Logistic regressionCommand: Statist

Logistic regression

Command: Statistics
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Description

Logistic regression is a statistical method for analyzing a dataset in which there are one or more independent variables that determine an outcome. The outcome is measured with a dichotomous variable (in which there are only two possible outcomes).
In logistic regression, the dependent variable is binary or dichotomous, i.e. it only contains data coded as 1 (TRUE, success, pregnant, etc. ) or 0 (FALSE, failure, non-pregnant, etc.).
The goal of logistic regression is to find the best fitting (yet biologically reasonable) model to describe the relationship between the dichotomous characteristic of interest (dependent variable = response or outcome variable) and a set of independent (predictor or explanatory) variables. Logistic regression generates the coefficients (and its standard errors and significance levels) of a formula to predict a logit transformation of the probability of presence of the characteristic of interest:
Logistic regression equation

where p is the probability of presence of the characteristic of interest. The logit transformation is defined as the logged odds:
Odds=p/(1-p)

and
Logit(p)=ln(p/(1-p))

Rather than choosing parameters that minimize the sum of squared errors (like in ordinary regression), estimation in logistic regression chooses parameters that maximize the likelihood of observing the sample values.
Required input

Logistic regression dialog box

Dependent variable

The variable whose values you want to predict. The dependent variable must be binary or dichotomous, and should only contain data coded as 0 or 1. If your data are coded differently, you can use the Define status tool to recode your data.
Independent variables

Select the different variables that you expect to influence the dependent variable.
Filter

(Optionally) enter a data filter in order to include only a selected subgroup of cases in the analysis.
Options

Method: select the way independent variables are entered into the model.
Enter: enter all variables in the model in one single step, without checking
Forward: enter significant variables sequentially
Backward: first enter all variables into the model and next remove the non-significant variables sequentially
Stepwise: enter significant variables sequentially; after entering a variable in the model, check and possibly remove variables that became non-significant.
Enter variable if P<
A variable is entered into the model if its associated significance level is less than this P-value.
Remove variable if P>
A variable is removed from the model if its associated significance level is greater than this P-value.
Classification table cutoff value: a value between 0 and 1 which will be used as a cutoff value for a classification table. The classification table is a method to evaluate the logistic regression model. In this table the observed values for the dependent outcome and the predicted values (at the selected cut-off value) are cross-classified.
Categorical: click this button to identify nominal categorical variables.
Results

After you click the OK button, the following results are displayed:
Results of logistic regression

Sample size and cases with negative and positive outcome

First the program gives sample size and the number and proportion of cases with a negative (Y=0) and positive (Y=1) outcome.
Overall model fit

The null model -2 Log Likelihood is given by -2 * ln(L0) where L0 is the likelihood of obtaining the observations if the independent variables had no effect on the outcome.
The full model -2 Log Likelihood is given by -2 * ln(L) where L is the likelihood of obtaining the observations with all independent variables incorporated in the model.
The difference of these two yields a Chi-Squared statistic which is a measure of how well the independent variables affect the outcome or dependent variable.
If the P-value for the overall model fit statistic is less than the conventional 0.05 then there is evidence that at least one of the independent variables contributes to the prediction of the outcome.
Cox & Snell R2 and Nagelkerke R2 are other goodness of fit measures known as pseudo R-squareds. Note that Cox & Snell's pseudo R-squared has a maximum value that is not 1. Nagelkerke R2 adjusts Cox & Snell's so that the range of possible values extends to 1.
Regression coefficients

The logistic regression coefficients are the coefficients b0, b1, b2, ... bk of the regression equation:
Logistic regression

An independent variable with a regression coefficient not significantly different from 0 (P>0.05) can be removed from the regression model (press function key F7 to repeat the logistic regression procedure). If P0, dec