Difference Between False Positive and False Negative

What are False Positive and False Negative?

All tests can potentially result in false positives and false negatives. Each test can be studied for how often we can expect false positives and false negatives.

False Positive

A false positive (+) describes that the results states you have the condition that were tested for, but you don not really have it. A false negative (-) means that the results states that you do not have a condition, but you actually do.

False Negative

With a false negative (-), he results say you don’t have a condition, but you really do. False negative (-) test results can happen in a variety of medical tests, from tests for conception, Tuberculosis (TB) or borreliosis (Lyme disease) to tests for the abuse and presence of substances which have a physiological effect (drugs or alcohol) in the body.

Difference between False positive and False negative

Description

False positive

A true false result means that no genetic material from the disease (for example flu) was detected.

False negative

A false negative means that the test shows a negative result, but it should have been a positive (+) result. This means that a person is actually having a disease or is infected but due to error in the testing or diagnosis, he may be informed that he is not infected.

Areas where they can happen

False positive

False positive can happen in areas, like:

  • You are not pregnant but the pregnancy test shows and confirms false positive (not the right positive) result
  • A malignancy (cancer) screening test confirms positive result, but you are actually cancer free or you do not have any cancerous growth or disease.
  • A situation where pregnancy screening (prenatal test) shows some complications or confirms positive for Down’s Syndrome, when actually your foetus does not have any disorder.
  • Virus software confirms any disease testing programme to be dangerous or a malicious one when it is actually harmless

False negative

False negatives can happen in areas, like:

  • Quality control – when an item which has defect or is damaged passes through the quality control and cracks.
  • In Disease software testing – for prognosis and diagnosis, a false negative result means that a virus or bacterial test failed 
  • In the Justice System – a false negative occurs when a person who is a criminal and guilty is given a clean chit and found “Not Guilty” and allowed to walk free.

Method

False positive

Problem – Detect species when no target species eDNA is present in the sample. 

Sources – (1) Incorrect detection of non-target species (i.e., insufficient assay sensitivity) or (2) DNA contamination

Solution – Improve assay specificity and exercise care when collecting, handling & processing samples. Include negative controls in experimental designs 

False negative

Problem – Fail to detect species when target species eDNA is present in the sample. 

Sources – (1) Insufficient assay sensitivity or (2) method failure during sample processing

Solution – Improve assay specificity and exercise care when collecting, handling & processing samples. Include negative controls in experimental designs 

Error type

False positive

 False Positive = Type I Error

False negative

False Negative = Type II Error

Causes

False positive

 Contamination from:

  • Prior sample testing by auto analyzers
  • Amplicons from previous amplifications of the same target
  • Aliquoting errors; sample or reagents
  • Transcription errors during results and record keeping 

False negative

  • Presence of inhibitors in the sample
  • Degraded samples
  • Within-species genetic diversity and associated phenotypic diversity (Strain diversity) reduction
  1. Primer target homology
  2. Probe (a single-stranded DNA or RNA used to search for its complementary sequence in a sample genome) target homology (real-time PCR)
  • Spoiled or degraded reagents
  • Equipment’s not functioning properly (Malfunctioning equipment)
  • A part of a chemical, or a number that evenly divides another number (Aliquoting errors); sample or reagents
  • a specific type of data entry error made by optical character recognition (OCR) programs (Transcription errors) during results and record keeping

Summary

The points of difference between False positive and False negative have been summarized as below:

False positive Vs False negative: Comparison Chart