What are the principles of bacterial diagnostics?
Manifestations of Infection
interaction between host and microorganism
affected by host immune status and microbial virulence factors
signs and symptoms vary according to site and severity of infection
Microbial Causes of Infection
exogenous (acquired from environmental or animal sources or from other persons) or endogenous (from the ‘normal’ microbiota)
Specimen Selection, Collection, and Processing
specimens selected on basis of signs and symptoms
collected from medium representative of the disease process
collected before administration of antimicrobial agents
amount and rapidity of transport to lab influences test results
Microbiologic Examination
direct and indirect methods (review previous lectures!)
Provide details on the German public health network and how we classify pathogenic bacteria
Robert Koch Institute
German government’s central biomedicine institution
Identification, surveillance and prevention of diseases, especially infectious diseases
analyses and evaluation of highly pathogenic and highly contagious diseases, which are of great significance to the general public
Provides a scientific basis for political decision-making
Executive tasks defined by special laws with regard to protection from infection
Federal health reporting
System of national reference centers (NRCs) and consultant laboratories (CLs)
Classification (Hazard group definitions)
Class 1: unlikely to cause human diseasae
Class 2: can cause disease, may be a hazard to emplyes but not to the community, prophylaxis/treatment available
Class 3: can cause disease, serious hazard to emplyees, may spread to community, prophylaxis/treatment usually available
Class 4: causes sever disease, serious hazard to employees, likely to spread to community, no prophylaxis/treatment
Describe how selective/differential agar can be used to grow different bacterial pathogens
Differential:
Mannitol salt agar (Staphylococcus): high salt concentration which inhibits growth of most bacteria
MacConkey agar (Enterobacteriaceae): Lactose, bile salt
Chromogenic agar:
Advanced differential agars
Allow incorporation of multiple substrate-chromogen combinations
Results have to be interpreted carefully
Expensive
Blood agar
Rich, non selective
isolate different fastidious bacteria
Why do AMR profiles need to be determined and what are the different phenotypic methods used for profiling antimicrobial susceptibilities (MICs, gradient method, and disk diffusion test)?
AMR = antimicrobial resistance
Susceptibility testing determines which antimicrobials will inhibit growth
minimum inhibitory concentration (MICs):
assay: 2-fold serial dilutions of test compounds
Antimicrobial gradient method: gradient in agar medium from plastic strip
Disk diffusion test
well standardised and has been widely evaluated
does not provide accurate information about MIC
Provide details on immune-based diagnostic tests (ELISA, ELI-Spots) and their limitations
Used to detect bacterial antigens and antibodies e.g. Legionella, Mycoplasma and Chlamydiae, Tick-born – Rickettsia and Borrelia
ELISA
Antigen - specific Antibody - enzymy-conjugated secondary ab - substrate
Absorbance correlates to concentraiton
Enzyme-Linked Immuno Spot assay (ELI-Spot)
look for antibodies, measure immune molecules (e.g. cytokines) and immune cells
Antibodys - Cell - cells produce cytokines - detection antibodies - avidin enzym conjugate
Serotyping
used to identify bacterial strains (or serotypes)
can be inaccurate, labor-intensive, and unreliable
Limitations
Cross-reactions between the types of agents
Some infectious agents have no clearly identified epitopes that are sufficiently specific
Specific IgM antibodies are detected only in acute phase of infection, and for detecting active (not latent) infections
How is PCR used in routine diagnostics and provide further details on specific tests and what species these tests may be used to diagnose (mPCR, LAMP-PCR, RT-PCR, dPCR and ddPCR)
PCR
can be used to target the 16S rRNA
specific PCR assays based on unique genes to diagnose infections: high sensitivity and specificity, easy to perform, rapid
Multiplex PCR (mPCR)
not limited by sample volume
uses different pairs of primers
minimises number of separate reactions -> allows accurate diagnosis of several diseases with a single diagnostic test
Loop-mediated isothermal amplification (LAMP-PCR)
Alternative in clinical labs
Used to detect species that cause chorioamnionitis and infections associated with premature labor
uses primers recognising distinct regions of target DNA for a highly specific amplification reaction
significant increase of detection limits, efficiency, selectivity, and specificity
Real-time PCR
gold standard for detection and quantification of bacterial pathogens
is safer avoiding cross contaminations (no manipulation of the samples is needed)
Digital PCR (dPCR)
can directly quantify -> used for low-abundance detection
Droplet digital PCR (ddPCR) -> used to diagnose bacterial infections that are sometimes hard to identify due to stage (low pathogen concentration)
Describe the basic background of FISH and how this might be used to diagnose bacterial infections
Fluorescent in situ hybridisation – FISH
Short fluorescence-labelled DNA bind to ribosomes of infectious agents → fluorescence microscopy
Used for detecting bacteria in biopsies and blood cultures
Discuss the advantages and disadvantages of molecular tests for AMR and provide examples
detect resistance-coding genes or resistanceassociated mutations in DNA
extracted from purified bacterial isolates or directly from clinical samples
faster than phenotypic methods
limitations
can only detect known resistance genes or mutations
molecular and phenotypic test results are not always well correlated (may produce false negatives)
false-positives may be seen due to DNA contamination
What is the background of using next generation sequencing for infection diagnostics with a focus on metagenomics and NEC
Powerful tool in medical microbiology
Can be used for
typing of pathogens
presence of AMR
genes for virulence and pathogenicity
Culture-free identification of a range of pathogens in complex polymicrobial samples
Provide details on POCTs and how they can be used in the context of diagnosing of bacterial infections with examples of the different types (antibody, nucleic acid and protein/glycans)
Point of care tests (POCTs)
Biosensors
based on the detection and quantification of specific analytes by biorecognition elements (colorimetric/fluorimetric or electrochemical)
implemented in community, primary care and hospital settings
Immune (antibody)-based
Focus on Lateral Flow Immuno Assays (LFIAs
nucleic acid-based
often PCR based
protein and glycan-based
Detection of microbial antigens as indicators of infection
or of host biomarkers to distinguish classes of infecting microbes (e.g. bacterial vs viral)
Describe how mass spectrometry methods are used in diagnostics (also referring back to the Identification lecture) and how new methods such as REIMS may be used in the clinical microbiology lab
MALDI-TOF MS
identifying bacteria directly from colonies in a few minutes
relieable and accurate
possibly identification of pathogens directly from positive blood cultures, sub-species typing or detection of drug resistance determinants
Rapid evaporative ionization mass spectrometry (REIMS)
identification based on speciesspecific lipid profile
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