Tool for Converting ADHD Rating Scales Scores Based on Individual Participant Data from 53 Randomized Controlled Trials of ADHD Medications

Abstract

Introduction:

A variety of rating scales are currently being used to assess symptom severity and quantify symptoms change in attention-deficit/hyperactivity disorder (ADHD) research and clinical practice. This poses difficulties in interpreting scores from different scales in clinical practice and synthesizing data from studies using different scales. We aimed to develop algorithms for converting scores across the ADHD scales most often used in randomized controlled trials (RCTs) of ADHD medications in children/adolescents and adults, and to develop an online tool for implementing the algorithms.

Methods:

We analyzed individual participant data from RCTs of ADHD medications (32 RCTs in children/adolescents, 21 in adults), with data on at least two scales per participant at the same timepoint. We applied a series of competing models, that is, univariable and multivariable regression, random forests, and an equipercentile linkage approach, to link pairs of scales. To assess the error of the linking procedure and identify the optimal model, we calculated the median absolute error and $R^{2}$ of all approaches by comparing the values predicted from the models to the observed ones. We subsequently developed a tool to implement the best algorithms.

Results:

We linked six commonly used ADHD scales, such as the ADHD Rating Scale (ADHD-RS-IV; investigator-rated) and the Conners’ Parent Rating Scale (CPRS-R:S). Spline models most frequently yielded the lowest prediction error, outperforming alternative conversion algorithms for absolute scores in 6 out of 12 univariable models and 8 out of 12 multivariable models. The tool for scores conversion is available at ADHD_Scale_Conversion_Tool.

Conclusions:

Our linkage algorithms enable the comparison and harmonization of findings across studies using different ADHD rating scales. Translating scores across scales improves the interpretability of research findings, facilitates future evidence synthesis across studies, and may support clinical practice. Our online tool supports the practical uptake of our results.

Keywords

ADHD scale mapping conversion algorithms online tool

Get full access to this article

View all access options for this article.

References

Albano

. equate: An R package for observed-score linking and equating. J Stat Soft 2016;74(8):1–36.

American Psychiatric Association. Diagnostic and Statistical Manual of Mental Disorders: Fifth Edition Text Revision (DSM-V-TR). American Psychiatric Publishing.; Washington, DC; 2022.

Brennan

, Kolen

. Test equating, Scaling, and Linking-Methods and practices. Springer-verlag New York Incorporated; Washington, DC; 2014.

Busner

, Targum

. The clinical global impressions scale: Applying a research tool in clinical practice. Psychiatry (Edgmont) 2007;4(7):28–37.

Choi

, Schalet

, Cook

, et al. Establishing a common metric for depressive symptoms: Linking the BDI-II, CES-D, and PHQ-9 to PROMIS depression. Psychol Assess 2014;26(2):513–527.

Cohen

, Denys

, Mattila

, et al. Exploring the minimal important difference in the treatment of paediatric obsessive-compulsive disorder using selective serotonin reuptake inhibitors. BMJ Ment Health 2024;27(1):e300999.

Conners

, Erhardt

, Epstein

, et al. Self-ratings of ADHD symptoms in adults I: Factor structure and normative data. J. Atten. Disord, 1999;3(3):141–151.

Conners

. Conners’ rating scales-revised: Technical manual. Multi-Health Systems: North Tonawanda, NY; 1997.

Conners

, Sitarenios

, Parker

, et al. Conners’ parent rating scale–revised. J Abnorm Child Psychol 1997;26(4):257–268.

10.

Conners

, Sitarenios

, Parker

, et al. The revised Conners’ Parent Rating Scale (CPRS-R): factor structure, reliability, and criterion validity. J. Abnorm. Child Psychol, 1998;26(4):257–268.

11.

Cortese

. Pharmacologic treatment of attention deficit–hyperactivity disorder. N Engl J Med 2020;383(11):1050–1056.

12.

Cortese

, Adamo

, Del Giovane

, et al. Comparative efficacy and tolerability of medications for attention-deficit hyperactivity disorder in children, adolescents, and adults: A systematic review and network meta-analysis. Lancet Psychiatry 2018;5(9):727–738.

13.

Cortese

, Song

, Farhat

, et al. Incidence, prevalence, and global burden of ADHD from 1990 to 2019 across 204 countries: Data, with critical re-analysis, from the Global Burden of Disease study. Mol Psychiatry 2023;28(11):4823–4830.

14.

Deb

, Dhaliwal

, Roy

. The usefulness of conners’ rating scales‐revised in screening for attention deficit hyperactivity disorder in children with intellectual disabilities and borderline intelligence. J Intellect Disabil Res 2008;52(11):950–965.

15.

Faraone

, Bellgrove

, Brikell

, et al. Attention-deficit/hyperactivity disorder. Nat. Rev. Dis. Primers, 2024;10(1):11; doi: 10.1038/s41572-024-00495-0

16.

Furukawa

, Levine

, Buntrock

, et al. How can we estimate QALYs based on PHQ-9 scores? Equipercentile linking analysis of PHQ-9 and EQ-5D. Evid Based Ment Health 2021;24(3):97–101.

17.

Furukawa

, Reijnders

, Kishimoto

, et al. Translating the BDI and BDI-II into the HAMD and vice versa with equipercentile linking. Epidemiol Psychiatr Sci 2019;14:29:e24.

18.

Gallardo‐Gómez

, Richardson

, Dwan

. Standardized mean differences in meta‐analysis: A tutorial. Cochrane Evid. Synth. Methods, 2024;2(3):e12047.

19.

Hopkins

, Rowlands

. Standardization and other approaches to meta‐analyze differences in means. Stat Med 2024;43(16):3092–3108.

20.

Jung

, Aloe

. Standardized mean differences: Not so standard after all. Campbell Syst Rev 2025;21(3):e70056.

21.

Kuhn

. Building predictive models in R using the caret package. J Stat Soft 2008;28(5):1–26.

22.

Leucht

, Fennema

, Engel

, et al. Translating the HAM-D into the MADRS and vice versa with equipercentile linking. J Affect Disord 2018;226:326–331.

23.

Levine

, Yoshida

, Goldberg

, et al. Linking the mini-mental state examination, the alzheimer’s disease assessment scale–cognitive subscale and the severe impairment battery: Evidence from individual participant data from five randomised clinical trials of donepezil. Evid. Based Ment. Health 2021;24(2):56–61.

24.

Mulraney

, De Silva

, Joseph A,

et al. International Consensus on Standard Outcome Measures for Neurodevelopmental Disorders: A Consensus Statement. JAMA Netw Open 2024;7(6):e2416760; doi: 10.1001/jamanetworkopen.2024.16760

25.

Ostinelli

, Efthimiou

, Luo

, et al. Combining endpoint and change data did not affect the summary standardised mean difference in pairwise and network meta‐analyses: An empirical study in depression. Res Synth Methods 2024;15(5):758–768.

26.

Roy

, Colacicco

, Frigeri

, et al. Definition of response in randomized controlled trials of medications for ADHD across the lifespan: A systematic review. J Child Adolesc Psychopharmacol 2025;35(6):321–325.

27.

Samara

, Engel

, Millier

, et al. Equipercentile linking of scales measuring functioning and symptoms: Examining the GAF, SOFAS, CGI-S, and PANSS. Eur Neuropsychopharmacol 2014;24(11):1767–1772.

28.

Samara

, Levine

, Leucht

. Linkage of young mania rating scale to clinical global impression scale to enhance utility in clinical practice and research trials. Pharmacopsychiatry 2023;56(1):18–24.

29.

Smyth

, Meier

. Evaluating the psychometric properties of the conners adult ADHD rating scales. J Atten Disord 2019;23(10):1111–1118.

30.

Spencer

, Adler

, Qiao

, et al. Validation of the adult ADHD investigator symptom rating scale (AISRS). J Atten Disord 2010;14(1):57–68.

31.

Yoshimatsu

, Imaeda

, Higa

, et al. Clinical implication of children’s depression rating scale‐revised score: Linking the children’s depression rating scale‐revised score and clinical global impression using patients data from clinical trials. Health Sci Rep 2023;6(9):e1512.

32.

Zhang

, Faries

, Vowles

IV , et al. ADHD rating scale. psychometric properties from a multinational study as clinician‐administered instrument. Int J Methods Psychiatr Res 2005;14(4):186–201.

Supplementary Material

Please find the following supplemental material available below.

For Open Access articles published under a Creative Commons License, all supplemental material carries the same license as the article it is associated with.

For non-Open Access articles published, all supplemental material carries a non-exclusive license, and permission requests for re-use of supplemental material or any part of supplemental material shall be sent directly to the copyright owner as specified in the copyright notice associated with the article.

0.14 MB

0.00 MB