most common worm disease of children in temperate zones Eggs are picked up from surroundings and swallowed After hatching in the small intestine, they develop into adults Anal itching occurs when mature females emerge from intestine to release eggs Self-inoculation is common Tape test

51. 51 Hookworms Characteristic curved ends and hooked mouths Necator americanus and Ancylostoma duodenale Humans shed eggs in feces, which hatch into filariform larvae and burrow into the skin of bare feet Larvae travel from blood to lungs, proceed up bronchi and throat and are swallowed Worms mature and reproduce in small intestine and complete the cycle May cause pneumonia, nausea, vomiting, cramps, and bloody diarrhea Blood loss is significant – anemia

52. Figure 23.22 The hookworms 52

53. 53 Strongyloides Stercoralis and Strongyloidiasis Threadworm Tiny roundworms completes life cycle in humans or moist soil Larvae penetrate skin and migrate to lungs, are swallowed, and complete development in the intestine Can reinfect the same host without leaving the body Heavy worm loads can cause pneumonitis and eosinophilia, bloody diarrhea, liver enlargement, bowel obstruction, and malabsorption

54. 54 Trichinella Spiralis and Trichinellosis Life cycle entirely within mammalian host Acquired from eating undercooked pork or bear meat Larvae migrate from intestine to blood vessels, muscle, heart, and brain, where it forms cysts First symptoms – flulike, diarrhea Second symptoms – muscle and joint pain, shortness of breath, pronounced eosinophilia No cure after larva have encysted

55. Figure 23.24 The cycle of trichinellosis 55

56. 56 Tissue Nematodes Complete their life cycle in human blood, lymphatics, or skin Filarial worms; elongate, filamentous bodies, spread by biting arthropods Cause chronic, deforming disease Wuchereria bancrofti – elephantiasis Onchocerca volvulus – river blindness Loa loa – eye worm

57. 57 Wucherereia Bancrofti and Bancroftian Filariasis Tropical infection spread by mosquitoes Vector deposits larvae which move into lymphatics and develop into adults Chronic infection causes blockage of lymphatic circulation and elephantiasis, massive swelling in the extremities

58. Figure 23.25 Bancroftian filariasis 58

59. 59 Onchocerca Volvulus and River Blindness Transmitted by biting black flies Larvae develop into adults in subcutaneous tissues Adult females migrate via the blood to the eyes, provoking inflammatory reactions Coinfection with Wolbachia bacteria causes river blindness Treatment: tetracycline and ivermectin

60. 60 Loa Loa: The African Eye Worm Spread by bite of small flies Temperature-sensitive worm migrates around/under the skin and may enter the eye Treatment – pull worm from a small hole in conjunctiva or diethylcarbamazine

61. 61 Trematodes or Flukes Flatworms with ovoid leaflike bodies Have digestive, excretory, neuromuscular, and reproductive systems Lack circulatory and respiratory systems Animals such as snails or fish are usually the intermediate hosts and humans are the definitive hosts

62. 62 Blood Flukes: Schistosomes Schistosomiasis – prominent parasitic disease Schistosoma mansoni, S. japonicum, S. haematobium Adult flukes live in humans who release eggs into water; early larva (miracidium) develops in freshwater snail into a 2nd larva (cercaria) This larva penetrates human skin and moves into the liver to mature; adults migrate to intestine or bladder and shed eggs, giving rise to chronic organ enlargement

63. Figure 23.26 Stages in the life cycle of Schistosoma 63

64. 64 Liver and Lung Flukes Zoonotic Liver flukes: Opisthorchis (Clonorchis) sinensis – cycles between mammals and snails and fish; humans are infected by eating inadequately cooked fish containing cercariae, larvae crawl into bile duct, mature, and shed eggs into feces; snail are infected Fasciola hepatica – cycles between herbivores, snails, and aquatic plants; humans are infected by eating raw aquatic plants; fluke lodges in liver

65. 65 Lung fluke: Paragonimus westermani – cycles between carnivorous animals, snails, and crustaceans; humans infected by eating undercooked crustaceans; intestinal worms migrate to lungs

66. Figure 23.27 Fasciola hepatica 66

67. 67 Cestode (Tapeworm) Infestations Flatworms Long, very thin, ribbonlike bodies composed of sacs (proglottids) and a scolex that grips the intestine Each proglottid is an independent unit adapted to absorbing food and making and releasing eggs Taenia saginata Taenia solium

68. 68 Taenia Saginata Beef tapeworm Very large, up to 2,000 proglottids Humans are the definitive host Animals are infected by grazing on land contaminated with human feces Infection occurs from eating raw beef in which the larval form has encysted In humans, larva attaches to the small intestine and becomes an adult Causes few symptoms; vague abdominal pain and nausea; proglottids in stool

69. Figure 23.28 Tapeworm infestation in humans 69

70. 70 Taenia Solium Pork tapeworm Infects humans through ingesting cysts or eggs Eggs hatch in intestine, releasing tapeworm larva that migrate to all tissues and encyst Most damaging if they lodge in heart muscle, eye, or brain May cause seizures, psychiatric disturbances

71. Figure 23.29 Cysticercosis 71

72. 72 23.5 The Arthropod Vectors of Infectious Disease Arthropods – exoskeleton and jointed legs; includes arachnids and crustaceans; many must feed on blood and tissue fluid of host during life cycle; ectoparasites Those of medical importance transmit infectious microbes in the process of feeding – biological vectors

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74. 74 Insects Mosquitoes – require an aquatic habitat; females take blood meal transmitting disease: malaria, filariasis, Dengue fever Fleas – highly motile, flattened bodies; feed on warm-blooded animals; carry zoonotic diseases: plague, murine typhus Lice – small, soft; attach to head and body hair feeding inconspicuously on blood and tissue fluid; release feces that contaminate wound; epidemic typhus, relapsing fever

75. 75 Arachnids Ticks – cling on vegetation and attach to host on contact; larvae, nymph, and adults get blood meal by piercing skin of host –Hard or ixodid ticks – small compact, rigid bodies; transmit bacterial, rickettsial, and viral diseases –Soft or argasid ticks – flexible outer bodies; transmit relapsing fever

76. Figure 23.30 Arthropod vectors 76