DOCSLIB.ORG

Tick Management Handbook

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Tick Management Handbook Tick Management Handbook An integrated guide for homeowners, pest control operators, and public health offi cials for the prevention of tick-associated disease Revised Edition Prepared by: Kirby C. Stafford III, Ph.D. Vice Director, Chief Entomologist Connecticut Agricultural Experiment Station, New Haven Support for printing this revised edition provided by The Connecticut Agricultural Experiment Station The Connecticut General Assembly Bulletin No. 1010 OutsideCovers.indd 3 12/10/07 8:16:48 AM Stafford The Connecticut Agricultural Experimentation Station Acknowledgements Thanks are given to Dr. Joseph Piesman (CDC, Fort Collins, Colorado), Dr. Peter J. Krause (University of Connecticut Health Center, Farmington, Connecticut), Carol Lemmon (CAES, retired), Bradford Robinson (Connecticut Department of Environmental Protection, Pesticide Management Division), Judith Nelson, Director (retired), and the staff of the Westport Weston Health District (CT), Dr. Terry Schulze (NJ), Dr. Gary Maupin (CDC, retired), and Drs. Louis A. Magnarelli and John F. Anderson (CAES) for reviewing parts or all of the original handbook. Their comments and suggestions were sincerely appreciated. Thanks are also extended to Vickie Bomba-Lewandoski (CAES) for publication and printing assistance, Heidi Stuber (CAES) for her work in taking some of the tick photographs for the handbook, and Himanshu Bharadwaj for graphic assistance on the author’s tick life cycle diagrams. Dr. Louis A. Magnarelli also provided invaluable editorial and review comments for this revised edition. Sincere thanks are given to the companies, government organizations, foundations, and individuals for permission to use their photographs or illustrations and federal government sources are also gratefully acknowledged. This handbook would be incomplete without their contributions. Photo Credits Many of the pictures and illustrations in the handbook are those of the author or staff at The Connecticut Agricultural Experiment Station (CAES). All of the pictures are numbered and source credits provided below. Some sources also are otherwise noted in captions. Requests for use of photographs and illustrations belonging to the author and CAES may be directed to the author. Permission to use any other material must be obtained from the original source. Pfi zer Central Research (Groton Point Road, Groton, CT): 1, 7, 16, 17, 22, 27, 30, 31, 47, 49, 51, 53-54, 65- 68, 104, 105. Centers for Disease Control and Prevention: 15, 32, 38, 40, 41, 44, 55, 57-58, 60-63, maps of Lyme disease and Rocky Mountain spotted fever cases. United States Department of Agriculture: cover (tick), tick morphology fi gure (adapted from Strickland et al. 1976), 75. American Lyme Disease Foundation (Somers, NY): 10, 11, 23, 97. Barnstable County Cooperative Extension (Massachusetts): 76. Vector-borne Disease Laboratory, Maine Medical Center Research Institute (Portland, ME): 37. United Industries (Spectrum Brands): 72. Ric Felton (Goshen, CT; www.semguy.com): 14. Jim Occi (Cranford, NJ): 12, 45, 101. Lynne Rhodes (Old Saybrook, CT): 48, 50, 52. Steven A. Levy, DMV (Durham, CT): 64. CAES: Jeffrey S. Ward, 6; Paul Gough, 74; Uma Ramakrishnan, 90-91; Jeffrey Fengler, 98; Heidi Stuber, 24-26, 28-29, 33-36, 39, 42-43, 46; Anuja Bharadwaj, 112, 113; Kirby Stafford, cover (landscape), 2-5, 8-9, 13, 18-21, 56, 58-59, 69-71, 73, 77-89, 92-96, 99-100, 102-103, 106-111, 114. Disclaimer Mention of a product or company is for informational purposes only and does not constitute an endorsement by The Connecticut Agricultural Experiment Station. Published Fall 2007 © 2007 The Connecticut Agricultural Experiment Station Bulletin No. 1010 Stafford The Connecticut Agricultural Experimentation Station Table of Contents Introduction . 1 Ticks of the Northeastern United States . 3 Tick biology and behavior . 4 Tick morphology . 6 How a tick feeds . 7 Tick sampling . 8 Blacklegged tick, Ixodes scapularis . 9 American dog tick, Dermacentor variabilis . 13 Lone star tick, Amblyomma americanum . 15 Other ticks . 16 Tick-Associated Diseases . 20 Lyme disease . 21 Southern tick-associated rash illness . 26 Human babesiosis . 27 Human granulocytic anaplasmosis . 28 Human monocytic ehrlichiosis . 29 Rocky Mountain spotted fever . 30 Tick paralysis . 32 Tularemia . 32 Powassan encephalitis . 33 Tick-borne relapsing fever . 33 Colorado tick fever . 33 Bartonella infections . 33 Lyme disease in companion animals . 34 Personal Protection . 35 Tick bite prevention . 35 Tick removal . 37 Topically applied insect repellents . 39 Human Lyme disease vaccine . 43 Integrated Tick Management . 44 Landscape management . 46 Organic land care practices . 50 Environmentally friendly lawns and backyard wildlife programs . 50 Management of host animals . 52 Prevention of tick-associated disease in companion animals . 62 Area-wide Chemical Control of Ticks . 63 Acaricides used for tick control . 64 Homeowner application of acaricides for tick control . 65 Commercial application of acaricides . 66 An acaricide primer . 68 Additional sources of information about pesticides . 69 Biological Control of Ticks . 70 Selected Bibliography and References . 71 Bulletin No. 1010 Stafford The Connecticut Agricultural Experimentation Station Preface The original 2004 edition was published as part of a community-based program for the prevention of tick-borne illness supported through a cooperative agreement with the Centers for Disease Control and Prevention (CDC). Of the 10,000 copies originally printed, very few remained after wide distribution through Connecticut, New England and elsewhere. The publication was also available online from The Connecticut Agricultural Experiment Station’s website (www.ct.gov/caes) and a link through the CDC. In 2006 alone, 117,000 copies were downloaded from the Experiment Station’s website. Nevertheless, there continues to be demand for printed copies. This reprinting of a revised tick management handbook in 2007 was made possible with the support of the Connecticut Offi ce of Policy and Management and the Connecticut General Assembly. The information in this publication depends not only on the research conducted by scientists at The Connecticut Agricultural Experiment Station, but on that of many other fellow scientists and their published fi ndings as well as disease statistics compiled by the CDC and state health departments. The research and community outreach by The Connecticut Agricultural Experiment Station on ticks and tick-associated diseases would not have been possible without the collaboration and support of the Connecticut Department of Public Health and local health departments, particularly the Westport Weston Health District, the Torrington Area Health District, and the Ledge Light Health District. As this publication is intended as a general guide for the public, pest control operators, and public health offi cials, citations are not directly provided in the text. A selected bibliography of references is listed at the end for those who wish to pursue specifi c topics further or consult original publications. While the reference list is fairly comprehensive, the scientifi c literature related to ticks, Lyme disease, and other tick-associated diseases is extensive. There are many excellent papers that could not be.
Load more

Recommended publications
  • Human Parasitisation with Nymphal Dermacentor Auratus Supino, 1897 (Acari: Ixodoiidea: Ixodidae)
    Veterinary Practitioner Vol. 20 No. 2 December 2019 HUMAN PARASITISATION WITH NYMPHAL DERMACENTOR AURATUS SUPINO, 1897 (ACARI: IXODOIIDEA: IXODIDAE) Saidul Islam1, Prabhat Chandra Sarmah2 and Kanta Bhattacharjee3 Department of Parasitology, College of Veterinary Science Assam Agricultural University, Khanapara, Guwahati- 781 022, Assam, India Received on: 29.09.2019 ABSTRACT Accepted on: 03.11.2019 Human parasitisation with nymphal tick and its morhphology has been described. First author accidentally acquired with three nymphal tick infestation from wilderness. Nymphs were attached in hand and both the arm pits leading to intense itching, oedematous swelling and pinkish skin discolouration at the site of attachment. On sixth day of infestation there was mild pyrexia, the differential leukocytic count showed polymorphs 68%, lymphocytes 27%, monocytes 2% and eosinophils 3%. Though the conditions were ameliorated after steroid therapy, yet, the site of attachment was indurated for 8 months which gradually resolved. A nymph replete with blood meal was put in a desiccator with sufficient humidity at room temperature of 170C for moulting that transformed into adult female in 43 days measuring 5.0 X 5.5 mm in size. Detail morphological study confirmed the species as Dermacentor auratus Supino, 1897. Significance of human tick parasitisation has been reviewed and warranted for transmission of possible vector borne pathogens. Key words: Dermacentor auratus, nymph, human, India Introduction Result and Discussion Ticks form a major group of ectoparasites of animals, Tick species and morphology birds and reptiles to cause different types of direct injuries The partially fed nymphs were brown coloured measuring and transmit infectious diseases. Human parasitisation 2.0 X 2.5 mm in size with deep cervical groove, nearly circular by tick, although not common as compared to the animals, small scutum broadest in the middle and 3/3 dentition in the has been recorded in different parts of the world (Wassef hypostome.
    [Show full text]
  • Distribution of Tick-Borne Diseases in China Xian-Bo Wu1, Ren-Hua Na2, Shan-Shan Wei2, Jin-Song Zhu3 and Hong-Juan Peng2*
    Wu et al. Parasites & Vectors 2013, 6:119 http://www.parasitesandvectors.com/content/6/1/119 REVIEW Open Access Distribution of tick-borne diseases in China Xian-Bo Wu1, Ren-Hua Na2, Shan-Shan Wei2, Jin-Song Zhu3 and Hong-Juan Peng2* Abstract As an important contributor to vector-borne diseases in China, in recent years, tick-borne diseases have attracted much attention because of their increasing incidence and consequent significant harm to livestock and human health. The most commonly observed human tick-borne diseases in China include Lyme borreliosis (known as Lyme disease in China), tick-borne encephalitis (known as Forest encephalitis in China), Crimean-Congo hemorrhagic fever (known as Xinjiang hemorrhagic fever in China), Q-fever, tularemia and North-Asia tick-borne spotted fever. In recent years, some emerging tick-borne diseases, such as human monocytic ehrlichiosis, human granulocytic anaplasmosis, and a novel bunyavirus infection, have been reported frequently in China. Other tick-borne diseases that are not as frequently reported in China include Colorado fever, oriental spotted fever and piroplasmosis. Detailed information regarding the history, characteristics, and current epidemic status of these human tick-borne diseases in China will be reviewed in this paper. It is clear that greater efforts in government management and research are required for the prevention, control, diagnosis, and treatment of tick-borne diseases, as well as for the control of ticks, in order to decrease the tick-borne disease burden in China. Keywords: Ticks, Tick-borne diseases, Epidemic, China Review (Table 1) [2,4]. Continuous reports of emerging tick-borne Ticks can carry and transmit viruses, bacteria, rickettsia, disease cases in Shandong, Henan, Hebei, Anhui, and spirochetes, protozoans, Chlamydia, Mycoplasma,Bartonia other provinces demonstrate the rise of these diseases bodies, and nematodes [1,2].
    [Show full text]
  • Multiple Pruritic Papules from Lone Star Tick Larvae Bites
    OBSERVATION Multiple Pruritic Papules From Lone Star Tick Larvae Bites Emily J. Fisher, MD; Jun Mo, MD; Anne W. Lucky, MD Background: Ticks are the second most common vec- was treated with permethrin cream and the lesions re- tors of human infectious diseases in the world. In addi- solved over the following 3 weeks without sequelae. The tion to their role as vectors, ticks and their larvae can also organism was later identified as the larva of Amblyomma produce primary skin manifestations. Infestation by the species, the lone star tick. larvae of ticks is not commonly recognized, with only 3 cases reported in the literature. The presence of mul- Conclusions: Multiple pruritic papules can pose a di- tiple lesions and partially burrowed 6-legged tick larvae agnostic challenge. The patient described herein had an can present a diagnostic challenge for clinicians. unusually large number of pruritic papules as well as tick larvae present on her skin. Recognition of lone star tick Observation: We describe a 51-year-old healthy woman larvae as a cause of multiple bites may be helpful in simi- who presented to our clinic with multiple erythematous lar cases. papules and partially burrowed organisms 5 days after exposure to a wooded area in southern Kentucky. She Arch Dermatol. 2006;142:491-494 ATIENTS WITH MULTIPLE PRU- acteristic clinical and diagnostic features of ritic papules that appear to be infestation by larvae of Amblyomma species bitespresentachallengetothe and may help clinicians make similar di- clinician. We present a case of agnoses in the future. a healthy 51-year-old woman whowasbittenbymultiplelarvaeofthetick, P REPORT OF A CASE Amblyomma species, most likely A ameri- canum or the lone star tick.
    [Show full text]
  • Severe Babesiosis Caused by Babesia Divergens in a Host with Intact Spleen, Russia, 2018 T ⁎ Irina V
    Ticks and Tick-borne Diseases 10 (2019) 101262 Contents lists available at ScienceDirect Ticks and Tick-borne Diseases journal homepage: www.elsevier.com/locate/ttbdis Severe babesiosis caused by Babesia divergens in a host with intact spleen, Russia, 2018 T ⁎ Irina V. Kukinaa, Olga P. Zelyaa, , Tatiana M. Guzeevaa, Ludmila S. Karanb, Irina A. Perkovskayac, Nina I. Tymoshenkod, Marina V. Guzeevad a Sechenov First Moscow State Medical University (Sechenov University), Moscow, Russian Federation b Central Research Institute of Epidemiology, Moscow, Russian Federation c Infectious Clinical Hospital №2 of the Moscow Department of Health, Moscow, Russian Federation d Centre for Hygiene and Epidemiology in Moscow, Moscow, Russian Federation ARTICLE INFO ABSTRACT Keywords: We report a case of severe babesiosis caused by the bovine pathogen Babesia divergens with the development of Protozoan parasites multisystem failure in a splenic host. Immunosuppression other than splenectomy can also predispose people to Babesia divergens B. divergens. There was heavy multiple invasion of up to 14 parasites inside the erythrocyte, which had not been Ixodes ricinus previously observed even in asplenic hosts. The piroplasm 18S rRNA sequence from our patient was identical B. Tick-borne disease divergens EU lineage with identity 99.5–100%. Human babesiosis 1. Introduction Leucocyte left shift with immature neutrophils, signs of dysery- thropoiesis, anisocytosis, and poikilocytosis were seen on the peripheral Babesia divergens, a protozoan blood parasite (Apicomplexa: smear. Numerous intra-erythrocytic parasites were found, which were Babesiidae) is primarily specific to bovines. This parasite is widespread initially falsely identified as Plasmodium falciparum. The patient was throughout Europe within the vector Ixodes ricinus.
    [Show full text]
  • Management of Arthropod Pathogen Vectors in North America: Minimizing Adverse Effects on Pollinators
    Journal of Medical Entomology, 2017, 1–13 doi: 10.1093/jme/tjx146 Forum Forum Management of Arthropod Pathogen Vectors in North America: Minimizing Adverse Effects on Pollinators Howard S. Ginsberg,1,2 Timothy A. Bargar,3 Michelle L. Hladik,4 and Charles Lubelczyk5 1USGS Patuxent Wildlife Research Center, University of Rhode Island, RI Field Station, Woodward Hall – PSE, Kingston, RI 02881 ([email protected]), 2Corresponding author, e-mail: [email protected], 3USGS Wetland and Aquatic Research Center, 7920 NW 71st St., Gainesville, FL 32653 ([email protected]), 4USGS California Water Science Center, 6000 J St., Placer Hall, Sacramento, CA 95819 ([email protected]), and 5Maine Medical Center Research Institute, Vector-Borne Disease Laboratory, 81 Research Dr., Scarborough, ME 04074 ([email protected]) Subject Editor: Lars Eisen Received 26 April 2017; Editorial decision 19 June 2017 Abstract Tick and mosquito management is important to public health protection. At the same time, growing concerns about declines of pollinator species raise the question of whether vector control practices might affect pollinator populations. We report the results of a task force of the North American Pollinator Protection Campaign (NAPPC) that examined potential effects of vector management practices on pollinators, and how these pro- grams could be adjusted to minimize negative effects on pollinating species. The main types of vector control practices that might affect pollinators are landscape manipulation, biocontrol, and pesticide applications. Some current practices already minimize effects of vector control on pollinators (e.g., short-lived pesticides and application-targeting technologies). Nontarget effects can be further diminished by taking pollinator protection into account in the planning stages of vector management programs.
    [Show full text]
  • Information to Users
    INFORMATION TO USERS The most advanced technology has been used to photograph and reproduce this manuscript from the microfilm master. UMI films the text directly from the original or copy submitted. Thus, some thesis and dissertation copies are in typewriter face, while others may be from any type of computer printer. The quality of this reproduction is dependent upon the quality of the copy submitted. Broken or indistinct print, colored or poor quality illustrations and photographs, print bleedthrough, substandard margins, and improper alignment can adversely affect reproduction. In the unlikely event that the author did not send UMI a complete manuscript and there are missing pages, these will be noted. Also, if unauthorized copyright material had to be removed, a note will indicate the deletion. Oversize materials (e.g., maps, drawings, charts) are reproduced by sectioning the original, beginning at the upper left-hand corner and continuing from left to right in equal sections with small overlaps. Each original is also photographed in one exposure and is included in reduced form at the back of the book. Photographs included in the original manuscript have been reproduced xerographically in this copy. Higher quality 6" x 9" black and white photographic prints are available for any photographs or illustrations appearing in this copy for an additional charge. Contact UMI directly to order. University Microfilms International A Bell & Howell Information Company 300 North Zeeb Road. Ann Arbor, Ml 48106-1346 USA 313/761-4700 800/521-0600 Order Number 9111799 Evolutionary morphology of the locomotor apparatus in Arachnida Shultz, Jeffrey Walden, Ph.D.
    [Show full text]
  • Meeting the Challenge of Tick-Borne Disease Control a Proposal For
    Ticks and Tick-borne Diseases 10 (2019) 213–218 Contents lists available at ScienceDirect Ticks and Tick-borne Diseases journal homepage: www.elsevier.com/locate/ttbdis Letters to the Editor Meeting the challenge of tick-borne disease control: A proposal for 1000 Ixodes genomes T 1. Introduction reported to the Centers for Disease Control and Prevention (2018) each year represent only about 10% of actual cases (CDC; Hinckley et al., At the ‘One Health’ 9th Tick and Tick-borne Pathogen Conference 2014; Nelson et al., 2015). In Europe, roughly 85,000 LD cases are and 1st Asia Pacific Rickettsia Conference (TTP9-APRC1; http://www. reported annually, although actual case numbers are unknown ttp9-aprc1.com), 27 August–1 September 2017 in Cairns, Australia, (European Centre for Disease Prevention and Control (ECDC), 2012). members of the tick and tick-borne disease (TBD) research communities Recent studies are also shedding light on the transmission of human and assembled to discuss a high priority research agenda. Diseases trans- animal pathogens by Australian ticks and the role of Ixodes holocyclus, mitted by hard ticks (subphylum Chelicerata; subclass Acari; family as a vector (reviewed in Graves and Stenos, 2017; Greay et al., 2018). Ixodidae) have substantial impacts on public health and are on the rise Options to control hard ticks and the pathogens they transmit are globally due to human population growth and change in geographic limited. Human vaccines are not available, except against the tick- ranges of tick vectors (de la Fuente et al., 2016). The genus Ixodes is a borne encephalitis virus (Heinz and Stiasny, 2012).
    [Show full text]
  • HIV (Human Immunodeficiency Virus)
    TABLE OF CONTENTS AFRICAN TICK BITE FEVER .........................................................................................3 AMEBIASIS .....................................................................................................................4 ANTHRAX .......................................................................................................................5 ASEPTIC MENINGITIS ...................................................................................................6 BACTERIAL MENINGITIS, OTHER ................................................................................7 BOTULISM, FOODBORNE .............................................................................................8 BOTULISM, INFANT .......................................................................................................9 BOTULISM, WOUND .................................................................................................... 10 BOTULISM, OTHER ...................................................................................................... 11 BRUCELLOSIS ............................................................................................................. 12 CAMPYLOBACTERIOSIS ............................................................................................. 13 CHANCROID ................................................................................................................. 14 CHLAMYDIA TRACHOMATIS INFECTION .................................................................
    [Show full text]
  • Ecology of Red Deer a Research Review Relevant to Their Management in Scotland
    Ecologyof RedDeer A researchreview relevant to theirmanagement in Scotland Instituteof TerrestrialEcology Natural EnvironmentResearch Council á á á á á Natural Environment Research Council Institute of Terrestrial Ecology Ecology of Red Deer A research review relevant to their management in Scotland Brian Mitchell, Brian W. Staines and David Welch Institute of Terrestrial Ecology Banchory iv Printed in England by Graphic Art (Cambridge) Ltd. ©Copyright 1977 Published in 1977 by Institute of Terrestrial Ecology 68 Hills Road Cambridge CB2 11LA ISBN 0 904282 090 Authors' address: Institute of Terrestrial Ecology Hill of Brathens Glassel, Banchory Kincardineshire AB3 4BY Telephone 033 02 3434. The Institute of Terrestrial Ecology (ITE) was established in 1973, from the former Nature Conservancy's research stations and staff, joined later by the Institute of Tree Biology and the Culture Centre of Algae and Protozoa. ITE contributes to and draws upon the collective knowledge of the fourteen sister institutes which make up the Natural Environment Research Council, spanning all the environmental sciences. The Institute studies the factors determining the structure, composition and processes of land and freshwater systems, and of individual plant and animal species. It is developing a Sounder scientific basis for predicting and modelling environmental trends arising from natural or man-made change. The results of this research are available to those responsible for the protection, management and wise use of our natural resources. Nearly half of ITE'Swork is research commissioned by customers, such as the Nature Conservancy Council who require information for wildlife conservation, the Forestry Commission and the Department of the Environment. The remainder is fundamental research supported by NERC.
    [Show full text]
  • Rare Genomic Changes and Mitochondrial Sequences Provide Independent Support for Congruent Relationships Among the Sea Spiders (Arthropoda, Pycnogonida)
    Molecular Phylogenetics and Evolution 57 (2010) 59–70 Contents lists available at ScienceDirect Molecular Phylogenetics and Evolution journal homepage: www.elsevier.com/locate/ympev Rare genomic changes and mitochondrial sequences provide independent support for congruent relationships among the sea spiders (Arthropoda, Pycnogonida) Susan E. Masta *, Andrew McCall, Stuart J. Longhorn 1 Department of Biology, Portland State University, P.O. Box 751, Portland, OR 97207, USA article info abstract Article history: Pycnogonids, or sea spiders, are an enigmatic group of arthropods. Their unique anatomical features have Received 15 September 2009 made them difficult to place within the broader group Arthropoda. Most attempts to classify members of Revised 15 June 2010 Pycnogonida have focused on utilizing these anatomical features to infer relatedness. Using data from Accepted 25 June 2010 mitochondrial genomes, we show that pycnogonids are placed as derived chelicerates, challenging the Available online 30 June 2010 hypothesis that they diverged early in arthropod history. Our increased taxon sampling of three new mitochondrial genomes also allows us to infer phylogenetic relatedness among major pycnogonid lin- Keywords: eages. Phylogenetic analyses based on all 13 mitochondrial protein-coding genes yield well-resolved rela- Chelicerata tionships among the sea spider lineages. Gene order and tRNA secondary structure characters provide Arachnida Mitochondrial genomics independent lines of evidence for these inferred phylogenetic relationships among pycnogonids, and tRNA secondary structure show a minimal amount of homoplasy. Additionally, rare changes in three tRNA genes unite pycnogonids Lys Ser(AGN) Gene rearrangements as a clade; these include changes in anticodon identity in tRNA and tRNA and the shared loss of D-arm sequence in the tRNAAla gene.
    [Show full text]
  • Murine Typhus As a Common Cause of Fever of Intermediate Duration a 17-Year Study in the South of Spain
    ORIGINAL INVESTIGATION Murine Typhus as a Common Cause of Fever of Intermediate Duration A 17-Year Study in the South of Spain M. Bernabeu-Wittel, MD; J. Pacho´n, PhD; A. Alarco´n, PhD; L. F. Lo´pez-Corte´s, PhD; P. Viciana, PhD; M. E. Jime´nez-Mejı´as, PhD; J. L. Villanueva, PhD; R. Torronteras, PhD; F. J. Caballero-Granado, PhD Background: Fever of intermediate duration (FID), char- cluded, and MT was the cause in 6.7% of 926 cases of acterized by a febrile syndrome lasting from 7 to 28 days, FID. Insect bites were reported in only 3.8% of the cases is a frequent condition in clinical practice, but its epide- of MT previous to the onset of illness. Most cases (62.5%) miological and etiologic features are not well described. occurred in the summer and fall. A high frequency of rash Murine typhus (MT) is a worldwide illness; neverthe- (62.5%) was noted. Arthromyalgia (77%), headache less, to our knowledge, no studies describing its epide- (71%), and respiratory (25%) and gastrointestinal (23%) miological and clinical characteristics have been per- symptoms were also frequent. Laboratory findings were formed in the south of Spain. Also, its significance as a unspecific. Organ complications were uncommon (8.6%), cause of FID is unknown. but they were severe in 4 cases. The mean duration of fever was 12.5 days. Cure was achieved in all cases, al- Objective: To determine the epidemiological features, though only 44 patients received specific treatment. clinical characteristics, and prognosis of MT and, pro- spectively, its incidence as a cause of FID.
    [Show full text]
  • Guide to Ticks and Tick-Borne Diseases
    Integrated Pest Management GUIDE TO TICKS AND TICK-BORNE DISEASES Plant Protection Programs College of Agriculture, Food and Natural Resources Published by University of Missouri Extension IPM1032 This publication is part of a series of integrated pest CONTENTS management (IPM) manuals prepared by the Plant Protection Programs of the University of Missouri. Topics INTRODUCTION TO TICKS . 3 covered in the series include an introduction to scouting, Morphology . 4 weed identification and management, plant diseases, and Identification . .6 insects of field and horticultural crops. These IPM manuals Life cycle . .7 are available from MU Extension at the following address: Behavior . 8 Distribution and ecology . 10 Extension Publications MEDICALLY IMPORTANT TICKS . .12 2800 Maguire Blvd. Lone star tick (Amblyomma americanum) . 12 Columbia, MO 65211 American dog tick (Dermacentor variabilis) .13 800-292-0969 Blacklegged tick (Ixodes scapularis) . 13 Brown dog tick (Rhipicephalus sanguineus) . 14 Relapsing fever tick (Ornithodoros turicata) 14 Bat tick (Ornithodoros kelleyi) . .15 Author Richard M. Houseman TICK-BORNE DISEASES . .16 Associate Professor of Entomology Human ehrlichiosis . 16 University of Missouri Extension Rocky Mountain spotted fever . 17 Southern tick-associated rash illness . .17 Lyme disease . 18. On the cover Anaplasmosis . 18 Dorsal view of a female lone star tick, Tick-borne relapsing fever . 19 Amblyomma americanum. Photo credit: James Tularemia . 19. Gathany, CDC INDIVIDUAL PERSONAL PROTECTION . 20 Photo credits Tick bite prevention . .20 Tick checks . 22 All photos were provided by the author, unless Tick removal . 22 otherwise indicated. Self-monitoring and medical treatment . 23 Follow-up . 24 Credits Centers for Disease Control and Prevention INTEGRATED PEST MANAGEMENT (IPM) (CDC) OF TICK POPULATIONS .
    [Show full text]