The NEURONORMA project (NN) is a multicentre study gathering normative data from a Spanish population older than 49.1 The present study, the NEURONORMA young adults project (NNy), aims to build upon NN by gathering normative data from a Spanish sample of subjects younger than 50. The general characteristics of this study are described in another article.

Within the framework of that project, this study presents normative data for a sample of subjects aged 18–49. Data were gathered for different attention tests: verbal span (forward and backward), visuospatial span (forward and backward), the Letter-Number Sequencing test (LNS), the Trail Making Test (TMT) and the Symbol Digit Modalities Test (SDMT).

Attention is one of the most relevant aspects in neuropsychological assessment,2 since attention disorders affect a significant number of patients with brain lesions.3 Although attention is a well-differentiated function in theory, isolating it is difficult in clinical practice. This multi-factor task may overlap with other neuropsychological domains such as the executive functions, working memory, and memory.4

Some of the tests listed above measure selective attention (verbal span and digit-symbol substitution), whereas other tests measure capacities such as mental flexibility and psychomotor speed (TMT).

The verbal span test (forward and backward digit span5) is an attention and memory task with 2 parts. In the first part, the subject listens to a sequence of numbers and repeats it in the same order. In the second part, he/she repeats the sequence in reverse order.

The forward version is considered to be a tool for measuring verbal attention2 and not memory, as was previously believed.6 A normal digit span is 7±2 digits,6,7 although the Spanish version of the Wechsler Adult Intelligence Scale-Third Edition (WAIS-III)8 measures it at 6±1 digits. The literature describes a marked education effect on performance,9–11 and a slight age effect in subjects aged 65 or older.12–15 Comparisons of results obtained for Spanish and English speakers reveal differences. Performance was poorer in the first group. This is probably due to Spanish numbers containing more syllables than English ones.16

The backward digit span is a mental tracking task that includes verbal and visual procedures and working memory.17 The difference between forward verbal span and backward verbal span is about 1 point (0.59–2).14,18 When examining the influence of sociodemographic factors, we found a moderate age effect on scores.15 Performance decreased in subjects older than 70.13 On the other hand, there were no differences linked to sex or educational level.

The digit span test from the Wechsler scale is the one most commonly used in neuropsychological examinations. Normative data are included in the Spanish versions of WAIS-III,8 the Wechsler Memory Scale-Third Edition (WMS-III),8,19 and other Spanish-language test batteries.5,20,21

The visuospatial span test (Corsi forward and backward block-tapping test) is both a spatial memory23 and a visual working memory24 task. The test features a board upon which several cubes are placed in random order. The test is divided into 2 parts. First, the subject has to reproduce the sequence previously demonstrated by the examiner; second, the subject has to reproduce the sequence in reverse order. Both forward and backward visuospatial spans score between 1 and 2 points lower than verbal span.18

Farrell Pagulayan et al.23 described an upper developmental plateau for visuospatial span in early adolescence. No differences were found among the scores from subjects aged between 14 and 21. Wilde et al.15 found a moderate correlation between age and visuospatial span with a more acute decrease in performance from the age of 50. However, other authors state that this decrease begins at age of 65.14 These authors found differences in the performances of men and women on these tests, although such differences were not present among subjects with more than 12 years of schooling.14 Other studies have concluded that the sex effect on these tasks is not significant.24

Several normative studies exist for Spanish speakers, and Olazarán et al.16 found similar performances in both Spanish and English speaking populations. The WMS-III19 provides normative data for its Spanish version. Moreover, normative data for a sample older than 50 have recently been published.21

The LNS test is also used to measure working memory.25 This test is included in the WAIS-III8 and WMS-III19 test batteries. It consists of repeating a sequence of letters and numbers. Subjects first have to repeat the numbers in ascending order, followed by the letters in alphabetical order.

Normative studies for Letter-Number Sequencing show a moderate influence of age on scores.25,26 Spanish versions of the WAIS-III8 and WMS-III19 tests include normative data in Spanish. The NN project also includes normative data in Spanish for subjects older than 50.21

The TMT27 is used to measure visual motor speed, visual tracking, attention, motor function, working memory, processing speed, and executive function.2,28 The test is divided into 2 parts, A and B. In the first part, subjects order numbers from smallest to largest; in the second part, subjects add letters from the alphabet. Part A delivers additional information on sustained attention and hand-eye coordination speed; part B assesses subjects’ ability to alternate 2 sets of cognitive stimuli and mental flexibility in a more precise way.29

Recent studies with wide age ranges showed poorer performance on part A of the test with increasing age.30–35 Nevertheless, studies of a sample of young adults with a high educational level showed no significant changes with regard to this factor.36 These findings may suggest a decline in performance on this part of the TMT after 40 years37 or 50 years of age.38 Subjects with lower educational levels show poorer performances on the TMT.30,32–34 Heaton et al.39 found a more marked education effect among subjects younger than 60. Most studies in the literature show no sex-related differences between scores.30,32,34

Several studies provide normative data for the TMT, although they differ in their sample characteristics and the sociodemographic variables that were studied.2,29 Moreover, a recent meta-analysis concluded that normative data from different geographic regions and cultures were not equivalent.40 Two studies provide normative data in Spanish for the TMT in older adults21,41 and another study shows data for subjects aged 16–80.32

The SDMT42,43 is a test that mainly evaluates attention, visual tracking, mental processing speed, and visual motor speed. The test consists of using a key to assign a specific number between 1 and 9 to a meaningless geometric figure. Alternative forms have been developed and they feature in some compendia of neuropsychological tests.4

Several studies have shown how demographic factors influence performance on the SDMT.2,4,29 Jorm at al.44 found a decline in performance beginning at age 55. Years of schooling may also influence performance on this test.45–47 Results regarding sex effect are contradictory. Some studies found that sex had no significant effect on scores,48 whereas others found better performance in women.44

Smith43 gathered normative data in healthy adults aged between 18 and 78. Jorm et al.44 presented data broken down by sex and age in a sample of subjects aged between 20 and 64 upon finding differences between men and women.

Smith included normative data in Spanish for ages ranging between 18 and 85 in 2 groups differentiated by educational level.49 Within the NN project, Peña-Casanova et al. published normative data for a sample of Spanish subjects older than 50.21

With a view to the background described above, it is necessary to obtain normative data for attention tests in young Spanish adults. The purpose of this study is therefore to describe performance on these attention tasks in subjects aged between 18 and 49.

Table 1 displays the array of frequencies of raw scores for the entire group, with the corresponding NSS and percentile ranks. To use the table, select the patient's raw score for each test and identify the corresponding NSS and the percentile rank.

Based on the NSS, we calculated the correlation coefficient (r) and coefficient of determination (R2), which are shown in Table 2. The ‘years of schooling’ variable explains a significant percentage of the variation in most of the tests that were studied. These included: forward verbal span (7%), backward verbal span (11.5%), forward visuospatial span (10.7%), forward total Corsi block-tapping test score (7.7%), backward total Corsi block-tapping test score (5.7%), LNS span (7.8%), LNS total score (16.6%), TMT part A (11.3%), TMT part B (12%), and SDMT (23.8%). The percentage of variation explained by the age variable was remarkable in only 3 tasks: forward visuospatial span (10%), total score on the forward and backward Corsi block-tapping tests (8.7% and 7.3) respectively, and TMT part A (5.1%). We found no significant sex effect on any of the tests.

Multiple regression coefficients were used to adjust for age and education by using the NSSA&E&S formula. Based on these data, we created age and education adjustment tables for education, which doctors can use to adjust scores (Tables 3–7). Table 3 is used by selecting the ‘years of schooling’ variable on the top row in order to know what correction to apply to the NSS of each group. In order to obtain the adjustments, select the age (top row) and the years of education (left column) variables in Tables 4 and 7.

The main objective was to obtain normative data for Spanish young adults by using attention tests within the framework of a co-normalisation project on cognitive tests.

Significantly, this is the first study to produce normative data for the tests listed above in a single sample of subjects younger than 50.

This study provides normative data for attention tests in young Spanish adults and presents results in such a way that doctors can use them in diagnostic procedures. Based on the results obtained from young adults, we can confirm the presence of an education affect and a slight age effect, and state that sex had no effect on performance.

The authors have no conflicts of interest to declare.