*by Jeff Meyer
*

In my last article, *Hierarchical Regression in Stata: An Easy Method to Compare Model Results*, I presented the following table which examined the impact several predictors have on one’ mental health.

At the bottom of the table is the number of observations (N) contained within each sample.

The sample sizes are quite large. Does it really matter that they are different? The answer is absolutely yes.

Fortunately in Stata it is not a difficult process to use the same sample for all four models shown above.

#### Some background info:

As I have mentioned previously, Stata stores results in temp files. You don’t have to do anything to cause Stata to store these results, but if you’d like to use them, you need to know what they’re called.

To see what is stored after an estimation command, use the following code:

**ereturn list**

After a summary command:

**return list**

One of the stored results after an estimation command is the function **e(sample)**. e(sample) returns a one column matrix. If an observation is used in the estimation command it will have a value of 1 in this matrix. If it is not used it will have a value of 0.

Remember that the “stored” results are in temp files. They will disappear the next time you run another estimation command.

#### The Steps

So how do I use the same sample for all my models? Follow these steps.

Using the regression example on mental health I determine which model has the fewest observations. In this case it was model four.

I rerun the model:

**regress MCS weeks_unemployed i.marital_status kids_in_house religious_attend income**

Next I use the generate command to create a new variable whose value is 1 if the observation was in the model and 0 if the observation was not. I will name the new variable “in_model_4”.

**gen in_model_4 = e(sample)**

Now I will re-run my four regressions and include only the observations that were used in model 4. I will store the models using different names so that I can compare them to the original models.

My commands to run the models are:

**regress MCS weeks_unemployed i.marital_status if in_model_4==1
estimates store model_1a**

**regress MCS weeks_unemployed i.marital_status kids_in_house if in_model_4==1
estimates store model_2a**

**regress MCS weeks_unemployed i.marital_status kids_in_house religious_attend if in_model_4==1
estimates store model_3a**

**regress MCS weeks_unemployed i.marital_status kids_in_house religious_attend income if in_model_4==1
estimates store model_4a**

Note: I could use the code **if in_model_4** instead of **if in_model_4==1.** Stata interprets dummy variables as 0 = false, 1 = true.

Here are the results comparing the original models (eg. Model_1) versus the models using the same sample (eg. Model_1a):

Comparing the original models 3 and 4 one would have assumed that the predictor variable “Income level” significantly impacted the coefficient of “Frequent religious attendance”. Its coefficient changed from -58.48 in model 3 to 6.33 in model 4.

That would have been the wrong assumption. That change is coefficient was not so much about any effect of the variable itself, but about the way it causes the sample to change via listwise deletion. Using the same sample, the change in the coefficient between the two models is very small, moving from 4 to 6.

Want to learn Stata? Join Jeff for his **free upcoming webinar (12/17)**: How to Benefit from Stata’s Bountiful Help Resources and/or his **upcoming online workshop (1/12/16)**: Introduction to Data Analysis with Stata.

*Jeff Meyer is a consultant and statistical programmer at Optimizing Outcomes. He provides statistical analysis, cost benefit analysis, financial analysis, and program evaluation services. You can discover more about Jeff at his LinkedIn page.*

{ 0 comments }