1 / 50

Sampling Criteria

Sampling Criteria. Sampling plans will depend on the question that they are designed to answer Basic criteria Replication Representative Random Controls Method Validation. Detection of Pathogens in the Environment. Detection of Pathogenic Microbes in Environmental Media.

maddox
Télécharger la présentation

Sampling Criteria

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Sampling Criteria • Sampling plans will depend on the question that they are designed to answer • Basic criteria • Replication • Representative • Random • Controls • Method Validation

  2. Detection of Pathogens in the Environment

  3. Detection of Pathogenic Microbes in Environmental Media • Three main steps: • (1) recovery, extraction and concentration, • (2) purification and separation, and • (3) assay and characterization.

  4. Assay Methods for Pathogens • culture or infectivity • viability or activity measurements • immunoassays • nucleic acid assays • Protein or other macromolecular/biochemical assays • microscopic examinations

  5. Microscopic Methods

  6. History of Microscopy • 1595 First Microscopes (tube with lens at each end; 3X to 9X magnification) • Hans and Zacharias Janssen, Dutch eyeglass makers • Improvement on Compound Microcope design and Publication of Micrographia • Robert Hooke; 1665; coined term “cell” • First description of Bacteria (tooth scrapings) and Protozoa (pond water) • Anton van Leeuwenhoek

  7. Detecting Pathogens and Indicators in the Environment

  8. Microscopy • Goal of microscopy is to improve resolving power • Resolving power is ability to distinguish two points as separate • Function of light and aperture of objective • Resolution=smallest visible distance between two points • Human eye can resolve about 150μm between two points • Most light Microscopes can resolve ~0.2 μm

  9. Magnification • The ability to enlarge the apparent size of an image • Function of resolving power of microscope and the eye • Limit of resolution of eye/limit of resolution of microscope = magnification • e.g. 0.15mm/0.0002mm = 750X

  10. Microscopic and Imaging Detection of Pathogens • Still widely used for parasites and bacteria • Specific staining and advanced imaging to distinguish target from non-target organisms • Differential interference contrast microscopy • Confocal laser microscopy • Distinguish infectious from non-infectious organisms • Combine with infectivity, viability or activity assays • Overcome sample size limitation due to presence of non-target particles • Flow cytometry and other advanced imaging techniques • Advanced imaging methods require expensive hardware

  11. Types of Microscopes • Light microscopes • Compound • Dissection/stereo • Inverted • Confocal • Electron Microscopes • Scanning • Transmission

  12. Types of Microscopes • Light microscopes • Compound • Dissection/stereo • Inverted • Confocal • Electron Microscopes • Scanning • Transmission

  13. Types of Microscopes • Light microscopes • Compound • Dissection/stereo • Inverted • Confocal • Electron Microscopes • Scanning • Transmission

  14. Types of Microscopes • Light microscopes • Compound • Dissection/stereo • Inverted • Confocal • Electron Microscopes • Scanning • Transmission

  15. Types of Microscopes • Light microscopes • Compound • Dissection/stereo • Inverted • Confocal • Electron Microscopes • Scanning • Transmission

  16. Types of Microscopes • Light microscopes • Compound • Dissection/stereo • Inverted • Confocal • Electron Microscopes • Scanning • Transmission

  17. Light Microscopy • Bright Field • Dark Field • Phase Contrast • Differential Interference Contrast • Epifluorescence • Confocal Scanning

  18. Kohler Alignment

  19. Bright field • Most common of all light scopes • Light is transmitted through specimen • Specimen appears darker than surrounding field • Typical use: Gram Stains

  20. Gram Stain

  21. Microscopic Detection of Pathogens: Still Widely Used in Clinical Diagnostic Microbiology C. parvum oocysts ~5 um diam. Acid fast stain of fecal preparation

  22. Dark Field • Used to increase the contrast of a transparent specimen • Contrast = ability to distinguish an object from surrounding medium • Specimen appears as a bright image against dark background • Often used to observe live non-fixed/stained samples, e.g. observe motility and growth

  23. Darkfield Microscopy

  24. Phase Contrast • Used to observe fine internal detail • Takes advantage of differences in density of transparent internal cell components • Uses a series of diaphragms to separate and recombine direct versus diffracted light rays

  25. DIC • Illuminating light beam is split such that one beam passes through the specimen creating a phase difference with the second reference beam • Beams are then combined so that they interfere with eachother • Allows detection of small changes in in depth or elevation of the surface of the specimen • Thus gives 3d appearance

  26. Cryptosporidium parvumDifferential Interference Contrast Microscopy Image courtesy of O.D. “Chip” Simmons, III

  27. Fluorescent • Uses UV light source to illuminate fluorescent dyes that then emit visible light • e.g. FITC, Acridine Orange, Rhodamine • Specimens appear as bright colored objects in front of black background • Often used with immunologic procedures

  28. Cryptosporidium parvum: Microscopic Analysis of NC field isolate Immunofluorescence Differential Interference Contrast DAPI stain Images courtesy of O.D. “Chip” Simmons, III

  29. Electron Microscopy • SEM-Scanning Electron Microscopy • Image is formed as electron probe scans the surface of the specimen • Produces 3d images • TEM-Transmission Electron Microscopy • Image formed as electrons pass through specimen • Specimens must be thin cut • Used to view internal structure

  30. Activity Assays/Vital Dyes

  31. Detection of Pathogens by Viability or Activity Assays Assay bacteria for viability or activity by combining microscopic examination with chemical treatments to detect activity or "viability". • measure enzymatic activities, such as dehydrogenase, esterase, protease, lipase, amylase, etc. • Example: tetrazolium dye (INT) reduction: 2-[p-iodophenyl]-3-[p-nitrophenyl]-5-phenyltetrazolium Cl (measures dehydrogenase activity). • Reduction of tetrazolium dye leads to precipitation of reduced products in the bacterial cells that are seen microscopically as dark crystals.

  32. FISH: DAPI-stained Bacteria Incubated with INT (Tetrazolium Salt) • Enhanced image with artificial colors. • Blue: DAPI stain • Red: INT grains; indicate respiratory active bacteria.

  33. Progress in Detection of Bacteria by Viability or Activity Assays • Combine activity measurement and immunochemical assay (for specific bacteria). • Combine fluorescent antibody (FA) (for detection of specific bacterium or group) with enzymatic or other activity measurement • Use image analysis tools to improve detection and quantitation • Flow cytometry • Computer-aided laser scanning of cells or colonies on filters

  34. Viability or Activity Assays for Protozoan Cysts and Oocysts • Example: Stain with DAPI (the fluorogenic stain 4',6‑diamidino‑2‑phenylindole; taken up by live oocysts and propidium iodide (PI; taken up by dead oocysts). • Viable Cryptosporidium oocysts are DAPI-positive and PI-negative • Non-viable oocysts are DAPI-negative and PI-positive • Alternative stains may be more reliable • Viability staining is often poorly associated with infectivity Detects cysts and oocysts inactivated by UV and chemical disinfection

  35. C. parvum oocysts Dual stain : DAPI (blue) and propidium iodide (red)

  36. Immunological Methods

  37. Immunoglbulins • 5 Classes • IgA secretory • IgD found in plasma but not serum • IgE involved in allergic reactions • IgG humeral response • IgM humeral response • IgG and IgM most commonly used in immunoassays

More Related