# Items tagged “statistics”

34 results found

Article

#### Sensitivity

Sensitivity of a test/investigation is defined as the ability of the test to identify true positive cases of the disease under question.
Calculation
Sensitivity = true positives detected by test / total cases of the disease
where, total cases with the disease = true positive + false negative

Article

#### Specificity

Specificity of a test/investigation is the ability of a test to be correctly negative (true negative) in persons without the disease in question.
Calculation
Specificity = true negatives detected by test / total cases without the disease
where, total cases without the disease = true negative ...

Article

#### Positive predictive value

Positive predictive value of a test/investigation is defined as the proportion of patients with positive results being truly diseased.
Calculation
Positive predictive value = true positives (TP) detected / total positive results
(total positive results = true positive (TP) + false positive (F...

Article

#### Negative predictive value

Negative predictive value of a test/investigation is defined as the proportion of patients with negative results being truly disease free.
Calculation
Negative predictive value = true negatives detected / total negative results
(where "total negative results" = true negative + false negative)...

Article

#### p-value

The p-value is defined as the probability in observing a value or effect equivalent to a value or effect observed when the null hypothesis is true. In other words, the p-value is based on the assumption that the null hypothesis is true
By convention, p-value ≤0.05 is considered statistically si...

Article

#### Receiver operating characteristic curve

The receiver operating characteristic (ROC) curve is a statistical relationship used frequently in radiology, particularly with regards to limits of detection and screening.
The curves on the graph demonstrate the inherent trade-off between sensitivity and specificity:
y-axis: sensitivity
x-a...

Case

#### Receiver operating characteristic (ROC) curve

Diagnosis not applicable

Published 10 Mar 2015

29% complete

Diagram

Article

#### Sensitivity and specificity

Sensitivity and specificity are fundamental characteristics of diagnostic imaging tests.
The two characteristics derive from a 2x2 box of basic, mutually exclusive outcomes from a diagnostic test (Figure 1):
true positive (TP): an imaging test is positive and the patient has the disease/condit...

Article

#### Sensitivity and specificity of multiple tests

Sensitivity and specificity of multiple tests is a common statistical problem in radiology because frequently two tests (A and B) with different sensitivities and specificities are combined to diagnose a particular disease or condition.
These two tests can be interpreted in an "and" or an "or" ...

Article

#### Lead time bias

Lead time bias is a bias that may be encountered in radiology literature on imaging detection of disease.
Lead time is the time between detection of a disease with imaging and its usual clinical presentation. An imaging technique or modality may claim to lengthen survival time by earlier detect...

Article

#### Length time bias

Length time bias can be encountered in the radiology literature, particular with regard to imaging screening.
With length time bias, screening for a disease (D) appears more effective for a more indolent presentation of a disease (D1) than for quickly-symptomatic and quickly-fatal presentation ...

Article

#### Normal distribution

The normal distribution (or bell curve) is a type of data spread that is encountered frequently in radiology and in other sciences.
Data that are normally distributed can be evaluated using parametric statistics. When data are not normally distributed (i.e. skewed), then nonparametric statistic...

Article

#### Type I error

Type I errors (alpha errors, α) occur when we accept that there is a difference between two experimental groups, when in fact, no difference exists.
The threshold for accepting a type I error is the p-value. The traditionally accepted p-value of 0.05 indicates that the researchers are willing t...

Article

#### Type II error

Type II errors (beta errors, β) occur when we accept that there is no difference between two experimental groups, when in fact, there is a difference.
The p-value does not give a direct indication of the likelihood of a type II error; if the p-value is >0.05, this does not necessarily mean that...

Article

#### Bias

Bias refers to a methodological flaw in a research study which prevents generalization of a sample population out to the entire population. It is a systematic error.
Errors in radiology research studies fall into one of two categories:
random error
systematic error/bias
Random error cannot b...

Article

#### Power

Power is a critical concept when planning or evaluating a radiology study:
power = (1 - β)
Conventionally, power is set at 0.80-0.85.
Concept
When reviewing a sample data set, the mean of the value in question of the experimental population is likely different from the overall population. In...

Case

#### Statistics for radiology

Diagnosis not applicable

Published 24 Mar 2015

22% complete

Diagram

Article

#### Z-score

Z-scores are a way to translate individual data points into terms of a standard deviation.
Z = (X - Xbar) / σ
X: individual data point
Xbar: the arithmetic mean
σ: the standard deviation
The purpose of the Z-score is to allow comparison between values in different normal distributions. Two...

Article

#### Standard error of the mean

The standard error of the mean, SE(M) is a fundamental concept in hypothesis testing.
When you pick a random sample out of a population (say a 100 data point sample out of a 10,000 data point population), what is the mean value of that sample? It's going to want to tend toward the population me...

Article

#### Confidence interval

Confidence intervals are often used in radiology literature to express the variability of an experimental result. They are usually reported as the upper and lower bound of variability (upper,lower) for your mean value, with x% certainty 1.
If 95%, it means that if the study were redone many tim...