DOCSLIB.ORG

Pediculus As Vector

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Pediculus As Vector Pediculus as Vector Geetanjali Mishra Associate Professor Department of Zoology University of Lucknow Lucknow HUMAN LOUSE: (Pediculus humanus captis carporis) Class: Insecta Division: Exopterygota Order: Anoplura Family: Pediculidae They occur all over the world. They have been associated with man since ancient times. External feature: It is a small (3-3.5mm long), with elongate and dorsoventrally flattened body. Mouth part are sucking type. Head are small and eyes are reduced. Claws on the legs are meant for clinging to hairs on host’s body. Antennae are small, 5-6 jointed. Wings are lacking and wing pads are present. Abdomen of male are narrower and pointed than the female and terminates into a curved hook like clasper, which works as a sheath, aedeagus. Abdomen of female is relatively broad, nearly rounded apically with a prominent niche or genital pouch. Head louse is smaller than the body louse. Life Cycle: The lice breed throughout the year. The female lays eggs or nits, singly, glued to the hair. Average 100 eggs are laid by the head louse and 300 eggs by the body louse. The eggs are oval and elongated with a perforated covering of the eggs, the operculum. The egg hatch within 8 days and the nymphs eclose by pushing the operculum of the eggs. Nymphs start feeding soon after then eclosion and there are three nymphal stages. Nymphal period lasts for 16 days (15-16). The adults survive for 30-40 days. The life cycle is completed at about a month and their arev10-12 generations in a year. Economic Importance: Both the nymphs and adults bite and suck the blood of the host. Head louse preferred to bite on the back of head and neck and body louse at the place in close contact with clothing. They inject irritating substance during feeding, which produces roseate elevated papules accompanied by severe itching. Repeated bites induce a condition of local pigmentation of the skin, known as “Vagaband’s Disease”. In severe infestation, called pediculosis, pigmentation, discolouration, hardening and even ulceration in the skin may take place. They are known to be biological vectors of relapsing fever, typhus fever, and trench fever. Control Measure: i. Maintenance of cleanliness and personal hygienic condition will reduce the chance the egg laying and thus increase in number. ii. The clothing of infected persons should be treated in boiling water which would cause dead of eggs, nymphs, etc. iii. Liberal application of 2% carbolic acid, mediker etc. will kill the stage. iv. The treatment should be repeated in ten days to destroy newly hatcted lice. v. In case of severe infestation, cutting the hair short and shaving them off completely is also adviced. References Jawaid Ahsan, Sinha, S. P. 2008. A Handbook of Economic Zoology. S. Chand Group Publ. Khan, A.A. (Editor), 2007. Encyclopedia of Economic Zoology. 2 vols. Anmol Publications Pvt. Ltd. (April 1, 2007) Shukla, G.S. & Upadhyay, V.B. Economic zoology. Rastogi Publs. 2005. 487 pages. Nigam, H.C. 2006. ModernTrends in Biology & Economic Zoology. Vishal Publ. Co. 444+xii pages. A B (a) Pediculus, and (b) Phthirius pubis E 100-200 7- 8 da ys Pediculus A 5-7 days N3 .
Load more

Recommended publications
  • Molecular Survey of the Head Louse Pediculus Humanus Capitis in Thailand and Its Potential Role for Transmitting Acinetobacter Spp
    Sunantaraporn et al. Parasites & Vectors (2015) 8:127 DOI 10.1186/s13071-015-0742-4 RESEARCH Open Access Molecular survey of the head louse Pediculus humanus capitis in Thailand and its potential role for transmitting Acinetobacter spp. Sakone Sunantaraporn1, Vivornpun Sanprasert2, Theerakamol Pengsakul3, Atchara Phumee2, Rungfar Boonserm2, Apiwat Tawatsin4, Usavadee Thavara4 and Padet Siriyasatien2,5* Abstract Background: Head louse infestation, which is caused by Pediculus humanus capitis, occurs throughout the world. With the advent of molecular techniques, head lice have been classified into three clades. Recent reports have demonstrated that pathogenic organisms could be found in head lice. Head lice and their pathogenic bacteria in Thailand have never been investigated. In this study, we determined the genetic diversity of head lice collected from various areas of Thailand and demonstrated the presence of Acinetobacter spp. in head lice. Methods: Total DNA was extracted from 275 head louse samples that were collected from several geographic regions of Thailand. PCR was used to amplify the head louse COI gene and for detection of Bartonella spp. and Acinetobacter spp. The amplified PCR amplicons were cloned and sequenced. The DNA sequences were analyzed via the neighbor-joining method using Kimura’s 2-parameter model. Results: The phylogenetic tree based on the COI gene revealed that head lice in Thailand are clearly classified into two clades (A and C). Bartonella spp. was not detected in all the samples, whereas Acinetobacter spp. was detected in 10 samples (3.62%), which consisted of A. baumannii (1.45%), A. radioresistens (1.45%), and A. schindleri (0.72%). The relationship of Acinetobacter spp.
    [Show full text]
  • Clinical Report: Head Lice
    CLINICAL REPORT Guidance for the Clinician in Rendering Pediatric Care Head Lice Cynthia D. Devore, MD, FAAP, Gordon E. Schutze, MD, FAAP, THE COUNCIL ON SCHOOL HEALTH AND COMMITTEE ON INFECTIOUS DISEASES Head lice infestation is associated with limited morbidity but causes a high abstract level of anxiety among parents of school-aged children. Since the 2010 clinical report on head lice was published by the American Academy of Pediatrics, newer medications have been approved for the treatment of head lice. This revised clinical report clarifies current diagnosis and treatment protocols and provides guidance for the management of children with head lice in the school setting. Head lice (Pediculus humanus capitis) have been companions of the human species since antiquity. Anecdotal reports from the 1990s estimated annual direct and indirect costs totaling $367 million, including remedies and other consumer costs, lost wages, and school system expenses. More recently, treatment costs have been estimated at $1 billion.1 It is important to note that head lice are not a health hazard or a sign of poor hygiene and This document is copyrighted and is property of the American Academy of Pediatrics and its Board of Directors. All authors have filed are not responsible for the spread of any disease. Despite this knowledge, conflict of interest statements with the American Academy of there is significant stigma resulting from head lice infestations in many Pediatrics. Any conflicts have been resolved through a process approved by the Board of Directors. The American Academy of developed countries, resulting in children being ostracized from their Pediatrics has neither solicited nor accepted any commercial schools, friends, and other social events.2,3 involvement in the development of the content of this publication.
    [Show full text]
  • Body Lice (Pediculus Humanus Var Corporis)
    CLOSE ENCOUNTERS WITH THE ENVIRONMENT What’s Eating You? Body Lice (Pediculus humanus var corporis) Maryann Mikhail, MD; Jeffrey M. Weinberg, MD; Barry L. Smith, MD 45-year-old man residing in a group home facil- dermatitis, contact dermatitis, a drug reaction, or a ity presented with an intensely pruritic rash on viral exanthema. The diagnosis is made by finding A his trunk and extremities. The lesions had been body lice or nits in the seams of clothing, commonly in present for 2 weeks and other residents exhibited simi- areas of higher body temperature, such as waistbands.1 lar symptoms. On physical examination, the patient Other lice that infest humans are the head louse was noted to have diffuse erythematous maculae, pap- (Pediculus humanus var capitis) and the pubic louse ules, hemorrhagic linear erosions, and honey-colored crusted plaques (Figure 1). Numerous nits, nymphs, and adult insects were observed in the seams of his clothing (Figures 2–4). Pediculosis corporis (presence of body lice liv- ing in the seams of clothing, Pediculus vestimenti, Pediculus humanus var corporis, vagabond’s disease) is caused by the arthropod Pediculus humanus humanus (Figure 4). In developed countries, infestation occurs most commonly among homeless individuals in urban areas and has been linked to Bartonella quintana– mediated endocarditis.1 Worldwide, the body louse Figure 1. Hemorrhagic linear erosions and honey- is a vector for diseases such as relapsing fever due to colored crusted plaques on the extremity. Borrelia recurrentis, trench fever due to B quintana, and epidemic typhus caused by Rickettsia prowazekii.2 The body louse ranges from 2 to 4 mm in length; is wingless, dorsoventrally flattened, and elongated; and has narrow, sucking mouthparts concealed within the structure of the head, short antennae, and 3 pairs of clawed legs.1 Female body lice lay 270 to 300 ova in their lifetime, each packaged in a translucent chitin- ous case called a nit.
    [Show full text]
  • Host Switching of Human Lice to New World Monkeys in South America
    Infection, Genetics and Evolution 39 (2016) 225–231 Contents lists available at ScienceDirect Infection, Genetics and Evolution journal homepage: www.elsevier.com/locate/meegid Research paper Host switching of human lice to new world monkeys in South America Rezak Drali a, Laurent Abi-Rached a, Amina Boutellis a, Félix Djossou b, Stephen C. Barker c, Didier Raoult a,⁎ a Aix Marseille Université, URMITE, UM63, CNRS 7278, IRD 198, Inserm 1095, 13005 Marseille, France b Service de maladies Infectieuses et Tropicales, Centre Hospitalier de Cayenne, 97306 Cayenne Cedex, Guyane Française, France c Department of Parasitology, School of Chemistry and Molecular Biosciences, University of Queensland, Brisbane, Queensland, Australia article info abstract Article history: The coevolution between a host and its obligate parasite is exemplified in the sucking lice that infest primates. In Received 29 September 2015 the context of close lice–host partnerships and cospeciation, Pediculus mjobergi, the louse of New World primates, Received in revised form 5 February 2016 has long been puzzling because its morphology resembles that of human lice. To investigate the possibility that Accepted 6 February 2016 P. mjobergi was transmitted to monkeys from the first humans who set foot on the American continent thousands Available online 8 February 2016 of years ago, we obtained and compared P. mjobergi lice collected from howler monkeys from Argentina to Keywords: human lice gathered from a remote and isolated village in Amazonia that has escaped globalization. Pediculus mjobergi Morphological examinations were first conducted and verified the similarity between the monkey and human lice. Amazonian head louse The molecular characterization of several nuclear and mitochondrial genetic markers in the two types of lice Host-switching revealed that one of the P.
    [Show full text]
  • What Are Head Lice? the Head Louse, Or Pediculus Humanus Capitis, Is a Parasitic Insect That Can Be Found on the Head, Eyebrows, and Eyelashes of People
    TIP SHEET – Head LICE What are head lice? The head louse, or Pediculus humanus capitis, is a parasitic insect that can be found on the head, eyebrows, and eyelashes of people. Head lice feed on human blood several times a day and live close to the human scalp. Head lice are not known to spread disease. Head lice move by crawling - they cannot hop or fly. • Head lice are spread by DIRECT Contact with the hair of an infested person. • Anyone who comes into DIRECT head-to-head contact with someone who already has Head Lice is at greatest risk. • The Head Lice do not fly or jump to another person. DIRECT contact is necessary for transmission. • Lice is spread by DIRECT contact with clothing (such as hats, scarves, coats) and personal items (such as combs, brushes, or towels) used by an infested person. • Head lice and nits are found on the scalp, typically around the ears and neckline Head lice survive less than 1–2 days if they fall off a person and cannot feed; nits cannot hatch and usually die within a week if they are not kept at the same temperature as that found close to the human scalp How do we treat head lice in the hospital? Treatment requires a physician order. Follow these treatment steps: 1. Treat/ Retreat according to instructions 2. Have the infested person put on a clean gown and change linen after treatment. 3. The nits (head lice eggs) must be combed out. 4. Nit (head lice egg) combs should be used to comb nits and lice from the hair shaft.
    [Show full text]
  • The Historical Impact of Epidemic Typhus
    THE HISTORICAL IMPACT OF EPIDEMIC TYPHUS by JOSEPH M. CONLON LCDR, MSC, USN [email protected] INTRODUCTION Louse-borne Typhus Fever is undoubtedly one of the oldest pestilential diseases of mankind. Called by many names and confused with other fevers, it is not until the late fifteenth century that it can be recognized with certainty as causing devastating epidemics. With Plague, Typhoid, and Dysentery, it was the scourge of armies and civilian populations throughout the Middle Ages and frequently played a decisive role in wars conducted in Europe from the 15th through the 20th centuries. The manner in which the course of European history has been affected by Typhus epidemics has been graphically portrayed by a number of authors. This paper will attempt a further analysis of the historical impact of Louse-borne Typhus and how its epidemic propagation has led many to regard Pediculus humanus corporis as having a more profound effect on human history than any other animal. EPIDEMIC TYPHUS FEVER (TABARILLO, CLASSIC OR EUROPEAN TYPHUS, JAIL FEVER, WAR FEVER) Causative Agent. Typhus fever is an acute specific infection caused by Rickettsia prowazeki as isolated and identified by DaRocha-Lima in 1916. Named in honor of H. T. Ricketts and L. von Prowazek, both of whom contracted typhus in the course of their investigations and died, R. prowazeki was originally believed to be a virus because of its minute size and difficulty of cultivation. R. prowazeki is now recognized as being morphologically and biochemically a type of bacterium. A rod-shaped microorganism, R. prowazeki is an obligate intracellular parasite whose cell wall contains muramic acid, diaminopimelic acid, and other components similar to those of the gram-negative bacteria.
    [Show full text]
  • Human Lice: Body Louse, Pediculus Humanus Humanus Linnaeus and Head Louse, Pediculus Humanus Capitis De Geer (Insecta: Phthiraptera (=Anoplura): Pediculidae)1 H
    EENY-104 Human Lice: Body Louse, Pediculus humanus humanus Linnaeus and Head Louse, Pediculus humanus capitis De Geer (Insecta: Phthiraptera (=Anoplura): Pediculidae)1 H. V. Weems and T. R. Fasulo2 Introduction Human louse infestation, called pediculosis, can spread rapidly and may reach epidemic proportions if left un- Throughout time, lice, particularly head lice (Pediculus checked. In a group of people, such factors as age, race (for humanus capitis De Geer), have been a common reoccur- example, African-Americans are rarelyinfested with head ring problem, especially in schools. Millions of American lice (Slonka et al. 1975)), sex, crowding at home, family size, school children may encounter head lice during the school and method of closeting clothes influence the course and year. Head louse infestations throughout the United States distribution of the disease. The length of the hair does not affect people on all social and economic levels. appear to be a significant factor. Before World War II, head lice were fairly common in the It is generallyassumed that body lice evolved from head lice United States, body and crab lice much less so. After World after mankind began wearing clothes. War II and the emergence of DDT as a louse control agent, outbreaks of lice were much less common. Now lice again are intruding into the environment of the average Ameri- Identification can. Lice or their eggs are easily transmitted from person Three types of lice infest humans: the body louse, Pediculus to person on shared hats, coats, scarves, combs, brushes, humanus humanus Linnaeus, also known as Pediculus towels, bedding, upholstered seats in public places, and by humanus corporis; the head louse Pediculus humanus capitis personal contact.
    [Show full text]
  • The Mitochondrial Genome of the Chimpanzee Louse, Pediculus Schaeffi
    Herd et al. BMC Genomics (2015) 16:661 DOI 10.1186/s12864-015-1843-3 RESEARCH ARTICLE Open Access The mitochondrial genome of the chimpanzee louse, Pediculus schaeffi: insights into the process of mitochondrial genome fragmentation in the blood-sucking lice of great apes Kate E. Herd1, Stephen C. Barker1 and Renfu Shao2* Abstract Background: Blood-sucking lice in the genera Pediculus and Pthirus are obligate ectoparasites of great apes. Unlike most bilateral animals, which have 37 mitochondrial (mt) genes on a single circular chromosome, the sucking lice of humans have extensively fragmented mt genomes. The head louse, Pediculus capitis, and the body louse, Pe. humanus, have their 37 mt genes on 20 minichromosomes. The pubic louse, Pthirus pubis, has its 34 mt genes known on 14 minichromosomes. To understand the process of mt genome fragmentation in the sucking lice of great apes, we sequenced the mt genome of the chimpanzee louse, Pe. schaeffi, and compared it with the three human lice. Results: We identified all of the 37 mt genes typical of bilateral animals in the chimpanzee louse; these genes are on 18 types of minichromosomes. Seventeen of the 18 minichromosomes of the chimpanzee louse have the same gene content and gene arrangement as their counterparts in the human head louse and the human body louse. However, five genes, cob, trnS1, trnN, trnE and trnM, which are on three minichromosomes in the human head louse and the human body louse, are together on one minichromosome in the chimpanzee louse. Conclusions: Using the human pubic louse, Pt. pubis, as an outgroup for comparison, we infer that a single minichromosome has fragmented into three in the lineage leading to the human head louse and the human body louse since this lineage diverged from the chimpanzee louse ~6 million years ago.
    [Show full text]
  • Resistance Et Évolution Des Poux Humains Pediculus Humanus
    AIX-MARSEILLE UNIVERSITE ECOLE DOCTORALE DES SCIENCES DE LA VIE ET DE LA SANTE FACULTE DE MEDECINE DE MARSEILLE Unité de Recherche Microbes, Evolution, Phylogeny and Infection (MEФI) IHU-Méditerranée infection Thèse présentée pour obtenir le grade de Doctorat d’Aix-Marseille Université Spécialité Pathologie Humaine : Maladies infectieuses Mme Nadia AMANZOUGAGHENE -MEHALLA Resistance et évolution des poux humains Pediculus humanus Soutenue le 05 Juillet 2018 devant le jury : Mme le Professeur Fabienne BREGEON Présidente du jury Mr le Docteur Arezki IZRI Rapporteur Mr le Professeur Lionel ZENNER Rapporteur Mr le Docteur Oleg MEDIANNIKOV Co-directeur de thèse Direction de la Thèse : Mr le Professeur Didier RAOULT Directeur de thèse Mr le Docteur Oleg MEDIANNIKOV Co-directeur de thèse Année Universitaire 2017-2018 Remerciements Je commencerai par remercier le Professeur Didier RAOULT pour m’avoir accueilli au sein de son laboratoire et permis de réaliser ces travaux de recherche sous sa direction et ses conseils avisés. Permettez-moi de vous exprimer mon profond respect. Mes profonds remerciements au Docteur Oleg MEDIANNIKOV pour avoir dirigé ce travail. Vous m’avez donné un support scientifique incontournable et la liberté d’évoluer comme un chercheur. Merci pour m’avoir donné votre temps, votre patience, votre assistance, vos conseils et surtout votre confiance dans toutes les étapes de ce travail. Aussi grande que puisse être ma gratitude, soyez assuré qu'elle ne sera jamais à la hauteur de tous les efforts que vous avez déployé, je vous témoigne le plus profond de mes plaisirs de travailler avec vous. Mes sincères et chaleureux remerciements vont au Professeur Florence FENOLLAR, pour avoir co-dirigé ce travail.
    [Show full text]
  • Lice of Public Health Importance and Their Control
    LICE OF PUBLIC HEALTH IMPORTANCE AND THEIR CONTROL Training Guide - Insect Control Series Harry D. Pratt and Kent S. Littig U. S. DEPARTMENT OF HEALTH, EDUCATION, AND WELFARE PUBLIC HEALTH SERVICE Communicable Disease Center Atlanta, Georgia 1961 This publication is Part VUG of the Insect Control Series to be published by the U.S. DEPARTMENT OF HEALTH, EDUCATION, AND WELFARE, PUBLIC HEALTH SERVICE as PHS Publication No. 772 Additional parts in the series will appear at intervals. Public Health Service Publication No. 772 Insect Control Series: Part VIII UNITED STATES GOVERNMENT PRINTING OFFICE, WASHINGTON: 1961 For sate by the Superintendent of Documents, U.S. Government Printing Office, Washington 25, D.C, - Price 20 cents CONTENTS INTRODUCTION ........................................................ 1 LICE AND HISTORY...................................................... 1 EPIDEMIC TYPHUS ...................................................... 2 The Typhus Organism. ................................................. 2 Cycle of Rickeffsia prowazeki ............................................ 3 Modern Epidemic Typhus Control .......................................... 3 TRENCH FEVER ............ ..... ...................................... 4 RELAPSING FEVERS .................................................... 4 GENERAL BIOLOGY OF SUCKING LICE ......................................... 5 BIOLOGY AND HABITS OF THE HEAD AND BODY LOUSE ............................ 5 The Egg .......................................................... 5 The Nymph
    [Show full text]
  • (PEDICULOSIS) PROTOCOL 1. Cause/Epidemiology Head Lice Are
    Winnipeg Regional Health Authority Acute Care Infection Prevention & Control Manual *latest updates in red LICE (PEDICULOSIS) PROTOCOL 1. Cause/Epidemiology Head lice are caused by Pediculus humanus capitis. Head lice survive less than one to two days if they fall off the scalp and cannot feed. Lice found on combs are likely to be injured or dead. Body lice are caused by Pediculus humanus. Body lice survive less than 2 days off a host. Crab lice are caused by Phthirus pubis. Crab lice live only 1 day off a host. Lice are communicable as long as lice or eggs remain alive on the infested individual or clothing. 2. Clinical Presentation Pediculosis is an infestation of lice of the hairy parts of the body or clothing with the eggs, larvae or adults. All stages of this insect feed on human blood with the exception of the egg stage. Itching is the most common symptom of head lice infestation, but many children are asymptomatic. Itching and rash occur if the infested individual becomes sensitized to the antigenic components of the louse saliva that is injected as the louse feeds. Head lice are usually located on the scalp although they can be found on the eyebrows or eyelashes of people. Head lice infestations are frequently found in school settings or institutions. Crab lice are located in the pubic area and may also infect facial hair (including eyelashes in cases of heavy infestation), axillae and body surfaces. Crab lice infestations can be found among sexually active individuals. Body lice live in seams of clothing.
    [Show full text]
  • Epidemiological Study of Head Louse (Pediculus Humanus Capitis
    Thrita J Med Sci.2012;1(2):53-56. DOI: 10.5812/thrita.4733 Journal of Medical Sciences Thritajournal.com Epidemiological Study of Head Louse (Pediculus humanus capitis) Infestation Among Primary School Students in Rural Areas of Sirjan County, South of Iran Saeedeh Yousefi 1,2, Faezeh Shamsipoor 1,Yaser Salim Abadi 1,3,4* 1 Department of Medical Entomology and Vector Control, School of Public Health, Tehran University of Medical Sciences, Tehran, IR Iran 2 Health Center of Sirjan county, Kerman, IR Iran 3 Students’ Scientific Research Center, Tehran University of Medical Sciences, Tehran, IR Iran 4 Exceptional Talents Development Center, Tehran University of Medical Sciences, Tehran, IR Iran ARTICLE INFO ABSTRACT Article type: Background: The head louse (Pediculus humanus capitis), is an obligate ectoparasite that is Original Article found on the hair and scalp and transmitted mainly through physical contact. In the most part of the world, pediculosis is a major public health concern, where head lice infestation is Article history: a common problem in school-age children. Received: 04 Mar 2012 Objectives: Present study is the first study about head lice infestation in the rural areas of Sir- Revised: 16 Apr 2012 jan county in Iran. Considering the fact that primary school studenta are more prone to head Accepted: 29 May 2012 lice infestation, this study was conducted in the all primary schools of the rural areas of Sirjan. This study was conducted to determine the head lice infestation rate and some risk factors in Keywords: primary school students. Epidemiology Materials and Methods: The data from Iran’s National Census was used for sampling.
    [Show full text]