REFERENCES

The complete list of references can be found at www.expertconsult.com.

REFERENCES

Equine Parasite References

1. Lyons ET, Tolliver SC, Ionita M, et al: Field studies indicating reduced activity of ivermectin on small strongyles in horses on a farm in Central Kentucky, Parasitol Res 103:209, 2008.

2. Lyons ET, Tolliver SC, Kuzmina TA, et al: Critical tests evaluating efficacy of moxidectin against small strongyles in horses from a herd for which reduced activity had been found in field tests in Central Kentucky, Parasitol Res 107:1495, 2010.

3. Lyons ET, Tolliver SC, Collins SS: Probable reason why small strongyle EPG counts are returning “early” after ivermectin treatment of horses on a farm in Central Kentucky, Parasitol Res 104:569, 2009.

4. Rossano MG, Smith AR, Lyons ET: Shortened strongyle-type egg reap­pearance periods in naturally infected horses treated with moxidectin and failure of a larvicidal dose of fenbendazole to reduce fecal egg counts, Vet Parasitol 173:349, 2010.

5. Drudge JH, Lyons ET: Control of internal parasites of horses, J Am Vet Med Assoc 148:378, 1966.

6. Borgsteede FHM, Boersema JH, Gaasenbeek CPH, et al: The reappearance of eggs in feces of horses after treatment with ivermectin, Vet Quart 15:24,

1993.

7. Boersema JH, Borgsteede FHM, Eysker M, et al: The reappearance of strongyle eggs in feces of horses treated with pyrantel embonate, Vet Quart 17:18, 1995.

8. Demeulenaere D, Vercruysse J, Dorny P, et al: Comparative studies of ivermectin and moxidectin in the control of naturally acquired cyathostome infections in horses, Vet Rec 15:383, 1997.

9. Gibson TE: The effect of repeated anthelmintic treatment with pheno­thiazine on fecal egg counts of housed horses, with some observations on the life cycle of Trichonema spp. in the horse, J Helminthol 27:29, 1953.

10. Sreter T, Molnar V Kassai T: The distribution of nematode egg counts and larval counts in grazing sheep and their implications for parasite control, Int J Parasitol 24:103, 1994.

11. Kaplan RM, Nielsen MK: An evidence-based approach to equine parasite control: it ain’t the 60s anymore, Equine Vet Educ 22:306, 2010.

12. Nielsen MK, Haaning N, Olsen SN: Strongyle egg shedding consistency in horses on farms using selective therapy in Denmark, Vet Parasitol 35:333, 2006.

13. Dopfer D, Kerssens CM, Meijer YGM, et al: Shedding consistency of strongyle-type eggs in Dutch boarding horses, Vet Parasitol 124:249, 2004.

14. Gomez HH, Georgi JR: Equine helminth infections: control by selective chemotherapy, Equine Vet J 23:198, 1991.

15. van Wyk JA: Refugia-overlooked as perhaps the most potent factor concerning the development of anthelmintic resistance, Onderstepoort J Vet 68:55, 2001.

16. Martin PJ, LeJambre LF, Claxton JH: The impact of refugia on the development of thiabendazole resistance in Haemonchus contortus, Int J Parasitol 11:35, 1981.

17. Waghorn TS, Miller CM, Oliver AM, et al: Drench-and-shift is a high-risk practice in the absence of refugia, New Zeal Vet J 57:359, 2009.

18. Waghorn TS, Leathwick DM, Miller CM, et al: Brave or gullible: testing the concept that leaving susceptible parasites in refugia will slow the development of anthelmintic resistance, New Zeal Vet J 56:158, 2008.

19. Leathwick DM, Miller CM, Atkinson DS, et al: Managing anthelmintic resistance: untreated adult ewes as a source of unselected parasites, and their role in reducing parasite populations, New Zeal Vet J 56:184, 2008.

20. Leathwick DM, Donecker JM, Nielsen MK: A model for the dynamics of the free-living stages of equine cyathostomins, Vet Parasitol 209:210,

2015.

21. Leathwick DM, Donecker JM, Nielsen MK: A model for the development and growth of the parasitic stages of Parascaris spp. in the horse, Vet Parasitol 228:108, 2016.

22. Herd RP: The changing world of worms—the rise of the cyathostomes and the decline of Strongylus vulgaris, Comp Cont Educ Pract Vet 12:732,

1990.

23. Love S, Duncan JL: Could the worms have turned?, Equine Vet J 23:152,

1991.

24. Love S, Murphy D, Mellor D: Pathogenicity of cyathostome infection, Vet Parasitol 85:113, 1999.

25. Nielsen MK: Equine tapeworm infections—disease, diagnosis, and control, Equine Vet Educ 28:388, 2016.

26. Nielsen MK: Evidence-based considerations for control of Parascaris spp. infections in horses, Equine Vet Educ 28:224, 2016.

27. Clayton HM: Ascarids. Recent advances, Vet Clin North Am Equine Pract 2:313, 1986.

28. Nielsen MK, Wang J, Davis R, et al: Parascaris univalens—a victim of large-scale misidentification?, Parasitol Res 113:4485, 2014.

29. Fabiani JV, Lyons ET, Nielsen MK: Dynamics of Parascaris and Strongylus spp. parasites in untreated juvenile horses, Vet Parasitol 30:62, 2016.

30. Laugier C, Sevin C, Menard S, et al: Prevalence of Parascaris equorum infection in foals on French stud farms and first report of ivermectin- resistant P. equorum populations in France, Vet Parasitol 188:185, 2012.

31. Bellaw JL, Pagan J, Cadell S, et al: Objective evaluation of two deworming regimens in young Thoroughbreds using parasitological and performance parameters, Vet Parasitol 221:69, 2016.

32. Clayton HM, Duncan JL: Clinical signs associated with Parascaris equorum infection in worm-free pony foals and yearlings, Vet Parasitol 4:69, 1978.

33. Lichtenfels JR, Kharchenko VA, Dvojnos GM: Illustrated identification keys to strongylid parasites (strongylidae: Nematoda) of horses, zebras and asses (Equidae), Vet Parasitol 156:4, 2008.

34. Nielsen MK, Kaplan RM, Thamsborg SM, et al: Climatic influences on development and survival of free-living stages of equine strongyles: implications for worm control strategies and managing anthelmintic resistance, Vet J 174:23, 2007.

35. Reid SW, Mair TS, Hillyer MH, et al: Epidemiological risk factors associated with a diagnosis of clinical cyathostomiasis in the horse, Equine Vet J 27:127, 1995.

36. Reinemeyer CR, Prado JC, Nielsen MK: Comparison of the larvicidal efficacies of moxidectin or a five-day regimen of fenbendazole in horses harbouring cyathostomin populations resistant to the adulticidal dosage of fenbendazole, Vet Parasitol 214:100, 2015.

37. Proudman C: Immunoepidemiology of the equine tapeworm Anoplocephala perfoliata: age-intensity profile and age-dependency of antibody subtype responses, Parasitology 114:89, 1997.

38. Roelfstra L, Betschart B, Pfister K: A study on the seasonal epidemiology of Anoplocephala spp. infection in horses and the appropriate treatment using a praziquantel gel (Droncit 9% oral gel), Berl Munch Tierarztl Wochenschr 119:312, 2006.

39. Meana A, Pato NF, Martin R, et al: Epidemiological studies on equine cestodes in central Spain: infection pattern and population dynamics, Vet Parasitol 130:233, 2005.

40. Chapman MR, French DD, Klei TR: Seasonal transmission of gastro­intestinal parasites of equids in southern Louisiana, J Parasitol 87:1371, 2001.

41. Lyons ET, Tolliver SC, Stamper S, et al: Transmission of some species of internal parasites in horses born in 1990, 1991, and 1992 in the same pasture on a farm in central Kentucky, Vet Parasitol 52:257, 1994.

42. Benton RE, Lyons ET: Survey in central Kentucky for prevalence of Anoplocephala perfoliata in horses at necropsy in 1992, Vet Parasitol 55:81,

1994.

43. Lyons ET, Tolliver SC, Collins SS, et al: Transmission of endoparasites in horse foals born on the same pasture on a farm in central Kentucky (1996-1999), Vet Parasitol 97:113, 2001.

44. Barclay W, Phillips T, Foerner J: Intussusception associated with Anop- locephala perfoliata infection in five horses, J Am Vet Med Assoc 180:752, 1982.

45. Owen RR, Jagger DW, Quan-Taylor R: Caecal intussusceptions in horses and the significance of Anoplocephala perfoliata, Vet Rec 124: 34, 1989.

46. Lyons ET, Drudge JH, Tolliver SC, et al: Determination of the efficacy of pyrantel pamoate at the therapeutic dose against the tapeworm Anoplocephala perfoliata in equids using a modification of the critical test, Vet Parasitol 31:13, 1988.

47. Reinemeyer CR, Hutchens DE, Eckblad WP, et al: Dose confirmation studies of the cestocidal activity of pyrantel pamoate paste in horses, Vet Parasitol 138:234, 2006.

48. Duncan JL, Pirie HM: The life cycle of Strongylus vulgaris in the horse, Res Vet Sci 13:374, 1972.

49. Enigk K: Die Pathogenese der thrombotisch-embolische Kolik des Pferdes, Monatsh Tierheilk 3:65, 1951.

50. Pihl TH, Nielsen MK, Olsen SN, et al: Non-strangulating intestinal infarctions associated with Strongylus vulgaris: 30 horses (2008-2016), Equine Vet J 2017.

51. McCraw BM, Slocombe JOD: Strongylus edentatus: development and lesions from ten weeks postinfection to patency, Can J Comp Med 42:340, 1978.

52. McCraw BM, Slocombe JOD: Strongylus equinus: development and pathological effects in the equine host, Can J Comp Med 49:372, 1984.

53. Coles GC, Brown SN, Trembath CM: Pyrantel resistant large strongyles in racehorses, Vet Rec 145:408, 1999.

54. Lyons ET, Drudge JH, Tolliver SC: Life-cycle of Strongyloides westeri in equine, J Parasitol 59:780, 1973.

55. Netherwood T, Wood JLN, Townsend HGG, et al: Foal diarrhoea between 1991 and 1994 in the United Kingdom associated with Clostridium per- fringens, rotavirus, Strongyloides westeri and Cryptosporidium spp, Epidemiol Infect 117:375, 1996.

56. Dewes HF: The association between weather, frenzied behavior, percutane­ous invasion by Strongyloides westeri larvae and Rhodococcus equi disease in foals, New Zeal Vet J 37:69, 1989.

57. Lyons ET, Tolliver SC: Prevalence of patent Strongyloides westeri infections in Thoroughbred foals in 2014, Parasitol Res 113:4163, 2014.

58. Salle G, Cortet J, Koch C, et al: Ivermectin failure in the control of Oxyuris equi in a herd of ponies in France, Vet Parasitol 229:73, 2016.

59. Wolf D, Hermosilla C, Taubert A: Oxyuris equi: lack of efficacy in treatment with macrocyclic lactones, Vet Parasitol 201:163, 2014.

60. Cogley TP, Anderson JR, Cogley LJ: Migration of Gasterophilus intestinalis larvae (diptera: Gasterophilidae) in the equine oral cavity, Int J Parasitol 12:473, 1982.

61. Principato M: Classification of the main macroscopic lesions produced by larvae of Gasterophilus spp.

62. Osterman Lind EO, Chirico J, Lundstrom T: Gasterophilus larvae in association with primary parasitic periodontitis, JEquine Vet Sci 32:S51, 2012.

63. Wollanke B, Gerhards H, Pfleghaar S: Chronic recurrent conjunctivitis due to Thelazia Iacrymalis-induced, chronic abscess forming dacryoadenitis in a Warmblood stallion, Pferdeheilk 20:131, 2004.

64. Beelitz P, Matiasek K, Gothe R: Prevalence and worm burden of Thelazia lacrymalis (Nematoda, Spirurida, Thelaziidae) in slaughter horses from Upper Bavaria, Tierartzl Umschau 56:361, 2001.

65. Lyons ET, Swerczek TW, Tolliver SC, et al: Prevalence of selected species of internal parasites in equids at necropsy in central Kentucky (1995-1999), Vet Parasitol 92:51, 2000.

66. Blagburn B, Lindsay D, Hendrix C, et al: Pathogenesis, treatment and control of gastric parasites in horses, Compend Comt Educ Pract Vet 13:850, 1991.

67. Vasey JR: Equine cutaneous habronemiasis, Compend Cont Educ Pract Vet 8:290, 1981.

68. Kirkland KC: Habronemiasis in an Arabian stallion, Equine Pract 3:34, 1981.

69. Steckel RR: Equine pulmonary habronemiasis with acute hemolytic anemia resulting from organophosphate treatment, Equine Pract 5:35, 1983.

70. Lyons ET, Tolliver SC, Drudge JH, et al: Common internal parasites found in the stomach, large intestine, and cranial mesenteric artery of thoroughbreds in Kentucky at necropsy (1985 to 1986), Am J Vet Res 48:268, 1987.

71. Collobert-Laugier C, Lamidey C, Brisseau N, et al: Prevalence of stomach nematodes (Habronema spp, Draschia mega stoma and Trichostrongylus axei) in horses examined post mortem in Normandy, Rev Med Vet 151: 151, 2000.

72. Herd RP: Serum pepsinogen concentrations of ponies naturally infected with Trichostrongylus axei, Equine Vet J 18:490, 1986.

73. Eysker M, Jansen J, Wemmenhove R, et al: Alternate grazing of horses and sheep as control for gastro-intestinal helminthiasis in horses, Vet Parasitol 13:273, 1983.

74. Eysker M, Jansen J, Mirck MH: Control of strongylosis in horses by alternate grazing of horses and sheep and some other aspects of the epidemiology of strongylidae infections, Vet Parasitol 19:103, 1986.

75. Rabalais F, Votava C: Cutaneous distribution of microfilariae of Onchocerca cervicalis in horses, Am J Vet Res 35:1369, 1974.

76. Perris EE: Parasitic dermatoses that cause pruritus in horses, Vet Clin North Am Equine Pract 11:11, 1995.

77. French DD, Klei TR, Foil CS, et al: Efficacy of ivermectin in paste and injectable formulations against microfilariae of Onchocerca cervicalis and resolution of associated dermatitis in horses, Am J Vet Res 49:1550, 1988.

78. Rees CA: Disorders of the skin. In Reed Sm, Bayly WM, Sellon DC, editors: Equine internal medicine, St Louis, 2004, Elsevier, p 667.

79. Mancebo OA, Verdi JH, Bulman GM: Comparative efficacy of moxidectin 2% equine oral gel and ivermectin 2% equine oral paste against Onchocerca cervicalis (Railliet and Henry, 1910) microfilariae in horses with naturally acquired infections in Formosa (Argentina), Vet Parasitol 73:243, 1997.

80. Logas DB, Barbet JL, et al: Diseases characterized by pruritus and hair loss. In Colahan PT, Mayhew IG, Merritt AM, editors: Equine medicine and surgery, St Louis, 1999, Mosby, p 1901.

81. Baumann R: Beobachtungen beim parasitaren Summerbluten der Pferde, Wien Tierartzl Mschr 33:52, 1946.

82. Thomsett LR: Parafilaria multipapillosa in horse, Vet Rec 83:27, 1968.

83. Spalding MG, Greiner EC, Green SL: Halicephalobus (Micronema) deletrix infection in two half-sibling foals, J Am Vet Med Assoc 196: 1127, 1990.

84. Blunden AS, Khalil LF, Webbon PM: Halicephalobus deletrix infection in a horse, Equine Vet J 19:255, 1987.

85. Anderson RC, Linder KE, Peregrine AS: Halicephalobus gingivalis (Stefanski, 1954) from a fatal infection in a horse in Ontario, Canada with comments on the validity of H. deletrix and a review of the genus, Parasite 5:255, 1988.

86. Eydal M, Bambir SH, Sigurdarson S, et al: Fatal infection in two Icelandic stallions caused by Halicephalobus gingivalis (Nematoda: Rhabditida), Vet Parasitol 186:523, 2012.

87. Dunn DG, Gardiner CH, Dralle KR, et al: Nodular granulomatous posthitis caused by Halicephalobus (syn. Micronema) sp. in a horse, Vet Pathol 30:207, 2000.

88. Kinde H, Mathews M, Ash L, et al: Halicephalobus gingivalis (H. deletrix) infection in two horses in southern California, J Vet Diagn Invest 12:162,

2000.

89. Angus KW, Roberts L, Archibald DR, et al: Halicephalobus deletrix infection in a horse in Scotland, Vet Rec 131:495, 1992.

90. Pearce SG, Boure LP, Taylor JA, et al: Treatment of a granuloma caused by Halicephalobus gingivalis in a horse, J Am Vet Med Assoc 219: 1735, 2001.

91. Shadduck JA, Ubelaker J, Telford VQ: Micronema deletrix meningoen­cephalitis in an adult man, Am J Clin Pathol 72:640, 1979.

92. Gardiner CH, Koh DS, Koh DS, et al: Micronema in man: third fatal infection, Am J Trop Med Hyg 30:586, 1981.

93. Ondrejka SL, Procop GW, Lai KK, et al: Fatal parasitic meningoen- cephalomyelitis caused by Halicephalobus deletrix: a case report and review of the literature, Arch Pathol Lab Med 134:625, 2010.

94. Stoll NR: Investigations on the control of hookworm disease. XV An effective method of counting hookworm eggs in feces, Am J Hyg 3:59, 1923.

95. Cox DD, Todd AC: Survey of gastrointestinal parasitism in Wisconsin dairy cattle, J Am Vet Med Assoc 141:706, 1962.

96. Gordon HM, Whitlock HV: A new technique for counting nematode eggs in sheep faeces, J Sci Ind Res 12:50, 1939.

97. Noel ML, Scare JA, Bellaw JL, et al: Accuracy and precision of Mini- FLOTAC and McMaster techniques for determining equine strongyle egg counts, J Equine Vet Sci 48:182, 2017.

98. Cringoli G, Rinaldi L, Maurelli MP, et al: FLOTAC: New multivalent techniques for qualitative and quantitative copromicroscopic diagnosis of parasites in animals and humans, Nat Protoc 5:503, 2010.

99. Nielsen MK, Baptiste KE, Tolliver SC, et al: Analysis of multiyear studies in horses in Kentucky to ascertain whether counts of eggs and larvae per gram of feces are reliable indicators of numbers of strongyles and ascarids present, Vet Parasitol 174:77, 2010.

100. Bevilaqua CML, Rodrigues M de L, Concordet D: Identification of infective larvae of some common nematode strongylids of horses, Vet Med Rev 144:989, 1993.

101. Russell AF: The development of helminthiasis in Thoroughbred foals, J Comp Pathol 58:107, 1948.

102. Proudman CJ, Edwards GB: Validation of a centrifugation/flotation technique for the diagnosis of equine cestodiasis, Vet Rec 131:71, 1992.

103. Abbott JB, Mellor DJ, Barrett EJ, et al: Serological changes observed in horses infected with Anoplocephala perfoliata after treatment with praziquantel and natural reinfection, Vet Rec 162:50, 2008.

104. Bohorquez A, Meana A, Luzon M: Differential diagnosis of equine cestodosis based on E/S and somatic Anoplocephala perfoliata and Anoplo- cephala magna antigens, Vet Parasitol 190:87, 2012.

105. Becher A, Mahling M, Nielsen MK, et al: Selective anthelmintic therapy of horses in the Federal states of Bavaria (Germany) and Salzburg (Austria): an investigation into strongyle egg shedding consistency, Vet Parasitol 171:116, 2010.

106. Uhlinger CA: Uses of fecal egg count data in equine practice, Compend Cont Educ Pract Vet 13:863, 1993.

107. Nielsen MK, Vidyashankar AN, Olsen SN, et al: Strongylus vulgaris associated with usage of selective therapy on Danish horse farms—is it reemerging?, Vet Parasitol 189:26, 2012.

108. Nielsen MK, Olsen SN, Lyons ET, et al: Real-time PCR evaluation of Strongylus vulgaris in horses on farms in Denmark and Central Kentucky, Vet Parasitol 190:461, 2012.

109. Nielsen MK, Mittel L, Grice A, et al: AAEP Parasite Control Guidelines, Lexington, Kentucky, USA, 2016, American Association of Equine Practitioners. www.aaep.org.

110. Uhlinger CA, Kristula M: Effects of alternation of drug classes on the development of oxibendazole resistance in a herd of horses, J Am Vet Med Ass 201:51, 1992.

111. Barnes EH, Dobson RJ, Barger IA: Worm control and anthelmintic resistance - adventures with a model, Parasitol Today 11:56, 1995.

112. Leathwick DM: Modelling the benefits of a new class of anthelmintic in combination, Vet Parasitol 186:93, 2012.

113. Round MC: The prepatent period of some horse nematodes determined by experimental infection, J Helminthol 43:185, 1969.

114. Clayton HM, Duncan JL: Experimental Parascaris equorum infection of foals, Res Vet Sci 23:109, 1977.

115. Bain SA, Kelly JD: Prevalence and pathogenicity of Anoplocephala perfoliata in a horse population in South Auckland, New Zeal Vet J 25:28, 1977.

116. Enigk K: The development of the three species of Strongylus of the horse during the prepatent period. In Equine infectious diseases, Basel, 1970,

S. Karger, p 259.

117. Wetzel R: Uber die Entwicklungsdauer der Palisadenwiirmer im Korper des Pferdes und ihre Praktische Auswertung, Dtsch Tierarztl Wochenschr 50:443, 1942.

Gastrointestinal Nematode Infections in Cattle

1. Craig TM: Gastrointesitnal nematodes, diagnosis and control, Vet Clin North Am Food Anim Pract 34:185, 2018.

2. Yazwinski TA, Tucker CA: A sampling of factors relative to the epidemiology of gastrointestinal nematodosis of cattle in the United States, Vet Clin North Am Food Anim Pract 22:501, 2006.

3. Taylor MA, Coop RL, Wall RL: Veterinary parasitology, ed 4, Ames, IA, 2016, Blackwell Publishing.

4. Beck MA, Colwell DD, Goater CP, et al: Where’s the risk? Landscape epidemiology of gastrointestinal parasitism in Alberta beef cattle, Parasites & Vectors 8:434, 2015.

5. Williams JC, Bilkovich FR: Development and survival of infective larvae of the cattle nematode, Ostertagia ostertagi, J Parasitol 57:327, 1971.

6. Williams JC, Bilkovich FR: Distribution of Ostertagia ostertagi infective larvae on pasture herbage, Am J Vet Res 34:1337, 1973.

7. Slocombe JOD: Overwintering of bovine gastrointestinal nematodes in southwestern Ontario, Can J Comp Med 38:90, 1974.

8. Gibbs HC: Relative importance of winter survival of larval nematodes in pasture and infected carrier calves in a study of parasitic gastroenteritis in calves, Am J Vet Res 40:227, 1979.

9. Gibbs HC: Persistence in pasture of the infective larvae of nematodes parasitizing Maine dairy cattle, Am J Vet Res 41:1694, 1980.

10. Frank GR, Herd RP, Marbury KS, et al: Effects of transfer of Ostertagia ostertagi between northern and southern U.S.A. on the pattern and frequency of hypobiosis, Int J Parasitol 16:391, 1986.

11. Frank GR, Herd RP, Marbury KS, et al: Additional investigations on hypobiosis of Ostertagia ostertagi after transfer between northern and southern U.S.A, Int J Parasitol 18:171, 1988.

12. Simpson HV: Pathophysiology of abomasal parasitism: is the host or parasite responsible?, Vet J 160:177, 2000.

13. Elek P, Durie PH: The histopathology of the reactions of calves to experimental infection with the nodular worm, Oesophagostomum radiatum (Rudolphi, 1803) II. Reaction of the susceptible host to infection with a single dose of larvae, Aust J Agric Res 18:549, 1966.

14. Fox MT: Pathophysiology of infection with gastrointestinal nematodes in domestic ruminants: recent developments, Vet Parasitol 72:285, 1997.

15. Gasbarre LC, Smith LL, Lichtenfels JR, et al: The identification of cattle nematode parasites resistant to multiple classes of anthelmintics in a commercial cattle population in the US, Vet Parasitol 166:281, 2009.

16. Sutherland IA, Leathwick DM: Anthelmintic resistance in nematode parasites of cattle: a global issue?, Trends Parasitol 27:176, 2010.

17. Gasbarre LC, Smith LL, Hoberg E, et al: Further characterization of a cattle nematode population with demonstrated resistance to current anthelmintics, Vet Parasitol 166:275, 2009.

18. Edmonds MD, Johnson EG, Edmonds JD: Anthelmintic resistance of Ostertagia ostertagi and Cooperia oncophora to macrocyclic lactones in cattle from the western United States, Vet Parasitol 170:224, 2010.

19. Wolstenholme AJ, Kaplan RM: Resistance to macrocyclic lactones, Curr Pharm Biotech 13:873, 2012.

20. Ballweber LR, Baeten LA: Use of macrocyclic lactones in cattle in the USA, Curr Pharm Biotech 13:1061, 2012.

21. Jackson R, Rhodes AP, Pomroy WE, et al: Anthelmintic resistance and management of nematode parasites on beef cattle-rearing farms in the North Island of New Zealand, N Z Vet J 54:289, 2006.

22. Ballweber LR, Gasbarre LC, Dargatz DA, et al: Attitudes towards gastrointestinal parasites and parasite control practices among United States cow-calf producers, Vet Parasitol Submitted, 2012.

23. Stromberg BE, Gasbarre LC, Waite A, et al: Cooperia punctata: effect on cattle productivity, Vet Parasitol 183:284, 2012.

24. Fazzio LE, Sanchez RO, Streitenberger N, et al: The effect of anthelmintic resistance on the productivity in feedlot cattle, Vet Parasitol 206:240, 2014.

25. Geary TG, Hosking BC, Skuce PJ, et al: World Association for the Advancement of Veterinary Parasitology (W.A.A.V.P.) guidelines: anthel­mintic combination products targeting nematode infections of ruminants and horses, Vet Parasitol 190:306, 2012.

26. Lanusse C, Lifschitz A, Alvarez L: Basic and clinical pharmacology contribu­tion to extend anthelmintic molecules lifespan, Vet Parasitol 212:35, 2015.

27. Leathwick DM: Managing anthelmintic resistance - parasites fitness, drug use strategy and the potential for reversion towards susceptibility, Vet Parastiol 198:145, 2013.

28. Rehbeina S, Baggott DG, Johnson EG, et al: Nematode burdens of pastured cattle treated once at turnout with eprinomectin extended-release injection, Vet Parasitol 192:321, 2013.

29. Charlier J, Levecke B, Devleesschauwer B, et al: The economic effects of whole-herd versus selective anthelmintic treatment strategies in dairy cows, J Dairy Sci 95:2977, 2012.

30. Stuedemann JA, Kaplan RM, Ciordia H, et al: Bermudagrass management in the Southern Piedmont USA. V: gastrointestinal parasite control in cattle, Vet Parasitol 126:375, 2004.

31. Familton AS, Mason P, Coles GC: Anthelmintic-resistant Cooperia species in cattle, Vet Rec 149:719, 2001.

32. Siefker C, Rickard LG: Ostertagia ostertagi challenges of calves vaccinated with Haemonchus placei intestinal homogenate, Vet Parasitol 90:103, 2000.

33. Noon JB, Aroian RV: Recombinant subunit vaccines for soil-transmitted helminths, Parasitology 144:1845, 2017.

34. Sangster NC, Dobson RJ: Anthelmintic resistance. In Lee DL, editor: The biology of nematodes, New York, NY, 2002, Taylor & Francis, pp 531-567.

35. Demeler J, Kleinschmidt N, Kuttler U, et al: Evaluation of the egg hatch assay and the larval migration inhibition assay to detect anthelmintic resistance in cattle parasitic nematodes on farms, Parasitol Int 61:614, 2012.

36. De Graf J, Sarre C, Mills BM, et al: Assessing resistance against macrocyclic lactones in gastro-intestinal nematodes in cattle using the faecal egg count reduction test and the controlled efficacy test, Vet Parasitol 189:378, 2012.

37. George MM, Paras KL, Howell SB, et al: Utilization of composite fecal samples for detection of anthelmintic resistance in gastrointestinal nematodes of cattle, Vet Parasitol 240:24, 2017.

Gastrointestinal Nematode Infections in Sheep and Goats

1. Constable PD, Hinchcliff KW, Done SH, et al: Veterinary medicine, ed 11, St Louis, MO, 2017, Elsevier Ltd., pp 603-618.

2. Learmount J, Stephens N, Boughtflower V, et al: The development of anthelmintic resistance with best practice control of nematodes on com­mercial sheep farms in the UK, Vet Parasit 229:9-14, 2016.

3. Uhlinger C, Fleming S, Moncol D: Survey for drug-resistant gastrointestinal nematodes in 13 commercial sheep flocks, J Am Vet Med Assoc 201:77, 1992.

4. Mortensen LL, Williamson LH, Terrill TH, et al: Evaluation of prevalence and clinical implications of anthelmintic resistance in gastrointestinal nematodes of goats, J Am Vet Med Assoc 23:495, 2003.

5. Zajac AM, Gipson TA Multiple anthelmintic resistance in a goat herd, Vet Parasitol 87:163, 2000.

6. Conway DP: Variance in the effectiveness of thiabendazole against Hae- monchus contortus in sheep, Am J Vet Res 25:844, 1964.

7. Kaplan RM, Burke JM, et al: Total anthelmintic failure on a meat goat farm in Arkansas. In Proceedings of the American Association of Veterinary Parasitologists, 50th Annual Meeting, July 16-17, Minneapolis, MN, 2005.

8. Bowman DD: Georgi' parasitologyfor veterinarians, ed 9, St Louis, MO, 2009, Saunders.

9. Taylor MA, Coop RL, Wall RL: Veterinary parasitology, ed 3, Ames, IA, 2007, Blackwell Publishing Professional.

10. Bennett DG: Anemia and hypoproteinemia, Vet Clin North Am Food Anim Pract 5:511, 1983.

11. Kassai T: Phylum: Nemathelminthes—roundworms, Veterinary helminthology. Oxford, England, 1999, Butterworth-Heinemann, pp 75-83.

12. Hazelby CA, Probert AJ, Rowlands DAT: Anthelmintic resistance in nematodes causing parasitic gastroenteritis of sheep in the UK, J Vet Pharmacol Therap 17:245, 1994.

13. Van Wyk JA: Refugia—overlooked as perhaps the most potent factor concerning the development of anthelmintic resistance, Onderstepoort J Vet Res 68:55, 2001.

14. Van Wyk JA, Coles GC, Krecek RC: Can we slow the development of anthelmintic resistance? An electronic debate, Trends Parasitol 18:336, 2002.

15. Sreter T, Molnar V, Kassai T: The distribution of nematode egg counts and larval counts in grazing sheep and their implications for parasite control, Int J Parasit 24:103, 1994.

16. www.wormboss.com.au.

17. Sustainable Worm Control Strategies for Sheep SCOPS—http://www. scops.org.uk/vets-manual.html.

18. FECPAK2G - Technion Group. www.techniongroup.com/Products/FECPACg2.

19. Burke JM, Kaplan RM, Miller JE, et al: Accuracy of FAMACHA© system for on-farm use by sheep and goat producers in the southeastern United States, Vet Parasit 147:89, 2007.

20. Barger IA: The statistical distribution of trichostrongylid nematodes in grazing lambs, Int J Parasit 15:645, 1985.

21. Bath GF, Malan FS, et al: The FAMACHA© Ovine Anemia Guide to assist with the control of haemonchosis. In Proceedings of the 7th Annual Congress of the Livestock Health and Production Group of the South African Veterinary Association, Port Elizabeth, South Africa, 1996.

22. Van Wyk JA, Bath GF: The FAMACHA(c) system for managing haemon- chosis in sheep and goats by clinically identifying individual animals for treatment, Vet Res 33:509, 2002.

23. Kaplan RM, Burke JM, Gummow B, et al: Validation of the FAMACHA(c) eye color chart for detecting clinical anemia in sheep and goats on farms in the southern United States, Vet Parasitol 123:105, 2004.

24. Herd RP, Streitel RH, McClure KE, et al: Control of periparturient rise in worm egg counts of lambing ewes, J Am Vet Med Assoc 182:375, 1983.

25. Courtney CH, Parker CF, McClure KE, et al: A comparison of the periparturient rise in fecal egg counts of exotic and domestic ewes, Int J Parasit 14:377, 1984.

26. Miller JE, Bahirathan M, Lemarie SL, et al: Epidemiology of gastrointestinal nematode parasitism in Suffolk and Gulf Coast native sheep with special emphasis on relative susceptibility to Haemonchus contortus infection, Vet Parasitol 74:55, 1998.

27. Bartram DJ, Leathwick DM, Taylor MA, et al: The role of combination anthelmintic formulations in the sustainable control of sheep nematodes, Vet Parasitol 186:141, 2012.

28. Hennessy DR: Physiology, pharmacology and parasitology, Int J Parasit 27:145, 1997.

29. Bath GF, Hansen JW, Krecek R, et al 2001. Sustainable approaches for managing haemonchosis in sheep and goats, final report of FAO Technical Cooperation Project No. TCP/SAF8821(A).

30. Albers GAA, Gray GD, Piper LR, et al: The genetics of resistance and resilience to Haemonchus contortus infection in young merino sheep, Int J Parasit 17:1355, 1987.

31. Barger IA, Dash KM: Repeatability of ovine fecal egg counts and blood packed cell volumes in Haemonchus contortus infections, Int J Parasit 17:977, 1987.

32. Bath GF, van Wyk JA: The Five Point Check for targeted selective treatment of internal parasites in small ruminants, Small Rumin Res 86:6, 2009.

33. Barger IA: The role of epidemiological knowledge and grazing management for helminth control in small ruminants, Int J Parasit 29:41, 1999.

34. Vlassoff A, Leathwick DM, Heath ACG: The epidemiology of nematode infections of sheep, N Z Vet J 49:213, 2001.

35. Coop RL, Kyriazakis I: Nutrition-parasite interaction, Vet Parasitol 84:187, 1999.

36. Coop RL, Kyriazakis I: Influence of host nutrition on the development and consequences of nematode parasitism in ruminants, Trends Parasitol 17:325, 2001.

37. Sykes AR, Coop RL: Interaction between nutrition and gastrointestinal parasitism in sheep, N Z Vet J 49:222, 2001.

38. Athanasiadou S, Kyriazakis I, Jackson F, et al: Consequences of long-term feeding with condensed tannins on sheep parasitised with Trichostrongylus colubriformis, Int J for Parasit 30:1025, 2000.

39. Athanasiadou S, Kyriazakis I, Jackson F, et al: Direct anthelmintic effects of condensed tannins towards different gastrointestinal nematodes of sheep: in vitro and in vivo studies, Vet Parasitol 99:205, 2001.

40. Niezen JH, Waghorn GC, Graham T, et al: The effect of diet fed to lambs on subsequent development of Trichostrongylus colubriformis larvae in vitro and on pasture, Vet Parasitol 105:269, 2002.

41. Burke JM, Miller JE, Olcott DD, et al: Effect of copper oxide wire particles dosage and feed supplement level on Haemonchus contortus infections in lambs, Vet Parasitol 123:235, 2004.

42. Fleming SA, Craig T, Kaplan RM, et al: Anthelmintic resistance of gastrointestinal parasites in small ruminants, J Vet Intern Med 20:435, 2006.

43. Waller PJ, Faedo M, Ellis K: The potential of nematophagous fungi to control the free-living stages of nematode parasites of sheep: towards the development of a fungal controlled release device, Vet Parasitol 102:299,

2001.

44. Knox MR, Faedo M: Biological control of field infections of nematode parasites of young sheep with Duddingtoniaflagrans and effects of spore intake on efficacy, Vet Parasitol 101:155, 2001.

45. Terrill TH, Larsen M, Samples O, et al: Capability of the nematode-trapping fungus Duddingtonia flagrans to reduce infective larvae of gastrointestinal nematodes in goat feces in the southeastern United States: dose titration and does time interval studies, Vet Parasitol 120:285, 2004.

46. Kabagambe EK, Barras SR, Li Y, et al: Attempts to control haemonchosis in grazing ewes by vaccination with gut membrane proteins of the parasite, Vet Parasitol 92:15, 2004.

47. Knox DP, Redmond DL, Newlands GF, et al: The nature and prospects for gut membrane proteins as vaccine candidates for Haemonchus contortus and other ruminant trichostrongyloids, Int J Parasitol 33:1129, 2003.

48. Smith WD, van Wyk JA, van Strip MF: Preliminary observations on the potential of gut membrane proteins of Haemonchus contortus as candidate vaccine antigens on naturally infected pasture, Vet Parasitol 98:285, 2001.

49. http://www.wormboss.com.au/tests-tools/management-tools/the-barbervax- vaccine-program.php.

50. Meier L, Torgerson PR, Hertzberg H: Vaccination of goats against Haemonchus contortus with the gut membrane proteins Hll/H-gal-GP, Vet Parasit 229:15-21, 2016.

51. Matos AF, Nobre CO, Monteiro JP, et al: Attempt to control Haemonchus contortus in dairy goats with Barbervax, a vaccine derived from the nematode gut membrane glycoproteins, Sm Rum Res 151:1-4, 2017.

52. Gasbarre LC, Miller JE: Genetics of helminth resistance. In Axford RFE, Bishop SC, Nicholas FW, et al, editors: Breeding for disease resistance in farm animals, New York, 1999, CABI Publishing, pp 129-152.

53. Stear MJ, Bishop SC, Mallard BA, et al: The sustainability, feasibility and desirability of breeding livestock for disease resistance, Res Vet Sci 71:1, 2001.

54. Bisset SA, Morris CA, McEwan JC, et al: Breeding sheep in New Zealand that are less reliant on anthelmintics to maintain health and productivity, NZ Vet J 49:236, 2001.

55. Avramenko RW, Redman EM, Lewis R, et al: Exploring the gastrointestinal “nemabiome’: deep amplicon sequencing to quantify the species composition of parasitic nematode communities, PLoS ONE 10(12):1-18, 2015.

56. Levy M, de Queiroz C, Redman E, et al 2018. The nemabiome: a new tool for the small ruminant clinician. Proc. ACVIM Forum.

57. Doyle SR, Laing R, Bartley DJ, et al: A genome resequencing-based genetic map reveals the recombination landscape of an outbred parasitic nematode in the presences of polyploidy and polyandry, Genome Biol. Evol. 10(2):396-409, 2017.

58. Muchiut SM, Fernandez AS, Steffan PE, et al: Anthlmintic resistance: manage­ment of parasite refugia for Haemonchus contortus through the replacement of resistant with susceptible populations, Vet Parasit 254:43-48, 2018.

Evaluation of Parasite Control Programs

1. Scare JA, Slusarewicz P, Noel ML, et al: Evaluation of accuracy and precision of a smarphone based automated parasite egg counting system in comparison to the McMaster and Mini-FLOTAC methods, Vet Parasit 247:85-92, 2017.

2. American Consortium for Small Ruminant Parasite Control (formerly Southern). www.acsrpc.org. Accessed June 2018.

3. Coles GC, Jackson F, Pomroy WE, et al: The detection of anthelmintic resistance in nematodes of veterinary importance, Vet Parasit 136:176, 2006.

4. Fleming SA, Craig T, Kaplan RM, et al: Anthelmintic resistance of gastrointestinal parasites in small ruminants, J Vet Intern Med 20:435, 2006.

5. Mortensen LL, Williamson LH, Terrill TH, et al: Evaluation of prevalence and clinical implications of anthelmintic resistance in gastrointestinal nematodes of goats, J Am Vet Med Assoc 23:495, 2003.

6. Torgerson PR, Schnyder M, Hertzberg H: Detection of anthelmintic resistance: a comparison of mathematical techniques, Vet Parasit 128:291, 2005.

7. Dobson R Drench efficiency calculators. https://wormmailinthecloud. wordpress.com/2011/03/25/drench-efficacy-calculators-update/. Accessed 17 July 2018.

8. Aumont G, Frauli D, Simon R, et al: Comparison of methods for counting third stage larvae of gastrointestinal nematodes of small ruminants in tropical pastures, Vet Parasit 62:307, 1996.

9. Avramenko RW, Redman EM, Lewis R, et al: Exploring the gastrointestinal “nemabiome’: deep amplicon sequencing to quantify the species composition of parasitic nematode communities, PLoS ONE 10(12):1-18, 2015.

10. Levy M, de Queiroz C, Redman E, et al 2018. The nemabiome: a new tool for the small ruminant clinician. Proc. ACVIM Forum.

Lungworm Infection in Large Animals

1. Panuska C: Lungworms of ruminants, Vet Clin North Am Food Anim Pract 22:583, 2006.

2. Taylor MA, Coop RL, Wall RL: Veterinary parasitology, ed 4, Ames, IA, 2016, Blackwell Publishing.

3. Reinemeyer CR, Nielsen MK: Handbook of Equine Parasite Control, Ames, IA, 2013, Wiley-Blackwell.

4. Matthews JB: Parasitic airway disease. In Lekeux P, editor: Equine respiratory diseases, Ithaca, NY, 2002, International Veterinary Information Service.

5. Panayotova-Pencheva MS, Alexandrov MT: Some pathological features of lungs from domestic and wild ruminants with single and mixed proto- strogylid infections, Vet MedInt 2010. [Epub 2010].

6. Otter A: Cattle respiratory disease in late summer and autumn, Vet Rec 179:328, 2016.

7. Wapenaar W, Barkema HW, Eysker M, et al: An outbreak of dictyocaulosis in lactating cows on a dairy farm, J Am Vet Med Assoc 231:1715, 2007.

8. Borsberry S: Impact of lungworm on cattle health and future production, Vet Times 42:10, 2012.

9. Hoglund J, Viring S, Tornqvist M: Seroprevalence of Dictyocaulus viviparus in first season calves in Sweden, Vet Parasitol 125:343, 2004.

10. Jimenez AE, Montenegro VM, Hernandez J, et al: Dynamics of infections with gastrointestinal parasites and Dictyocaulus vivparus in dairy and beef cattle from Costa Rica, Vet Parasitol 148:262, 2007.

11. Moazeni M, Tafti AK: Verminous pneumonia in a calf caused by Dictyocaulus filaria, Vet Rec 160:380, 2007.

12. Berrag B, Cabaret J: Impaired pulmonary gas exchange in ewes naturally infected by small lungworms, Int J Parasitol 26:1397, 1996.

13. Berrag B, Cabaret J: Gastrointestinal and pulmonary nematode infections decrease goat productivity in Moroccan semi-arid conditions, J Helminthol 72:15, 1998.

14. Elsheikha HM: Cattle—employing integrated approach to lungworm control in cattle, Vet Times 41:6, 2011.

15. Ploeger HW, Holzhauer M: Failure to eradicate the lungworm Dictyocaulus vivparus on dairy farms by a single mass-treatment before turnout, Vet Parasitol 185:335, 2012.

16. Lyons ET, Tolliver SC: Macrocyclic lactones for parasite control in equids, Curr Pharm Biotech 13:1070, 2012.

17. Ballweber LR, Baeten LA: Use of macrocyclic lactones in cattle in the USA, Curr Pharm Biotech 13:1063, 2012.

18. Gonzalez-Canga A, Belmar-Liberato R, Escribano M: Extra-label use of ivermectin in some minor ruminant species: pharmacokinetic aspects, Curr Pharm Biotech 13:924, 2012.

19. Veneziano V, di Loria A, Masucci R, et al: Efficacy of eprinomectin pour-on against Dictyocaulus arnfieldi infection in donkeys (Equus asinus), Vet J 190:414, 2011.

20. Jacobs DE, Fisher MA, Hutchinson MJ, et al: An evaluation of abamectin given at turnout and six weeks after turnout for the control of nematode infections in calves, Vet Rec 136:386, 1995.

21. Stromberg BE, Averbeck GA, Anderson JF, et al: Comparison of the persistent efficacy of the injectable and pour-on formulations of doramectin against artificially induced infection with Dictyocaulus viviparus in cattle, Vet Parasitol 87:45, 1999.

22. Eysker M, Boersema JH, Cornelissen JB, et al: Residual effect of injectable moxidectin against lungworm and gastrointestinal nematodes in calves exposed to high pasture infectivity levels in the Netherlands, Vet Parasitol 61:61, 1996.

23. Eysker M, Boersema JH, Kooyman FN, et al: Comparison between fenbendazole and moxidectin applied in a dose and move system for the control of Dictyocaulus viviparus infections in calves, Vet Parasitol 64:187, 1996.

24. Taylor SM, Kenny J, Edgar HW, et al: Induction of protective immunity to Dictyocaulus viviparus in calves while under treatment with endectocides, Vet Parasitol 88:219, 2000.

25. Eysker M, Boersema JH, Cornelissen JB, et al: Efficacy of Michel’s “dose and move” system against Dictyocaulus viviparus infections in cattle using moxidectin as anthelmintic, Vet Parasitol 58:49, 1995.

26. Taylor SM, Kenny J, Edgar HW, et al: Protection against Dictyocaulus viviparus in second-year cattle after first-year treatment with doramectin or an ivermectin bolus, Vet Rec 141:593, 1997.

27. Grimshaw WT, Hong C, Webster R, et al: Development of immunity to lungworm in vaccinated calves treated with an ivermectin sustained-release bolus or an oxfendazole pulse-release bolus at turnout, Vet Parasitol 62:119, 1996.

28. Rehbein S, Knaus M, Visser M, et al: Control of parasitic infection with ivermectin long-acting injection (IVOMEC® GOLD) and production benefit in first-season grazing cattle facing a high-level larval challenge in Germany, Parasitol Res 115:4639, 2016.

29. Jacobs DE, Hutchinson MJ, Abbott EM: Evaluation of the effect of the fenbendazole sustained-release intraruminal device on the immunity of calves to lungworm, Vet Rec 139:60, 1996.

30. Borgsteede FH, van der Linden JN, Cornelissen JB, et al: Effect of three sustained-release devices on parasitic bronchitis in first-year calves, Vet Rec 142:696, 1998.

31. Kerboeuf D, Hoste H, Hubert J, et al: Response of cattle treated with a fenbendazole slow release bolus to challenge from nematodes the following season, Vet Parasitol 62:107, 1996.

32. Schnieder T, Epe C, Von Samson-Himmelstjerna G, et al: The development of protective immunity against gastrointestinal nematode and lungworm infections after use of an ivermectin bolus in first-year grazing calves, Vet Parasitol 64:239, 1996.

33. McKeand JB: Vaccine development and diagnostics of Dictyocaulus viviparus, Parasitology 120:17, 2000.

34. Vercruysse J, Charlier J, Dorny P, et al: Diagnosis of helminth infections in cattle: were we wrong in the past? In Proceedings of the 2006 World Buiatrics Congress, Oct 15-19, Nice, France, 2006.

35. Ploeger HW, Verbeek PC, Dekkers CWH, et al: The value of bulk-tank milk ELISA and individual serological and faecal examination for diagnosing (sub)clinical Dictyocaulus viviparus infection in dairy cows, Vet Parasitol 184:168, 2012.

36. Schunn A-M, Forbes A, Schnieder T, et al: Validation of a Dictyocaulus viviparus MSP-ELISA and cut-off adjustment in a one-year longitudinal field study in dairy cattle herds, Vet Parasitol 189:291, 2012.

37. Vadlejch J, Makovicky P, Cadkova Z, et al: Efficacy and persistent activity of moxidectin against natural Muellerius capillaris infection in goats and pathological consequences of muelleriosis, Vet Parasitol 218:98, 2016.

Coccidiosis in Food Animals

1. Khodakaram-Taft A, Hashemnia M: An overview of intestinal coccidiosis in sheep and goats, Revue Med Vet 167:9, 2017.

2. Keeton STN, Navarre CB: Coccidiosis in large and small ruminants, Vet Clin NAmer Food Anim Pract 34:201, 2018.

3. Taylor MA, Coop RL, Wall RL: Veterinary parasitology, ed 4, Ames, IA,

2016, Blackwell Publishing.

4. Jolley WR, Bardsley KD: Ruminant coccidiosis, Vet Clin North Am Food Anim Pract 22:13, 2006.

5. Isler CM, Bellamy JE, Wobeser GA: Pathogenesis of neurological signs associated with bovine enteric coccidiosis: a prospective study and review, Can J Vet Res 51:261, 1987.

6. Jubb TF: Nervous disease associated with coccidiosis in young cattle, Aust Vet J 65:252, 1988.

7. Hill F, Ebbett P: Neurological signs associated with coccidiosis in a beef steer, N Z Vet J 48:195, 2000.

8. Isler CM, Bellamy JE, Wobeser GA: Characteristics of the labile neurotoxin associated with nervous coccidiosis, Can J Vet Res 51:271, 1987.

9. Mitchell ESE, Smith RP, Ellis-Iversen J: Husbandry risk factors associated with subclinical coccidiosis in young cattle, Vet J 193:119, 2012.

10. Lucas AS, Swecker WS, Lindsay DS, et al: The effect of weaning method on coccidial infections in beef calves, Vet Parasitol 145:228, 2007.

11. Forslid A, Christensson D, Dahl J, et al: Bovine eimeriosis in Swedish calves: epidemiology and insights into sampling procedures, Vet Parastiol: Regional Studies Reports 1-2:16, 2015.

12. Quigley JD, Jr, Drewry JJ, Murray LM, et al: Effects of lasalocid in milk replacer or calf starter on health and performance of calves challenged with Eimeria species, J Dairy Sci 80:2972, 1997.

13. McAllister TA, Annett CB, Olson ME, et al: Effect of salinomycin on giardiasis and coccidiosis in growing lambs, J Anim Sci 74:896, 1996.

14. Mundt H-C, Dittmar K, Daugschies A, et al: Study of the comparative efficacy of toltrazuril and diclazuril against ovine coccidiosis in housed lambs, Parasitol Res 105:S141, 2009.

15. de Souza Rodrigues F, Cezar AS, de Memezes FR, et al: Efficacy and economic analysis of two treatment regimens using toltrazuril in lambs naturally infected with Eimeria spp. on pasture, Parasitol Res 116:2911,

2017.

16. Veronesi F, Diaferia M, Viola O, et al: Long-term effect of toltrazuril on growth performances of dairy heifers and beef calves exposed to natural Eimeria zuernii and Eimeria bovis infections, Vet J 190:296, 2011.

17. Jonsson NN, Piper EK, Gray CP, et al: Efficacy of toltrazuril 5% suspension against Eimeria bovis and Eimeria zuernii in calves and observations on the associated immunopathology, Parasitol Res 109:S113, 2011.

18. Enemark HL, Dahl J, Enemark JMD: Significance of timing on effect of mataphylactic toltrazuril treatment against eimeriosis in calves, Parasitol Res 114:S201, 2015.

19. Zechner G, Bauer C, Jacobs J, et al: Efficacy of diclazuril and toltrazuril in the prevention of coccidiosis in dairy calves under field conditions, Vet Rec 176:126, 2015.

20. Svensson C, Olofsson H, Uggla A: Immunization of calves against Eimeria alabamensis coccidiosis, Appl Parasitol 37:209, 1996.

21. Heath HL, Blagburn BL, Elsasser TH, et al: Hormonal modulation of the physiologic responses of calves infected with Eimeria bovis, Am J Vet Res 58:891, 1997.

22. Svensson C: The survival and transmission of oocysts of Eimeria alabamensis in hay, Vet Parasitol 69:211, 1997.

23. Wunderlich F, Al-Quraishy S, Steinbrenner H, et al: Towards identifying novel anit-Eimeria agents: trace elements, vitamins, and plant-based natural products, Parasitol Res 113:3547, 2014.

24. Hoste H, Torres-Acosta JFJ, Sandoval-Castro CA, et al: Tannin containing legumes as a model for nutraceuticals against digestive parasites in livestock, Vet Parasitol 212:5, 2015.

25. Saratsis A, Voutzourakis N, Theodosiou T, et al: The effect of sainfoin (Onobrychis viciifolia) and carob pods (Ceratonia siliqua) feeding regimes on the control of lamb coccidiosis, Parasitol Res 115:2233, 2016.

26. Burke JM, Miller JE, Terrill TH, et al: Sericea lespdeza as an aid in the control of Eimeria spp. in lambs, Vet Parasitol 193:39, 2013.

27. Saratsis A, Regos I, Tzanidakis N, et al: In vivo and in vitro efficacy of sainfoin (Onobrychis viciifolia) against Eimeria spp in lambs, Vet Parastol 188:1, 2012.

28. Graquelli C, Zanzani SA, Gazzonis AL, et al: Effects of condensed tannin on natural coccidian infection in goat kids, Sm Rum Res 126:19, 2015.

29. Kommuru DS, Barker T, Desai S, et al: Use of pelleted sericea lespedeza (Lespedeza euneata) for natural control of coccidia and gastrointesitnal nematodes in weaned goats, Vet Parasitol 214:191, 2014.

30. Markovics A, Cohen I, Muklada H, et al: Consumption of Pistacia lentiscus foliage alleviates coccidiosis in young goats, Vet Parastitol 186:165, 2012.

31. Hur SN, Molan AL, Cha JO: Effects of feeding condensed tannin-containing plants on natural coccidian infection in goats, Asian-Aust J Anim Sci 18:1262, 2005.

Anthelmintic Use

1. Riviere JE, Papich MG: Veterinary pharmacology and therapeutics, ed 9, Ames, IA, 2009, Wiley-Blackwell.

Anthelmintic Drugs

1. Abongwa M, Martin RJ, Robertson AP: A brief review on the mode of action of antinematodal drugs, Acta Vet (Beogr) 67(2):137-152, 2017.

2. Wolstenholme AF: Ion channels and receptor as targets for the control of parasitic nematodes, Int J Parasit Drugs Drug Resist 1:2, 2011.

3. Sales N, Love S: Resistance of Haemonchus sp. to monepantel and reduced efficacy of a derquantel/abamectin combination confirmed in sheep in NSW, Australia, Vet Parasitol 228:193-196, 2016.

4. Scott I, Pomroy WE, Kenyon PR, et al: Lack of efficacy of monepantel against Teladorsagia circumcincta and Trichostrongylus colubriformis, Vet Parasitol 198:166-171, 2013.

5. Leathwick DM, Ganesh S, Waghorn T: Evidence for reversion towards anthelmintic susceptibility in Telodorsagia circumcinta in response to resistance management programmes, Inter J Parasit: Drugs and Drug Resistance 5:9-15, 2015.