TY - JOUR
T1 - Use of multidimensional item response theory methods for dementia prevalence prediction
T2 - an example using the Health and Retirement Survey and the Aging, Demographics, and Memory Study
AU - GBD 2019 Dementia Collaborators
AU - Nichols, Emma
AU - Abd-Allah, Foad
AU - Abdoli, Amir
AU - Abualhasan, Ahmed
AU - Abu-Gharbieh, Eman
AU - Afshin, Ashkan
AU - Akinyemi, Rufus Olusola
AU - Alanezi, Fahad Mashhour
AU - Alipour, Vahid
AU - Almasi-Hashiani, Amir
AU - Arabloo, Jalal
AU - Ashraf-Ganjouei, Amir
AU - Ayano, Getinet
AU - Ayuso-Mateos, Jose L.
AU - Baig, Atif Amin
AU - Banach, Maciej
AU - Barboza, Miguel A.
AU - Barker-Collo, Suzanne Lyn
AU - Baune, Bernhard T.
AU - Bhagavathula, Akshaya Srikanth
AU - Bhattacharyya, Krittika
AU - Bijani, Ali
AU - Biswas, Atanu
AU - Boloor, Archith
AU - Brayne, Carol
AU - Brenner, Hermann
AU - Burkart, Katrin
AU - Nagaraja, Sharath Burugina
AU - Carvalho, Felix
AU - Castro-De-Araujo, Luis F.S.
AU - Catalá-López, Ferrán
AU - Cerin, Ester
AU - Cherbuin, Nicolas
AU - Chu, Dinh Toi
AU - Dai, Xiaochen
AU - de Sá-Junior, Antonio Reis
AU - Djalalinia, Shirin
AU - Douiri, Abdel
AU - Edvardsson, David
AU - El-Jaafary, Shaimaa I.
AU - Eskandarieh, Sharareh
AU - Faro, Andre
AU - Farzadfar, Farshad
AU - Feigin, Valery L.
AU - Fereshtehnejad, Seyed Mohammad
AU - Fernandes, Eduarda
AU - Ferrara, Pietro
AU - Filip, Irina
AU - Fischer, Florian
AU - Househ, Mowafa
N1 - Publisher Copyright:
© 2021, The Author(s).
PY - 2021/12
Y1 - 2021/12
N2 - Background: Data sparsity is a major limitation to estimating national and global dementia burden. Surveys with full diagnostic evaluations of dementia prevalence are prohibitively resource-intensive in many settings. However, validation samples from nationally representative surveys allow for the development of algorithms for the prediction of dementia prevalence nationally. Methods: Using cognitive testing data and data on functional limitations from Wave A (2001–2003) of the ADAMS study (n = 744) and the 2000 wave of the HRS study (n = 6358) we estimated a two-dimensional item response theory model to calculate cognition and function scores for all individuals over 70. Based on diagnostic information from the formal clinical adjudication in ADAMS, we fit a logistic regression model for the classification of dementia status using cognition and function scores and applied this algorithm to the full HRS sample to calculate dementia prevalence by age and sex. Results: Our algorithm had a cross-validated predictive accuracy of 88% (86–90), and an area under the curve of 0.97 (0.97–0.98) in ADAMS. Prevalence was higher in females than males and increased over age, with a prevalence of 4% (3–4) in individuals 70–79, 11% (9–12) in individuals 80–89 years old, and 28% (22–35) in those 90 and older. Conclusions: Our model had similar or better accuracy as compared to previously reviewed algorithms for the prediction of dementia prevalence in HRS, while utilizing more flexible methods. These methods could be more easily generalized and utilized to estimate dementia prevalence in other national surveys.
AB - Background: Data sparsity is a major limitation to estimating national and global dementia burden. Surveys with full diagnostic evaluations of dementia prevalence are prohibitively resource-intensive in many settings. However, validation samples from nationally representative surveys allow for the development of algorithms for the prediction of dementia prevalence nationally. Methods: Using cognitive testing data and data on functional limitations from Wave A (2001–2003) of the ADAMS study (n = 744) and the 2000 wave of the HRS study (n = 6358) we estimated a two-dimensional item response theory model to calculate cognition and function scores for all individuals over 70. Based on diagnostic information from the formal clinical adjudication in ADAMS, we fit a logistic regression model for the classification of dementia status using cognition and function scores and applied this algorithm to the full HRS sample to calculate dementia prevalence by age and sex. Results: Our algorithm had a cross-validated predictive accuracy of 88% (86–90), and an area under the curve of 0.97 (0.97–0.98) in ADAMS. Prevalence was higher in females than males and increased over age, with a prevalence of 4% (3–4) in individuals 70–79, 11% (9–12) in individuals 80–89 years old, and 28% (22–35) in those 90 and older. Conclusions: Our model had similar or better accuracy as compared to previously reviewed algorithms for the prediction of dementia prevalence in HRS, while utilizing more flexible methods. These methods could be more easily generalized and utilized to estimate dementia prevalence in other national surveys.
KW - Algorithm
KW - Dementia
KW - Global health
KW - Prevalence
KW - Validity
UR - http://www.scopus.com/inward/record.url?scp=85112536036&partnerID=8YFLogxK
U2 - 10.1186/s12911-021-01590-y
DO - 10.1186/s12911-021-01590-y
M3 - Article
AN - SCOPUS:85112536036
SN - 1472-6947
VL - 21
JO - BMC Medical Informatics and Decision Making
JF - BMC Medical Informatics and Decision Making
IS - 1
M1 - 241
ER -