- •Global Impact
- •Epidemics and Pandemics
- •Current Situation
- •Individual Impact
- •The Virus
- •Requirements for Success
- •Virology
- •Natural Reservoir + Survival
- •Transmission
- •H5N1: Making Progress
- •Individual Management
- •Epidemic Prophylaxis
- •Exposure Prophylaxis
- •Vaccination
- •Antiviral Drugs
- •Epidemic Treatment
- •Pandemic Prophylaxis
- •Pandemic Treatment
- •Global Management
- •Epidemic Management
- •Pandemic Management
- •Containment
- •Drugs
- •Vaccines
- •Distribution
- •Conclusion
- •Golden Links
- •Interviews
- •References
- •Avian Influenza
- •The Viruses
- •Natural hosts
- •Clinical Presentation
- •Pathology
- •LPAI
- •HPAI
- •Differential Diagnosis
- •Laboratory Diagnosis
- •Collection of Specimens
- •Transport of Specimens
- •Diagnostic Cascades
- •Direct Detection of AIV Infections
- •Indirect Detection of AIV Infections
- •Transmission
- •Transmission between Birds
- •Poultry
- •Humans
- •Economic Consequences
- •Control Measures against HPAI
- •Vaccination
- •Pandemic Risk
- •Conclusion
- •References
- •Structure
- •Haemagglutinin
- •Neuraminidase
- •M2 protein
- •Possible function of NS1
- •Possible function of NS2
- •Replication cycle
- •Adsorption of the virus
- •Entry of the virus
- •Uncoating of the virus
- •Synthesis of viral RNA and viral proteins
- •Shedding of the virus and infectivity
- •References
- •Pathogenesis and Immunology
- •Introduction
- •Pathogenesis
- •Viral entry: How does the virion enter the host?
- •Binding to the host cells
- •Where does the primary replication occur?
- •How does the infection spread in the host?
- •What is the initial host response?
- •Cytokines and fever
- •Respiratory symptoms
- •Cytopathic effects
- •Symptoms of H5N1 infections
- •How is influenza transmitted to others?
- •Immunology
- •The humoral immune response
- •The cellular immune response
- •Conclusion
- •References
- •Pandemic Preparedness
- •Introduction
- •Previous Influenza Pandemics
- •H5N1 Pandemic Threat
- •Influenza Pandemic Preparedness
- •Pandemic Phases
- •Inter-Pandemic Period and Pandemic Alert Period
- •Surveillance
- •Implementation of Laboratory Diagnostic Services
- •Vaccines
- •Antiviral Drugs
- •Drug Stockpiling
- •General Measures
- •Seasonal Influenza Vaccination
- •Political Commitment
- •Legal and Ethical Issues
- •Funding
- •Global Strategy for the Progressive Control of Highly Pathogenic Avian Influenza
- •Pandemic Period
- •Surveillance
- •Treatment and Hospitalisation
- •Human Resources: Healthcare Personnel
- •Geographically Targeted Prophylaxis and Social Distancing Measures
- •Tracing of Symptomatic Cases
- •Border Control
- •Hygiene and Disinfection
- •Risk Communication
- •Conclusions
- •References
- •Introduction
- •Vaccine Development
- •History
- •Yearly Vaccine Production
- •Selection of the yearly vaccine strain
- •Processes involved in vaccine manufacture
- •Production capacity
- •Types of Influenza Vaccine
- •Killed vaccines
- •Live vaccines
- •Vaccines and technology in development
- •Efficacy and Effectiveness
- •Side Effects
- •Recommendation for Use
- •Indications
- •Groups to target
- •Guidelines
- •Contraindications
- •Dosage / use
- •Inactivated vaccine
- •Live attenuated vaccine
- •Companies and Products
- •Strategies for Use of a Limited Influenza Vaccine Supply
- •Antigen sparing methods
- •Rationing methods and controversies
- •Pandemic Vaccine
- •Development
- •Mock vaccines
- •Production capacity
- •Transition
- •Solutions
- •Strategies for expediting the development of a pandemic vaccine
- •Enhance vaccine efficacy
- •Controversies
- •Organising
- •The Ideal World – 2025
- •References
- •Useful reading and listening material
- •Audio
- •Online reading sources
- •Sources
- •Laboratory Findings
- •Introduction
- •Laboratory Diagnosis of Human Influenza
- •Appropriate specimen collection
- •Respiratory specimens
- •Blood specimens
- •Clinical role and value of laboratory diagnosis
- •Patient management
- •Surveillance
- •Laboratory Tests
- •Direct methods
- •Immunofluorescence
- •Enzyme immuno assays or Immunochromatography assays
- •Reverse transcription polymerase chain reaction (RT-PCR)
- •Isolation methods
- •Embryonated egg culture
- •Cell culture
- •Laboratory animals
- •Serology
- •Haemagglutination inhibition (HI)
- •Complement fixation (CF)
- •Ezyme immuno assays (EIA)
- •Indirect immunofluorescence
- •Rapid tests
- •Differential diagnosis of flu-like illness
- •Diagnosis of suspected human infection with an avian influenza virus
- •Introduction
- •Specimen collection
- •Virological diagnostic modalities
- •Other laboratory findings
- •New developments and the future of influenza diagnostics
- •Conclusion
- •Useful Internet sources relating to Influenza Diagnosis
- •References
- •Clinical Presentation
- •Uncomplicated Human Influenza
- •Complications of Human Influenza
- •Secondary Bacterial Pneumonia
- •Primary Viral Pneumonia
- •Mixed Viral and Bacterial Pneumonia
- •Exacerbation of Chronic Pulmonary Disease
- •Croup
- •Failure of Recovery
- •Myositis
- •Cardiac Complications
- •Toxic Shock Syndrome
- •Reye’s Syndrome
- •Complications in HIV-infected patients
- •Avian Influenza Virus Infections in Humans
- •Presentation
- •Clinical Course
- •References
- •Treatment and Prophylaxis
- •Introduction
- •Antiviral Drugs
- •Neuraminidase Inhibitors
- •Indications for the Use of Neuraminidase Inhibitors
- •M2 Ion Channel Inhibitors
- •Indications for the Use of M2 Inhibitors
- •Treatment of “Classic” Human Influenza
- •Antiviral Treatment
- •Antiviral Prophylaxis
- •Special Situations
- •Children
- •Impaired Renal Function
- •Impaired Liver Function
- •Seizure Disorders
- •Pregnancy
- •Treatment of Human H5N1 Influenza
- •Transmission Prophylaxis
- •General Infection Control Measures
- •Special Infection Control Measures
- •Contact Tracing
- •Discharge policy
- •Global Pandemic Prophylaxis
- •Conclusion
- •References
- •Drug Profiles
- •Amantadine
- •Pharmacokinetics
- •Toxicity
- •Efficacy
- •Resistance
- •Drug Interactions
- •Recommendations for Use
- •Warnings
- •Summary
- •References
- •Oseltamivir
- •Introduction
- •Structure
- •Pharmacokinetics
- •Toxicity
- •Efficacy
- •Treatment
- •Prophylaxis
- •Selected Patient Populations
- •Efficacy against Avian Influenza H5N1
- •Efficacy against the 1918 Influenza Strain
- •Resistance
- •Drug Interactions
- •Recommendations for Use
- •Summary
- •References
- •Rimantadine
- •Introduction
- •Structure
- •Pharmacokinetics
- •Toxicity
- •Efficacy
- •Treatment
- •Prophylaxis
- •Resistance
- •Drug Interactions
- •Recommendations for Use
- •Adults
- •Children
- •Warnings
- •Summary
- •References
- •Zanamivir
- •Introduction
- •Structure
- •Pharmacokinetics
- •Toxicity
- •Efficacy
- •Treatment
- •Prophylaxis
- •Children
- •Special Situations
- •Avian Influenza Strains
- •Resistance
- •Drug Interactions
- •Recommendations for Use
- •Dosage
- •Summary
- •References
150 Laboratory Findings
Chapter 7: Laboratory Findings
Gert van Zyl
Introduction
Various diagnostic modalities have been developed since influenza virus was first characterised in 1933 (Webster 1998). These diagnostic techniques can be employed to confirm a clinical diagnosis. In this chapter the role of the most important of these tests will be discussed as well as their advantages and limitations. However the best diagnostic test has little value without appropriate good quality specimen collection and correct patient information.
Laboratory Diagnosis of Human Influenza
Appropriate specimen collection
Respiratory specimens
The timing of specimen collection is very important since the yield is the highest for respiratory specimens obtained within four days of onset of symptoms. Different types of respiratory specimens can be used. Nasal washes and nasopharyngeal aspirates tend to be more sensitive than pharyngeal swabs. In patients that are intubated, tracheal aspirates and bronchial lavages can be collected (WHO 2005a). Washes and aspirates should contain sufficient respiratory epithelium for immunofluorescence tests. Specimens without sufficient cells are however still suitable for other methods such as rapid antigen detection, virus isolation and reverse transcriptionpolymerase chain reaction (RT-PCR).
Swabs should be transported in virus transport medium to prevent desiccation.
All specimens should arrive at the laboratory as soon as possible to avoid any degradation. Transportation in virus transport medium on ice or with refrigeration at 2- 8 degrees Celsius is recommended if any delay in transportation is expected.
Blood specimens
Blood (whole blood, serum) specimens are collected for the purpose of antibody serology (determining the presence of antibodies to influenza). Acute and convalescent serum samples 14 − 21 days apart should be collected to demonstrate a significant (at least fourfold) rise in strain-specific antibody titre.
Clinical role and value of laboratory diagnosis
Patient management
Rapid diagnosis is important if early therapeutic interventions with costly antiviral drugs are being considered – to be effective, these drugs need to be started within 48 hours after the onset of symptoms (WHO 2005a). Candidates for early treatment