I conducted a multiple regression analyses that included an interaction term (continuous x continuous). The interaction term was significant, but none of the simple slopes (1 SD above the mean, at the mean, 1 SD below the mean) were significant. How should I interpret this?

  • $\begingroup$ Was the first order term significant before adding in the interactions? $\endgroup$ – StatsStudent Oct 17 '15 at 0:16
  • $\begingroup$ Possible duplicate of stats.stackexchange.com/questions/156070/… $\endgroup$ – StatsStudent Oct 17 '15 at 0:17
  • $\begingroup$ There was a significant main effect of one of the predictors (what I'm considering to be the moderator) when the interaction term is not in the model. The other predictor (the independent variable) is not significant. $\endgroup$ – ApprenticeJunior Oct 18 '15 at 1:28
  • $\begingroup$ Looked through the other questions/answers - they don't quite apply! Thanks! $\endgroup$ – ApprenticeJunior Oct 18 '15 at 1:31
  • $\begingroup$ I would not include any terms in the model unless the first order term was significant. As a general rule, it makes little sense to include interactions if the variable by itself was not significant. $\endgroup$ – StatsStudent Oct 18 '15 at 1:55

It could happen that you found an instance of cross-over interaction or a close related phenomenon, since the cross-over interaction concept is usually used in relation to ANOVA instead of linear regression. That's what @Alexandre Gareau said and agrees with the model proposed by @not_least_squares.

Anyway, since you said in comments that one main factor is significant when non taking interaction in account, I think your problem is multicollinearity. When you take in account main effects and interaction, you have three predictor variables ($X_1, X_2$ and $X_1 \times X_2$) and I suspect multicollinearity arises because $X_1 \times X_2$ is highly correlated with $X_1$ or $X_2$. Therefore, coefficient estimates may change erratically without changing the predictive power of the model nor the dependent variable estimates.

I'll give an example where I would expect to happen the same issues you have found. Let's imagine we have a sample of offers of apartments for sale in a given area, and we want to predict selling price from the following variables:

  1. $X_1$: usable floor area (in m2).
  2. $X_2$: floor to ceiling height (in m).

If we run a regression analysis with those variables, we are likely to find that usable floor area is highly significant while height isn't.

If we take in account an interaction, we will just be adding another predictor variable $X_1 \times X_2$, that is, inner volume of the apartments, and, since height is nearly constant, volume will be highly correlated with apartment usable floor area. The same predictions that can be made using floor area can be made using inner volume, there is nearly no advantage in using one or the other, and definitively no advantage on using both.

Therefore, if I were you, I would compare models with just the significant main effect against models with just the interaction and models with both. If there is not a big improvement in using one of the last two, I would just use the model with the significant main effect.

And just as a closing note: interactions are very useful when performing ANOVA and analysing planned experiments, but beware of interactions when using regression to analyse observational data.

  • 1
    $\begingroup$ @Antoni Parellada The more information he shares, the more our answers will fit his problem - that is, to tell him what is happening instead of what could be happening. Anyway, I would suggest him to post regression summaries (with correlations, coeficients, significance and so) for simplicity and completeness. $\endgroup$ – Pere Sep 28 '16 at 15:42

You interpret it exactly as you'd think. Imagine the true model is

$$ Y = \beta_0 + \beta_1 X_1 X_2 + \varepsilon $$

So, the slope of $X_1$ depends on the value of $X_2$ and vica versa, and when one variable is zero, the other has no slope. Note that if you shifted the variables (e.g. mean-centering) in this model, the main effects would reappear.


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