A cognitive assessment strategy that is not limited to examining a set of summary test scores may be more helpful for early detection of emergent illness such as Alzheimer’s disease (AD) and may permit a better understanding of cognitive functions and dysfunctions in those with AD and other dementia disorders. A revisit of the work already undertaken by Kaplan and colleagues using the Boston Process-Approach provides a solid basis for identifying new opportunities to capture data on neurocognitive processes, test-taking strategies and response styles. Thus, this critical review will combine traditional process-based assessment strategies with support provided or offered by newer technologies that have the potential to add value to data collection and interpretation. There is now considerable interest in neuropsychological test administration using computer/digital technology, both in research and in clinical settings. To add value, any computerized version of an existing cognitive test should respect the administration procedure for which normative data were obtained, should be time-saving in terms of scoring and interpretation, and should, we argue, facilitate gathering information about the processes and strategies followed in test completion. This article will offer an overview of the steps needed when implementing computerization of neuropsychological tests using a Process-Based Approach (PBA) to these technology-based adaptations and will discuss further developments in this area by linking it to future technological developments that may be possible in the area of neuropsychological assessment. Additionally, an overview of neuropsychological tests that may benefit from computerization will be presented, together with suggestions on the specific processes, strategies and features that may be captured with the aid of such computerization. Finally, hypotheses on how virtual reality could be an asset for the future of the PBA to neuropsychological assessment will also be discussed.
This research was primarily conducted by Unai Diaz-Orueta, a close contributor to Nesplora’s product development, and a well-considered researcher and state-of-the-art professional.
The article uses Nesplora Attention Kids Aula as a starting point and basis to develop the research.
Here an excerpt from the article:
AULA […], which is, to the best of our knowledge, the only Virtual Classroom environment that has undergone an extensive normative study with close to 1,300 children and adolescents from 6 to 16 years-old. […] Considering AULA as an example, differentiation of error subtypes, errors by sensorial modality, errors in presence versus absence of distractors, errors in “no-go” versus “go” tasks, body movement tracking, and a particular measure that is referred to as “quality of attention focus” (intended to provide information on whether user’s performance was dependent on internal or external distractors), can be considered, at least to some extent, a test that uses a PBA, with the caveat of presenting data in pure quantitative terms.
Diaz-Orueta U, Blanco-Campal A, Lamar M, Libon DJ and Burke T (2020) Marrying Past and Present Neuropsychology: Is the Future of the Process-Based Approach Technology-Based? Front. Psychol. 11:361. doi: 10.3389/fpsyg.2020.00361
Este proyecto ha recibido financiación de la Unión Europea del programa de investigación e innovación
Horizon 2020 bajo el acuerdo Nº 733901
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