Second-generation p-values: Improved rigor, reproducibility, &amp; transparency in statistical analyses

Blume, Jeffrey D.; McGowan, Lucy D’Agostino; Dupont, William D.; Greevy, Robert A.

doi:10.1371/journal.pone.0188299

Cited by 61 publications

(94 citation statements)

References 22 publications

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“…50% when the observed correlations are r = -.45 and r = .45, meaning that the two second generation p-values associated with these correlations are larger than 50%. Because the confidence intervals are asymmetric around the observed effect size of 0.45 (ranging from 0.11 to 0.70) according to Blume et al (2018) 58.11% of the data-supported hypotheses are null hypotheses, and therefore 58.11% of the data-supported hypotheses are compatible with the null premise.…”

Section: The Relation Between Equivalence Tests and Sgpv For Asymmetrmentioning

confidence: 98%

“…To examine the relation between the TOST p-value and the SGPV we can calculate both statistics across a range of observed effect sizes. Building on the example by Blume et al (2018), in Figure 1 p-values are plotted for the TOST procedure and the SGPV. The statistics are calculated for hypothetical one-sample t-tests for observed means ranging from 140 to 150 (on the x-axis).…”

Section: The Relationship Between P-values From Tost and Sgpv When Comentioning

confidence: 99%

“…When testing for equivalence researchers aim to examine whether an observed effect is too small to be considered meaningful, and therefore is practically equivalent to zero. By specifying a range around the null hypothesis of values that are deemed practically equivalent to the absence of an effect (i.e., 0 ± 0.3) the observed data can be compared against an equivalence range and researchers can test if a meaningful effect is absent ; Westlake, 1972).Second generation p-values (SGPV) were recently proposed as a statistic that represents "the proportion of data-supported hypotheses that are also null hypotheses" (Blume et al, 2018). The researcher specifies an equivalence range around a null hypothesis of values that are considered practically equivalent to the null hypothesis.…”

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confidence: 99%

“…Specifying a range of values around zero allows researchers to statistically reject the presence of effects large enough to matter, and prevents practically insignificant effects from being interpreted as a statistically significant difference. We compare the behavior of the recently proposed second generation p-value (Blume, D'Agostino McGowan, Dupont, & Greevy, 2018) with the more established Two One-Sided Tests (TOST) equivalence testing procedure (Schuirmann, 1987). We show that the two approaches yield almost identical results under optimal conditions.…”

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confidence: 99%

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Equivalence Testing and the Second Generation P-Value

Lakens¹,

Delacre²

2018

Preprint

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To move beyond the limitations of null-hypothesis tests, statistical approaches have been developed where the observed data are compared against a range of values that are equivalent to the absence of a meaningful effect. Specifying a range of values around zero allows researchers to statistically reject the presence of effects large enough to matter, and prevents practically insignificant effects from being interpreted as a statistically significant difference. We compare the behavior of the recently proposed second generation p-value (Blume, D'Agostino McGowan, Dupont, & Greevy, 2018) with the more established Two One-Sided Tests (TOST) equivalence testing procedure (Schuirmann, 1987). We show that the two approaches yield almost identical results under optimal conditions. Under suboptimal conditions (e.g., when the confidence interval is wider than the equivalence range, or when confidence intervals are asymmetric) the second generation p-value becomes difficult to interpret. The second generation p-value is interpretable in a dichotomous manner (i.e., when the SGPV equals 0 or 1 because the confidence intervals lies completely within or outside of the equivalence range), but this dichotomous interpretation does not require calculations. We conclude that equivalence tests yield more consistent p-values, distinguish between datasets that yield the same second generation p-value, and allow for easier control of Type I and Type II error rates.To test predictions researchers predominantly rely on nullhypothesis tests. This statistical approach can be used to examine whether observed data are sufficiently surprising under the null hypothesis to reject an effect that equals exactly zero. Null-hypothesis tests have an important limitation, in that this procedure can only reject the hypothesis that there is no effect, while scientists should also be able to provide statistical support for equivalence. When testing for equivalence researchers aim to examine whether an observed effect is too small to be considered meaningful, and therefore is practically equivalent to zero. By specifying a range around the null hypothesis of values that are deemed practically equivalent to the absence of an effect (i.e., 0 ± 0.3) the observed data can be compared against an equivalence range and researchers can test if a meaningful effect is absent ; Westlake, 1972).Second generation p-values (SGPV) were recently proposed as a statistic that represents "the proportion of data-supported hypotheses that are also null hypotheses" (Blume et al., 2018). The researcher specifies an equivalence range around a null hypothesis of values that are considered practically equivalent to the null hypothesis. The SGPV measures the degree to which a set of data-supported parameter values falls within the interval null hypothesis. If the estimation interval falls completely within the equivalence range, the SGPV is 1. If the confidence interval falls completely outside of the equivalence range, the SGPV is 0. Otherwise the SGPV is a value between 0 and 1...

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Section: The Relation Between Equivalence Tests and Sgpv For Asymmetrmentioning

confidence: 98%

Section: The Relationship Between P-values From Tost and Sgpv When Comentioning

confidence: 99%

mentioning

confidence: 99%

mentioning

confidence: 99%

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Equivalence Testing and the Second Generation P-Value

Lakens¹,

Delacre²

2018

Preprint

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“…But once the data are in, the Bayes factor itself indicates the strength of evidence for H1 over H0; the "power" calculations do not modify that interpretation. Discussion There are two approaches for obtaining evidence for no effect: Either by specifying a minimally interesting effect size, and determining whether the evidence supports whether the true effect is smaller or larger than that (Blume et al, 2018;Kruschke, 2014;Lakens, Scheel, & Isager, 2018;Mayo, 2018); or specifying a rough scale of effect and using Bayes factors to determine the evidence for a model predicting that scale of effect versus a model predicting no effect (Dienes, 2014;Jeffreys, 1939;Wagenmakers et al, 2017). Either way one must determine a relevant effect size based on scientific context (Morey, Homer, & Proulx, 2018;Vanpaemel, 2011Vanpaemel, , 2016.…”

Section: The Rough Scale Of Effect Predictedmentioning

confidence: 99%

Obtaining evidence for no effect

Dienes¹

2020

Preprint

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Obtaining evidence that something does not exist requires knowing how big it would be were it to exist. Testing a theory that predicts an effect thus entails specifying the range of effect sizes consistent with the theory, in order to know when the evidence counts against the theory. Indeed, a theoretically relevant effect size must be specified for power calculations, equivalence testing, and Bayes factors in order that the inferential statistics test the theory. Specifying relevant effect sizes for power, or the equivalence region for equivalence testing, or the scale factor for Bayes factors, is necessary for many journal formats, such as registered reports, and should be necessary for all articles that use hypothesis testing. Yet there is little systematic advice on how to approach this problem. This article offers some principles and practical advice for specifying theoretically relevant effect sizes for hypothesis testing.

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Health Conditions Associated with Alzheimer's Disease and Vascular Dementia

Beason‐Held

Kerley

Chaganti

et al. 2023

Annals of Neurology

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Objective: We examined medical records to determine health conditions associated with dementia at varied intervals prior to dementia diagnosis in participants from the Baltimore Longitudinal Study of Aging (BLSA). Methods: Data were available for 347 Alzheimer's disease (AD), 76 vascular dementia (VaD), and 811 control participants without dementia. Logistic regressions were performed associating International Classification of Diseases, 9th Revision (ICD-9) health codes with dementia status across all time points, at 5 and 1 year(s) prior to dementia diagnosis, and at the year of diagnosis, controlling for age, sex, and follow-up length of the medical record. Results: In AD, the earliest and most consistent associations across all time points included depression, erectile dysfunction, gait abnormalities, hearing loss, and nervous and musculoskeletal symptoms. Cardiomegaly, urinary incontinence, non-epithelial skin cancer, and pneumonia were not significant until 1 year before dementia diagnosis. In VaD, the earliest and most consistent associations across all time points included abnormal electrocardiogram (EKG), cardiac dysrhythmias, cerebrovascular disease, non-epithelial skin cancer, depression, and hearing loss. Atrial fibrillation, occlusion of cerebral arteries, essential tremor, and abnormal reflexes were not significant until 1 year before dementia diagnosis. Interpretation: These findings suggest that some health conditions are associated with future dementia beginning at least 5 years before dementia diagnosis and are consistently seen over time, while others only reach significance closer to the date of diagnosis. These results also show that there are both shared and distinctive health conditions associated with AD and VaD. These results reinforce the need for medical intervention and treatment to lessen the impact of health comorbidities in the aging population.

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Second-generation p-values: Improved rigor, reproducibility, & transparency in statistical analyses

Cited by 61 publications

References 22 publications

Equivalence Testing and the Second Generation P-Value

Equivalence Testing and the Second Generation P-Value

Obtaining evidence for no effect

Health Conditions Associated with Alzheimer's Disease and Vascular Dementia

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