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  Waterborne pathogens : detection methods and applications

  edited by Helen Bridle.

  Contents:
  1.Introduction / Helen Bridle
  References
  2.Overview of Waterborne Pathogens / Helen Bridle
  2.1.Viruses
  2.2.Bacteria
  2.3.Protozoa
  2.4.Helminths
  2.5.Summary
  Acknowledgment
  References
  3.Existing Methods of Waterborne Pathogen Detection / James Green
  3.1.World health organisation guidelines
  3.2.Types of monitoring
  3.3.Fecal indicator monitoring
  3.4.Direct detection of pathogens
  3.5.Summary
  References
  4.Sample Processing / Anna C. Schultz
  4.1.Background
  4.2.Sampling
  4.3.Concentration techniques
  4.4.Secondary concentration techniques
  4.5.Nuclei acid extraction for molecular detection
  4.6.Analytical controls
  4.7.Summary
  References
  5.Optical Detection Technologies for Waterborne Pathogens / Helen Bridle
  5.1.Techniques using labeling
  5.2.Spectroscopy
  5.3.Summary
  References
  6.Electrochemical Detection / Vincent Senez
  6.1.Introduction
  6.2.Potentiometry
  6.3.Voltammetry
  6.4.Coulometry
  6.5.Impedance spectroscopy
  6.6.Dielectrophoresis
  6.7.Scaling effect
  6.8.Miniaturized detection of waterborne pathogens
  6.9.Summary and future outlook
  References
  7.Biosensors for the Detection of Waterborne Pathogens / Marc Desmulliez
  7.1.Performance characteristics
  7.2.Recognition elements
  7.3.Transduction methods
  7.4.Biosensors for waterborne viruses
  7.5.Biosensors for waterborne bacteria
  7.6.Biosensors for waterborne protozoa
  7.7.Biosensors for the detection of waterborne parasites
  7.8.Summary and future outlook
  References
  8.Molecular Methods for the Detection of Waterborne Pathogens / Kimberley Gilbride
  8.1.Why molecular methods?
  8.2.Molecular methods
  8.3.Current state of pathogen detection in water sources
  8.4.Fecal source tracking
  8.5.Summary and future outlook
  References
  9.Nanotechnology for Detection of Waterborne Pathogens / Helen Bridle
  9.1.Introduction
  9.2.Background
  9.3.Nanotechnology in sample processing
  9.4.Nanotechnology in pathogen detection
  9.5.Summary
  References
  10.Miniaturized Detection Systems / Helen Bridle
  10.1.Microfluidics
  10.2.Applications
  10.3.Summary
  References
  11.Applications of Emerging Technologies in the Drinking Water Sector / Graham Sprigg
  11.1.Current position of the UK water industry
  11.2.Application of WSPs and WSF in the rest of the world
  11.3.The legislative framework
  11.4.Pathogens of major concern to the market
  11.5.Public health policy implications for detection and treatment
  11.6.Detection and treatment from a market perspective
  11.7.Market adoption of emerging technologies
  11.8.Conclusions
  References
  12.Conclusions / Helen Bridle
  12.1.Summary
  12.2.The future of waterborne pathogen monitoring.

  Digital Access ScienceDirect 2014
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• Article

  Survival after coronary surgery.

  Wisoff BG, Fogel R, Voleti C, Weisz D, Hartstein ML, Aintablian A, Hamby RI.

  J Thorac Cardiovasc Surg. 1978 Jul;76(1):108-10.

  A 4.4 year follow-up study has been done on a previously reported group of 200 consecutive patients who underwnet coronary bypass. The yearly mortality rate has been 1% (8/200 in 4 years). Our total group of 1,038 surgically treated patients has had an operative mortality rate of 1.3%, and an early graft patency rate of 89.6% has been recorded in the 60% of patients consenting to restudy. These results are compared to natural history studies with and without angiography. Comparison with recent prospective randomized studies of patients with chronic stable angina and those with unstable angina suggests that a low operative mortality rate and optimal technical performance are necessary to improve the survival rate of patiens with symptomatic obstructive coronary disease.

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