Global Information
회사소개 | 문의

소 유방염 백신/형태(2017년)

Animal Pharm Vaccines/Forms for Bovine Mastitis 2017

리서치사 Animal Pharm
발행일 2017년 10월 상품 코드 573552
페이지 정보 영문 93 Pages
가격
US $ 2,650 ₩ 3,023,300 PDF by E-mail (Single User License)
US $ 12,985 ₩ 14,814,500 PDF by E-mail (Global License)


소 유방염 백신/형태(2017년) Animal Pharm Vaccines/Forms for Bovine Mastitis 2017
발행일: 2017년 10월 페이지 정보 : 영문 93 Pages

한글목차

소 유방염 및 반추동물의 생식기계 질환용 백신 시장에 대해 조사했으며, 유방염의 원인, 진단, 발증 기서, 치료법, 예방법, 현재의 주요 백신, 브루셀라증 원인 물질과 백신, 항생물질 내성, 백신 개발의 새로운 방식, 향후 전망 등의 정보를 정리하여 전해드립니다.

주요 요약

제1장 동물 건강 산업 타겟으로서의 소 유방염 및 반추동물 생식기계 질환

  • 동물 건강 산업 : 주요 통계
  • 유방염 : 간단한 서론
  • 생식기계 질환

제2장 소 유방염

  • 서론, 임상 측면 및 경제적 영향
  • 유방염 및 번식 실적
  • 유방염의 원인, 발증 기서 및 현재 치료법과 예방법
    • 전염성 유방염
    • 환경성 유방염
    • 유방염 병원균
    • 바이오필름

제3장 유방염의 원인 진단과 특정

  • 체세포수 측정
  • 급성병기 단백질(Acute phase proteins)

제4장 유방염 치료와 예방 : 항생물질 사용

  • Dry cow intra-mammary therapy

제5장 유방염용 백신

  • 현재의 주요 백신 제품
  • 스트렙토코쿠스 우베리스(Streptococcus uberis)에 대한 백신
  • 유방염에 대한 비특이성 면역 자극제
  • 소의 항생물질 내성
  • 대체 요법 및 예방법

제6장 브루셀라증

  • 원인 물질 : 브루셀라속균
  • Clinical Brucella abortus disease
  • Brucella melitensis
  • Brucella ovis
  • Brucella suis
  • 사람의 브루셀라증
  • 개발도상국/소규모 시장에서의 브루셀라증
  • 브루셀라증에 대한 면역
  • 브루셀라증 진단
  • 브루셀라증 제어

제7장 브루셀라증 백신

  • Brucella abortus vaccines
  • Brucella melitensis and B. suis
  • Brucellosis Vaccine Prize
  • Brucella abortus vaccine strains
  • Brucella melitensis vaccine strains
  • Brucella suis vaccine strain 2
  • 새로운/실험적인 백신 개발 방식

제8장 생식기계 질환의 기타 원인

  • 캄필로박터 피터스(Campylobacter fetus)
  • 콕시엘라 부르네티(Coxiella burnetii)
  • 네오스포라 감염증(Neosporosis)
  • 트리코모나스 감염증(Trichomoniasis)

제9장 향후 전망

  • 유방염 관리
  • 브루셀라증 및 기타 생식기계 질환

부록 1

도표 리스트

LSH 17.11.17

영문목차

This latest report Animal Pharm describes new technical developments in the field of bovine mastitis and ruminant reproductive disease and efforts to develop new vaccines and other prophylactic approaches.

Bovine mastitis is an inflammatory condition of the mammary glands (udder) of cows. It has a significant impact on productivity, animal welfare and milk quality.

Bovine mastitis and reproductive diseases remain as largely unmet market needs from the perspective of preventive medicine. Despite a clear environmental component, mastitis control has depended heavily on the routine use of antimicrobials both for treatment of clinical cases but also for prevention as dry cow therapy.

The pursuit of prophylactics has been a holy grail for the animal health industry and veterinary academia for many years but although there a few vaccine products on the market now, this has not been very fruitful in terms of broadly effective vaccines or other products.

Attention is beginning to turn away from conventional vaccine approaches and more towards exploitation of innate immunological mechanisms.

Historically the successful control of mastitis has relied on treatment with antibiotics (antimicrobials), however in recent years it has been recognised that antibiotic usage has contributed to an increase in the prevalence of antibiotic-resistant bacterial strains.

In fact, the phenomenon of antimicrobial resistance (AMR) has become a major global health and technical challenge in both human and veterinary medicine. There is therefore a huge incentive to develop novel alternative safe products for the control of this and many other diseases.

The mastitis therapeutic market is currently estimated at about US$1 bilion per annum and thus the vaccine market potential is very attractive if the technical challenges could be overcome.

However, it is clear that there is still insufficient understanding of the immune mechanisms of the lactating mammary gland. Attention is beginning to turn towards exploitation of the innate immune system in controlling mastitis and indeed other related infectious diseases.

Vaccines for brucellosis have been available for many years. However, all have issues of safety and or efficacy and there is therefore still an unmet need for improved vaccines.

Table of Contents

Contents

Executive summary

Chapter 1: Bovine mastitis and ruminant reproductive disease as targets for the animal health industry

  • 1.1. The animal health industry: some statistics
  • 1.2. Mastitis: a brief introduction
  • 1.3. Reproductive diseases

Chapter 2: Bovine mastitis

  • 2.1. Introduction, clinical aspects and economic impact
  • 2.2. Mastitis and reproductive performance
  • 2.3. Causes, pathogenesis and current therapy and prevention for mastitis
    • 2.3.1. Contagious mastitis
    • 2.3.2. Environmental mastitis
    • 2.3.3. Mastitis pathogens
    • 2.3.4. Biofilms

Chapter 3: Diagnosis and identification of cause of mastitis

  • 3.1. Somatic cell counts
  • 3.2. Acute phase proteins

Chapter 4: Treatment and prevention of mastitis: use of antibiotics

  • 4.1. Dry cow intra-mammary therapy

Chapter 5: Vaccines for mastitis

  • 5.1. Some current vaccine products
  • 5.2. Vaccines against Streptococcus uberis
  • 5.3. Non-specific immunostimulants against mastitis
    • 5.3.1. Immunomodulators
    • 5.3.2. Immunology of the mammary gland
    • 5.3.3. The innate immune system
    • 5.3.4. Genetic selection of cattle for resistance to clinical mastitis
  • 5.4. Antibiotic resistance in cattle
  • 5.5. Alternative therapies and preventatives
    • 5.5.1. Botanical medicines
    • 5.5.2. Bacteriophage therapy
    • 5.5.3. Nutritional supplements
    • 5.5.4. Electromagnetic product

Chapter 6: Brucellosis

  • 6.1. The causative agents: Brucella species
  • 6.2. Clinical Brucella abortus disease
  • 6.3. Brucella melitensis
  • 6.4. Brucella ovis
  • 6.5. Brucella suis
  • 6.6. Brucellosis in humans
  • 6.7. Brucellosis In developing countries / smaller markets
  • 6.8. Immunity to brucellosis
  • 6.9. Diagnosis of brucellosis
  • 6.10. Brucellosis control

Chapter 7: Vaccines for brucellosis

  • 7.1. Brucella abortus vaccines
  • 7.2. Brucella melitensis and B. suis
  • 7.3. Brucellosis Vaccine Prize
  • 7.4. Brucella abortus vaccine strains
    • 7.4.1. Strain 19
    • 7.4.2. Strain RB51
    • 7.4.3. Strain 45/20
    • 7.4.4. Strain SR82
  • 7.5. Brucella melitensis vaccine strains
  • 7.6. Brucella suis vaccine strain 2
  • 7.7. Novel /experimental approaches to vaccine development
    • 7.7.1. Oral vaccination
    • 7.7.2. Microspheres
    • 7.7.3. Sub unit vaccines
    • 7.7.4. DNA vaccines
    • 7.7.5. Heterologous expressed vaccines

Chapter 8: Other causes of reproductive disease

  • 8.1. Campylobacter fetus
  • 8.2. Coxiella burnetii
  • 8.3. Neosporosis
  • 8.4. Trichomoniasis

Chapter 9: Future prospects

  • 9.1. Mastitis control
  • 9.2. Brucellosis and other diseases of reproduction

Appendix 1

  • Further information on Antimicrobial resistance
  • Reference list

List of Figures

  • Figure 1: Anatomy of the bovine udder
  • Figure 2: Illustrating the multi factorial nature of mastitis
  • Figure 3: Schematic diagram of mechanism of bacterial invasion in mastitis
  • Figure 4: Range of clinical signs with mastitis
  • Figure 5: Illustration of secretion of somatic cells
  • Figure 6: California mastitis test kit, with CMT fluid, a 4 well paddle and dropper for adding CMT fluid
  • Figure 7: Interpretation of the California Milk Test (After Leach et al., 2008)
  • Figure 8: Changes in plasma concentrations of acute phase proteins after inflammatory stimuli
  • Figure 9: Illustration of the production of acute phase proteins following an inflammatory stimulus
  • Figure 10: The relationship between SCC and haptoglobin concentration in milk (Thomas et al., 2015)
  • Figure 11: Inserting an antibiotic syringe into a cow's teat
  • Figure 12: Differential responses of bovine mammary epithelial cells to Staphylococcus aureus or Escherichia coli agonists of the innate immune system (After Gilbert et al., 2013)
  • Figure 13: The putative relationship between infections and antimicrobial resistance in food animals and in humans
  • Figure 14: The transmission chain of Brucella spp. among wildlife, livestock and human (After Yang et al., 2013)
  • Figure 15: Confirmed human cases of brucellosis in Europe 2014
  • Figure 16: Brucellosis in animals due to B. abortus distribution
  • Figure 17: Brucellosis due to B. melitensis distribution.
  • Figure 18: Modelling the largest five consumers of antimicrobials in livestock
  • Figure 19: Antibiotic susceptibility profiles of bacterial species associated with mastitis in India (Mahato et al., 2017)

List of Tables

  • Table 1: Top 5 rankings in 2016 with Boehringer and Merial combined
  • Table 2: Some infectious causes of abortion and methods of treatment and prevention
  • Table 3: Clinical interpretation of somatic cell count (SCC) data (Source: AHDB, UK)
  • Table 4: Economic losses due to mastitis in different countries (Tiwari et al., 2013)
  • Table 5: Considerations in the prevention and treatment of mastitis
  • Table 6: Listing of main Brucella species their hosts and geographical distribution
  • Table 7: Seroprevalence of Brucella in selected African countries (Adapted from Ashenafi et al., 2016)
  • Table 8: The OIE standard tests for brucellosis
  • Table 9: A selection of manufacturers of Brucella vaccines
  • Table 10: Results of some published Neospora vaccine candidate efficacy studies
Back to Top
아시아 최대 시장정보 제공
전세계에서 발행되고 있는 모든 시장조사보고서를
다루고 있습니다.
사이트에서 검색되지 않는 보고서도 문의 바랍니다.
 
La Merie Publishing
BCC Research