Type I & Type II errors

Type I & Type II errors Brian Yuen18 June 2013

Definition of Type I error (α) • Concluded a statistical significant effect size from the sample when this does not exist in the whole population (H0 is true) • Reject the null hypothesis (H0) when it is true • False positive result • Level of significance - P value • Usually allowed for 5% - arbitrary but acceptable rate! • Repeatedly sample and test from the same population, you will expect to make 1 wrong conclusion (with statistically significant result) in 20 of these tests if the null hypothesis is in fact true

Definition of Type II error (β) • Concluded a non-statistical significant effect size from the sample when this exists in the whole population (H1 true) • Fail to reject the null hypothesis (H0) when it is not true • False negative result • Power of study = 100% - False negative rate • Maximum accepted false negative rate at 20%  Minimum power of study at 80%

What does a significant result mean? Chance findings fall into this region • Remember we are trying to find enough evidence to reject the null hypothesis • i.e. to show that the observed effect size has exceeded our pre-set threshold of expected events, hence a statistical significant result • Observed a significant result, are we • lucky to find out null hypothesis is indeed incorrect? • A genuine finding • unlucky to observed an unlikely result/event? • Type I error Findings fall in these 2 regions are too extreme to say these by chance

Can we eliminate these errors completely? • Type I error • Not really, there is always a pre-set (5%) chance for a Type I error • You could minimise this by reducing the level of significance from 5% to 1%, but you would expect a larger sample size • Type II error • Not really, there is always a pre-set (20%) chance for a Type II error • You could minimise this by reducing the error rate from 20% to 10%, but you would compromise this with a larger sample size

Can we ever work out if Type I error exist in published results? • Yes, if the result is statistically significant, then there is a possibility of a Type I error • Since we allowed for 5% chance to have this error, there is always a possibility of getting such error and there is no way we can get rid of this doubt • We could work out if there is any hint of an unusual/unlikely result by comparing results from other similar studies • Testing multiple outcomes issue • P<0.05 means it is unlikely that the observed effect size is by chance (less than 5%) • P<0.01 means it is unlikely that the observed effect size is by chance (less than 1%)

Can we ever work out if Type II error exist in published results? • Yes, if the result is not statistically significant, then there is a possibility of a Type II error • The key point is to identify if the author had performed a sample size calculation • with a pre-defined power before the study starts • on the one primary outcome they made conclusive statement • whether they had recruited the desired number at the analysis stage • whether they had pre-defined a clinically worthwhile effect size to be detected and was observed • Then the chance of having a Type II error would be the pre-set value, i.e. 20%

Type I error (α) & Type II error (β)

Mind twisting quizzes! • In a published paper, a statistically significant result of a fully powered 2-group study was reported on a single primary outcome. What can you comment on this result regarding Type I/II error? • In a published paper, a non statistically significant result of a fully powered 2-group study was reported on a single primary outcome. What can you comment on this result regarding Type I/II error? • You have reviewed 20 studies of a similar kind regarding the same outcome measure. You have found 5 studies with statistically significant results, while the others were not. What is your view on these results?

Reference • http://www.bmj.com/about-bmj/resources-readers/publications/statistics-square-one/5-differences-between-means-type-i-an

Type I & Type II errors