Your search keyword '"LAINE, MATTI"' showing total 27 results

1. ADHD desynchronizes brain activity during watching a distracted multi-talker conversation.

Author

Salmi J, Metwaly M, Tohka J, Alho K, Leppämäki S, Tani P, Koski A, Vanderwal T, and Laine M

Subjects

Acoustic Stimulation methods, Adult, Attention Deficit Disorder with Hyperactivity psychology, Brain physiology, Female, Humans, Magnetic Resonance Imaging methods, Male, Middle Aged, Photic Stimulation methods, Attention physiology, Attention Deficit Disorder with Hyperactivity diagnostic imaging, Auditory Perception physiology, Brain diagnostic imaging, Motion Pictures, Visual Perception physiology

Abstract

Individuals with attention-deficit/hyperactivity disorder (ADHD) have difficulties navigating dynamic everyday situations that contain multiple sensory inputs that need to either be attended to or ignored. As conventional experimental tasks lack this type of everyday complexity, we administered a film-based multi-talker condition with auditory distractors in the background. ADHD-related aberrant brain responses to this naturalistic stimulus were identified using intersubject correlations (ISCs) in functional magnetic resonance imaging (fMRI) data collected from 51 adults with ADHD and 29 healthy controls. A novel permutation-based approach introducing studentized statistics and subject-wise voxel-level null-distributions revealed that several areas in cerebral attention networks and sensory cortices were desynchronized in participants with ADHD (n = 20) relative to healthy controls (n = 20). Specifically, desynchronization of the posterior parietal cortex occurred when irrelevant speech or music was presented in the background, but not when irrelevant white noise was presented, or when there were no distractors. We also show regionally distinct ISC signatures for inattention and impulsivity. Finally, post-scan recall of the film contents was associated with stronger ISCs in the default-mode network for the ADHD and in the dorsal attention network for healthy controls. The present study shows that ISCs can further our understanding of how a complex environment influences brain states in ADHD., (Copyright © 2019 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2020

2. Working memory updating training modulates a cascade of event-related potentials depending on task load.

Author

Salmi J, Vilà-Balló A, Soveri A, Rostan C, Rodríguez-Fornells A, Lehtonen M, and Laine M

Subjects

Adolescent, Adult, Female, Humans, Male, Task Performance and Analysis, Young Adult, Brain physiology, Evoked Potentials physiology, Learning physiology, Memory, Short-Term physiology, Reaction Time physiology

Abstract

The brain mechanisms of working memory (WM) training in humans remain unclear. Here we examined how WM updating training modulates a cascade of event-related potentials (ERPs) elicited at different processing stages. We hypothesized that WM updating training results to decreases in the early responses reflecting stimulus selection and response preparation, and increases the late slow responses reflecting maintenance of to-be-remembered materials. Healthy adults were randomized to a WM updating group that trained an adaptive dual n-back task (n = 20), and an active control group that played a computer game (n = 20). Both groups performed three 25-min training sessions per week for five weeks. Pretest-posttest comparisons showed that the training group significantly improved their performance as compared to the active controls, but this was limited to the trained task. In line with our hypothesis, P2-N2-P3 complex showed changes from pre- to posttest. In the training group this was observed as decreased load-effect while in the control group there was an opposite pattern at some latencies. Slow waves elicited during the maintenance were decreased in the easy task and increased in the difficult task. Taken together, our findings suggest that the early and late ERPs are differentially affected by training. When task demands are high, training may lead to an improved ability to actively maintain several stimuli in memory, and when they are low, training results in more efficient processing and automatization., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published

2019

3. Working memory training mostly engages general-purpose large-scale networks for learning.

Author

Salmi J, Nyberg L, and Laine M

Subjects

Animals, Executive Function physiology, Humans, Magnetic Resonance Imaging, Neural Pathways diagnostic imaging, Neural Pathways physiology, Neuronal Plasticity physiology, Practice, Psychological, Brain diagnostic imaging, Brain physiology, Memory, Short-Term physiology

Abstract

The present meta-analytic study examined brain activation changes following working memory (WM) training, a form of cognitive training that has attracted considerable interest. Comparisons with perceptual-motor (PM) learning revealed that WM training engages domain-general large-scale networks for learning encompassing the dorsal attention and salience networks, sensory areas, and striatum. Also the dynamics of the training-induced brain activation changes within these networks showed a high overlap between WM and PM training. The distinguishing feature for WM training was the consistent modulation of the dorso- and ventrolateral prefrontal cortex (DLPFC/VLPFC) activity. The strongest candidate for mediating transfer to similar untrained WM tasks was the frontostriatal system, showing higher striatal and VLPFC activations, and lower DLPFC activations after training. Modulation of transfer-related areas occurred mostly with longer training periods. Overall, our findings place WM training effects into a general perception-action cycle, where some modulations may depend on the specific cognitive demands of a training task., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2018

4. High-definition tDCS of the temporo-parietal cortex enhances access to newly learned words.

Author

Perceval G, Martin AK, Copland DA, Laine M, and Meinzer M

Subjects

Adult, Double-Blind Method, Female, Functional Laterality, Humans, Male, Young Adult, Brain physiology, Parietal Lobe physiology, Transcranial Direct Current Stimulation methods, Verbal Learning physiology

Abstract

Learning associations between words and their referents is crucial for language learning in the developing and adult brain and for language re-learning after neurological injury. Non-invasive transcranial direct current stimulation (tDCS) to the posterior temporo-parietal cortex has been suggested to enhance this process. However, previous studies employed standard tDCS set-ups that induce diffuse current flow in the brain, preventing the attribution of stimulation effects to the target region. This study employed high-definition tDCS (HD-tDCS) that allowed the current flow to be constrained to the temporo-parietal cortex, to clarify its role in novel word learning. In a sham-controlled, double-blind, between-subjects design, 50 healthy adults learned associations between legal non-words and unfamiliar object pictures. Participants were stratified by baseline learning ability on a short version of the learning paradigm and pairwise randomized to active (20 mins; N = 25) or sham (40 seconds; N = 25) HD-tDCS. Accuracy was comparable during the baseline and experimental phases in both HD-tDCS conditions. However, active HD-tDCS resulted in faster retrieval of correct word-picture pairs. Our findings corroborate the critical role of the temporo-parietal cortex in novel word learning, which has implications for current theories of language acquisition.

Published

2017

5. Cross-situational word learning in aphasia.

Author

Peñaloza C, Mirman D, Cardona P, Juncadella M, Martin N, Laine M, and Rodríguez-Fornells A

Subjects

Adult, Aged, Female, Humans, Linguistics, Male, Middle Aged, Aphasia physiopathology, Brain physiopathology, Cognition physiology, Memory, Short-Term physiology, Verbal Learning physiology

Abstract

Human learners can resolve referential ambiguity and discover the relationships between words and meanings through a cross-situational learning (CSL) strategy. Some people with aphasia (PWA) can learn word-referent pairings under referential uncertainty supported by online feedback. However, it remains unknown whether PWA can learn new words cross-situationally and if such learning ability is supported by statistical learning (SL) mechanisms. The present study examined whether PWA can learn novel word-referent mappings in a CSL task without feedback. We also studied whether CSL is related to SL in PWA and neurologically healthy individuals. We further examined whether aphasia severity, phonological processing and verbal short-term memory (STM) predict CSL in aphasia, and also whether individual differences in verbal STM modulate CSL in healthy older adults. Sixteen people with chronic aphasia underwent a CSL task that involved exposure to a series of individually ambiguous learning trials and a SL task that taps speech segmentation. Their learning ability was compared to 18 older controls and 39 young adults recruited for task validation. CSL in the aphasia group was below the older controls and young adults and took place at a slower rate. Importantly, we found a strong association between SL and CSL performance in all three groups. CSL was modulated by aphasia severity in the aphasia group, and by verbal STM capacity in the older controls. Our findings indicate that some PWA can preserve the ability to learn new word-referent associations cross-situationally. We suggest that both PWA and neurologically intact individuals may rely on SL mechanisms to achieve CSL and that verbal STM also influences CSL. These findings contribute to the ongoing debate on the cognitive mechanisms underlying this learning ability., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2017

6. Brain signatures of early lexical and morphological learning of a new language.

Author

Havas V, Laine M, and Rodríguez Fornells A

Subjects

Adult, Analysis of Variance, Electroencephalography, Evoked Potentials, Generalization, Psychological physiology, Humans, Neuropsychological Tests, Pattern Recognition, Visual physiology, Recognition, Psychology physiology, Time Factors, Young Adult, Brain physiology, Learning physiology, Multilingualism

Abstract

Morphology is an important part of language processing but little is known about how adult second language learners acquire morphological rules. Using a word-picture associative learning task, we have previously shown that a brief exposure to novel words with embedded morphological structure (suffix for natural gender) is enough for language learners to acquire the hidden morphological rule. Here we used this paradigm to study the brain signatures of early morphological learning in a novel language in adults. Behavioural measures indicated successful lexical (word stem) and morphological (gender suffix) learning. A day after the learning phase, event-related brain potentials registered during a recognition memory task revealed enhanced N400 and P600 components for stem and suffix violations, respectively. An additional effect observed with combined suffix and stem violations was an enhancement of an early N2 component, most probably related to conflict-detection processes. Successful morphological learning was also evident in the ERP responses to the subsequent rule-generalization task with new stems, where violation of the morphological rule was associated with an early (250-400ms) and late positivity (750-900ms). Overall, these findings tend to converge with lexical and morphosyntactic violation effects observed in L1 processing, suggesting that even after a short exposure, adult language learners can acquire both novel words and novel morphological rules., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2017

7. Effects of Auditory Attention Training with the Dichotic Listening Task: Behavioural and Neurophysiological Evidence.

Author

Tallus J, Soveri A, Hämäläinen H, Tuomainen J, and Laine M

Subjects

Acoustic Stimulation, Adult, Dichotic Listening Tests, Executive Function physiology, Female, Functional Laterality physiology, Humans, Male, Young Adult, Attention physiology, Auditory Perception physiology, Brain physiology, Evoked Potentials physiology

Abstract

Facilitation of general cognitive capacities such as executive functions through training has stirred considerable research interest during the last decade. Recently we demonstrated that training of auditory attention with forced attention dichotic listening not only facilitated that performance but also generalized to an untrained attentional task. In the present study, 13 participants underwent a 4-week dichotic listening training programme with instructions to report syllables presented to the left ear (FL training group). Another group (n = 13) was trained using the non-forced instruction, asked to report whichever syllable they heard the best (NF training group). The study aimed to replicate our previous behavioural results, and to explore the neurophysiological correlates of training through event-related brain potentials (ERPs). We partially replicated our previous behavioural training effects, as the FL training group tended to show more allocation of auditory spatial attention to the left ear in a standard dichotic listening task. ERP measures showed diminished N1 and enhanced P2 responses to dichotic stimuli after training in both groups, interpreted as improvement in early perceptual processing of the stimuli. Additionally, enhanced anterior N2 amplitudes were found after training, with relatively larger changes in the FL training group in the forced-left condition, suggesting improved top-down control on the trained task. These results show that top-down cognitive training can modulate the left-right allocation of auditory spatial attention, accompanied by a change in an evoked brain potential related to cognitive control.

Published

2015

8. Modulation of brain activity after learning predicts long-term memory for words.

Author

Hultén A, Laaksonen H, Vihla M, Laine M, and Salmelin R

Subjects

Adult, Analysis of Variance, Brain Mapping, Female, Humans, Language Tests, Magnetoencephalography, Male, Vocabulary, Brain physiology, Learning physiology, Memory, Long-Term physiology

Abstract

The acquisition and maintenance of new language information, such as picking up new words, is a critical human ability that is needed throughout the life span. Most likely you learned the word "blog" quite recently as an adult, whereas the word "kipe," which in the 1970s denoted stealing, now seems unfamiliar. Brain mechanisms underlying the long-term maintenance of new words have remained unknown, albeit they could provide important clues to the considerable individual differences in the ability to remember words. After successful training of a set of novel object names we tracked, over a period of 10 months, the maintenance of this new vocabulary in 10 human participants by repeated behavioral tests and magnetoencephalography measurements of overt picture naming. When naming-related activation in the left frontal and temporal cortex was enhanced 1 week after training, compared with the level at the end of training, the individual retained a good command of the new vocabulary at 10 months; vice versa, individuals with reduced activation at 1 week posttraining were less successful in recalling the names at 10 months. This finding suggests an individual neural marker for memory, in the context of language. Learning is not over when the acquisition phase has been successfully completed: neural events during the access to recently established word representations appear to be important for the long-term outcome of learning.

Published

2010

9. Neural dynamics of reading morphologically complex words.

Author

Vartiainen J, Aggujaro S, Lehtonen M, Hultén A, Laine M, and Salmelin R

Subjects

Adult, Female, Humans, Male, Middle Aged, Brain physiology, Brain Mapping, Language, Reading, Task Performance and Analysis

Abstract

Despite considerable research interest, it is still an open issue as to how morphologically complex words such as "car+s" are represented and processed in the brain. We studied the neural correlates of the processing of inflected nouns in the morphologically rich Finnish language. Previous behavioral studies in Finnish have yielded a robust inflectional processing cost, i.e., inflected words are harder to recognize than otherwise matched morphologically simple words. Theoretically this effect could stem either from decomposition of inflected words into a stem and a suffix at input level and/or from subsequent recombination at the semantic-syntactic level to arrive at an interpretation of the word. To shed light on this issue, we used magnetoencephalography to reveal the time course and localization of neural effects of morphological structure and frequency of written words. Ten subjects silently read high- and low-frequency Finnish words in inflected and monomorphemic form. Morphological complexity was accompanied by stronger and longer-lasting activation of the left superior temporal cortex from 200 ms onwards. Earlier effects of morphology were not found, supporting the view that the well-established behavioral processing cost for inflected words stems from the semantic-syntactic level rather than from early decomposition. Since the effect of morphology was detected throughout the range of word frequencies employed, the majority of inflected Finnish words appears to be represented in decomposed form and only very high-frequency inflected words may acquire full-form representations.

Published

2009

10. Accessing newly learned names and meanings in the native language.

Author

Hultén A, Vihla M, Laine M, and Salmelin R

Subjects

Adult, Comprehension physiology, Female, Humans, Language, Magnetoencephalography, Male, Names, Phonetics, Photic Stimulation, Semantics, Statistics as Topic, Brain physiology, Learning physiology, Visual Perception physiology

Abstract

Ten healthy adults encountered pictures of unfamiliar archaic tools and successfully learned either their name, verbal definition of their usage, or both. Neural representation of the newly acquired information was probed with magnetoencephalography in an overt picture-naming task before and after learning, and in two categorization tasks after learning. Within 400 ms, activation proceeded from occipital through parietal to left temporal cortex, inferior frontal cortex (naming) and right temporal cortex (categorization). Comparison of naming of newly learned versus familiar pictures indicated that acquisition and maintenance of word forms are supported by the same neural network. Explicit access to newly learned phonology when such information was known strongly enhanced left temporal activation. By contrast, access to newly learned semantics had no comparable, direct neural effects. Both the behavioral learning pattern and neurophysiological results point to fundamentally different implementation of and access to phonological versus semantic features in processing pictured objects.

Published

2009

11. Modality matters: the effects of stimulus modality on the 4- to 30-Hz brain electric oscillations during a lexical decision task.

Author

Krause CM, Grönholm P, Leinonen A, Laine M, Säkkinen AL, and Söderholm C

Subjects

Acoustic Stimulation methods, Adult, Analysis of Variance, Brain Mapping, Female, Functional Laterality physiology, Humans, Male, Spectrum Analysis, Brain physiology, Cortical Synchronization, Decision Making physiology, Language, Mental Processes physiology

Abstract

The aim of the current study was to assess modality-specific brain oscillatory responses during cognitive processing. Brain oscillatory ERD/ERS responses of the 4- to 30-Hz EEG frequency bands were examined during lexical decision where the task is to identify whether the presented stimulus is a word or a pseudoword. Seven subjects performed the task with visual stimuli and twelve subjects with auditory stimuli. Visual stimuli elicited greater theta ERS responses as compared to the auditory stimuli. Both stimulus modalities elicited alpha and beta frequency ERD, these being greater for the auditory stimuli. Auditory stimuli elicited also later emerging beta ERS responses, absent for the visual stimuli. The lexicality effects (words vs. pseudowords) were greater for the auditory than for the visual stimuli. When studying brain oscillatory correlates of cognitive processing, the stimulus modality matters. Some effects may arise and some vanish depending on in which modality a cognitive experiment is being conducted.

Published

2006

12. Neural correlates of morphological decomposition in a morphologically rich language: an fMRI study.

Author

Lehtonen M, Vorobyev VA, Hugdahl K, Tuokkola T, and Laine M

Subjects

Adult, Brain Mapping, Comprehension physiology, Female, Humans, Male, Brain physiology, Magnetic Resonance Imaging methods, Psycholinguistics, Speech Perception physiology

Abstract

By employing visual lexical decision and functional MRI, we studied the neural correlates of morphological decomposition in a highly inflected language (Finnish) where most inflected noun forms elicit a consistent processing cost during word recognition. This behavioral effect could reflect suffix stripping at the visual word form level and/or subsequent meaning integration at the semantic-syntactic level. The first alternative predicts increased activation for inflected vs. monomorphemic words in the left occipitotemporal cortex while the second alternative predicts left inferior frontal gyrus and/or left posterior temporal activation increases. The results show significant activation effects in the latter areas. This provides support for the second alternative, i.e., that the morphological processing cost stems from the semantic-syntactic level.

Published

2006

13. Mobile phone effects on children's event-related oscillatory EEG during an auditory memory task.

Author

Krause CM, Björnberg CH, Pesonen M, Hulten A, Liesivuori T, Koivisto M, Revonsuo A, Laine M, and Hämäläinen H

Subjects

Adolescent, Brain pathology, Cortical Synchronization radiation effects, Evoked Potentials, Auditory physiology, Humans, Memory Disorders etiology, Memory Disorders physiopathology, Brain radiation effects, Cell Phone, Cognition radiation effects, Electroencephalography adverse effects, Electromagnetic Fields adverse effects, Evoked Potentials, Auditory radiation effects, Memory radiation effects

Abstract

Purpose: To assess the effects of electromagnetic fields (EMF) emitted by mobile phones (MP) on the 1 - 20 Hz event-related brain oscillatory EEG (electroencephalogram) responses in children performing an auditory memory task (encoding and recognition)., Materials and Methods: EEG data were gathered while 15 subjects (age 10 - 14 years) performed an auditory memory task both with and without exposure to a digital 902 MHz MP in counterbalanced order., Results: During memory encoding, the active MP modulated the event-related desynchronization/synchronization (ERD/ERS) responses in the approximately 4 - 8 Hz EEG frequencies. During recognition, the active MP transformed these brain oscillatory responses in the approximately 4 - 8 Hz and approximately 15 Hz frequencies., Conclusions: The current findings suggest that EMF emitted by mobile phones has effects on brain oscillatory responses during cognitive processing in children.

Published

2006

14. Naming of newly learned objects: a PET activation study.

Author

Grönholm P, Rinne JO, Vorobyev V, and Laine M

Subjects

Aged, Analysis of Variance, Brain diagnostic imaging, Brain Mapping, Computer Simulation, Female, Humans, Male, Middle Aged, Names, Neuropsychological Tests, Positron-Emission Tomography, Semantics, Brain physiology, Learning physiology, Recognition, Psychology physiology, Verbal Behavior physiology

Abstract

The present study tracked the naming-related brain activity by positron emission tomography (PET) when successfully learned unfamiliar objects were named. Ten Finnish-speaking subjects participated in the study. Prior to the PET scan, each subject underwent a 4-day long training period in which 40 names of rare unfamiliar objects were taught. The stimulus categories were as follows: unfamiliar but real objects for which both the name and the definition were given during training, only the name was given, no information was given. In addition, familiar objects and visual noise patterns were used. The unfamiliar items mainly represented ancient domestic tools unknown to modern-day people. As semantic support did not affect the PET results, all trained items were pooled together. The trained objects vs. familiar objects contrast revealed rCBF increases in the left inferior frontal cortex (Broca's area), the left anterior temporal area, and the cerebellum. Likewise, the trained objects vs. unfamiliar objects (for which no information was given) contrast revealed more extensive left frontal (roughly Broca's area) and cerebellar rCBF increases, while anterior temporal activation was bilateral. Familiar objects, contrasted with both visual noise patterns and a rest condition, elicited activation increases in expected areas, i.e., bilateral occipital regions and the fusiform gyrus. Our results indicate that the naming of newly learned objects recruits more extensive brain areas than the naming of familiar items, namely a network that includes left-dominant frontotemporal areas and cerebellum. Its activity is tentatively related to enhanced lexical-semantic and lexical-phonological retrieval, as well as associative memory processes.

Published

2005

15. Brain correlates of sentence translation in Finnish-Norwegian bilinguals.

Author

Lehtonen MH, Laine M, Niemi J, Thomsen T, Vorobyev VA, and Hugdahl K

Subjects

Adult, Basal Ganglia physiology, Brain Mapping, Cerebellum physiology, Female, Finland, Functional Laterality physiology, Humans, Language, Male, Motor Cortex physiology, Norway, Prefrontal Cortex physiology, Reading, Temporal Lobe physiology, Brain physiology, Magnetic Resonance Imaging, Multilingualism, Semantics, Translations

Abstract

We measured brain activation with functional magnetic resonance imaging (fMRI) while Finnish-Norwegian bilinguals silently translated sentences from Finnish into Norwegian and decided whether a later presented probe sentence was a correct translation of the original sentence. The control task included silent sentence reading and probe sentence decision within a single language, Finnish. The translation minus control task contrast activated the left inferior frontal gyrus (Brodmann's area 47) and the left basal ganglia. The left inferior frontal activation appears to be related to active semantic retrieval and the basal ganglia activation to a general action control function that works by suppressing competing responses.

Published

2005

16. Adult brain plasticity elicited by anomia treatment.

Author

Cornelissen K, Laine M, Tarkiainen A, Järvensivu T, Martin N, and Salmelin R

Subjects

Humans, Magnetoencephalography, Male, Middle Aged, Aphasia physiopathology, Brain physiopathology, Language, Learning, Neuronal Plasticity, Vocabulary

Abstract

We describe a study where a specific treatment method for word-finding difficulty (so-called contextual priming technique, which combines massive repetition priming with semantic priming) was applied with three chronic left hemisphere-damaged aphasics. Both before and after treatment, which focused on naming of a series of pictures, naming-related brain activity was measured by magnetoencephalography (MEG). Due to its excellent temporal resolution and good spatial resolution, we were able to track treatment-induced changes in cortical activity. All three subjects showed improved naming of the trained items. In all subjects, a single source area, located in the left inferior parietal lobe, close to the lesioned area, displayed statistically significant training-induced changes. This effect was of long latency as it started 300-600 msec after picture presentation. The change in activation was specific to training, as it could not be accounted for by variation of cortical dynamics associated with increased proportion of correct answers. Our interpretation is that the training effect reflects more effective phonological encoding and storage of the trained items through the engagement of a left hemispheric word-learning system. This is in line with recent functional imaging studies, which have linked left inferior parietal lobe activity to the phonological storage component of the verbal working memory, as well as with theoretical arguments stating that the primary role of the phonological loop is to acquire new words. Finally, the MEG results showed no evidence of increased right hemisphere participation following training, supporting the view that restoration of language-related networks in the damaged left hemisphere is crucial for anomia recovery.

Published

2003

17. Regional cerebral glucose metabolism in monozygotic twins discordant for Alzheimer's disease.

Author

Järvenpää T, Räihä I, Kaprio J, Koskenvuo M, Laine M, Kurki T, Vahlberg T, Viljanen T, Ahonen K, and Rinne JO

Subjects

Aged, Alzheimer Disease diagnostic imaging, Alzheimer Disease genetics, Brain diagnostic imaging, Case-Control Studies, Female, Fluorodeoxyglucose F18, Hippocampus diagnostic imaging, Hippocampus metabolism, Humans, Neuropsychological Tests, Radiopharmaceuticals, Temporal Lobe diagnostic imaging, Temporal Lobe metabolism, Tomography, Emission-Computed, Twins, Monozygotic, Alzheimer Disease metabolism, Brain metabolism, Diseases in Twins, Glucose metabolism

Abstract

We investigated regional cerebral glucose metabolic rates (rCMRgluc) with positron emission tomography using 2-[18F]fluoro-2-deoxy-D-glucose (FDG) in 7 monozygotic twin pairs discordant for Alzheimer's disease (AD). Ten healthy volunteers with comparable mean age and educational level served as controls. In the hippocampus, the mean +/- SD rCMRgluc were 0.20 +/- 0.03 micromol/ml/min for the demented twins, 0.21 +/- 0.03 micromol/ml/min for their non-demented co-twins, and 0.23 +/- 0.02 micromol/ml/min for the controls. The mean hippocampal rCMRgluc was reduced in the demented twins (p = 0.006), compared with the controls. In the lateral temporal cortex, the mean +/- SD rCMRgluc were 0.27 +/- 0.05, 0.28 +/- 0.04, and 0.32 +/- 0.02 micromol/ml/min, respectively. These mean rates were reduced both in the demented (p = 0.02) and the non-demented (p = 0.01) twins, compared with the controls. In conclusion, in the demented twins, the reduction of rCMRgluc was detected in the hippocampus and lateral temporal cortex, i.e. the 2 brain areas which show early changes in pathological and imaging studies in AD. Their non-demented co-twins showed milder reductions, which may be an indication of genetic susceptibility for dementia, and an early sign of a dementing illness in them., (Copyright 2003 S. Karger AG, Basel)

Published

2003

18. Different brain activation patterns during production of animals versus artefacts: a PET activation study on category-specific processing.

Author

Laine M, Rinne JO, Hiltunen J, Kaasinen V, and Sipilä H

Subjects

Adult, Brain Mapping, Frontal Lobe diagnostic imaging, Frontal Lobe physiology, Humans, Male, Parietal Lobe diagnostic imaging, Parietal Lobe physiology, Reading, Semantics, Temporal Lobe diagnostic imaging, Temporal Lobe physiology, Brain diagnostic imaging, Brain physiology, Tomography, Emission-Computed

Abstract

To study neural correlates of category-specific processing, we measured relative cerebral blood flow changes by PET (oxygen-15) in young healthy subjects while they produced exemplars of animals or artefacts to written subcategory prompts. In comparison to a baseline (word reading), production of animal names elicited increased rCBF in the right inferior temporal region. This fits to recent lesion data on semantic impairment with animals, as well as imaging data on object recognition and semantic retrieval. In our study, it may represent an involvement of visual imagery in generation of animal names. In contrast, production of artefact names elicited increased rCBF in frontoparietal regions previously related to attention and mental effort.

Published

2002

19. Sung melody enhances verbal learning and recall after stroke

Author

Leo, Vera, Sihvonen, Aleksi J., Linnavalli, Tanja, Tervaniemi, Mari, Laine, Matti, Soinila, Seppo, Särkämö, Teppo, Medicum, Department of Psychology and Logopedics, Cognitive Brain Research Unit, Department of Education, CICERO Learning, Neurologian yksikkö, Teija Kujala Research Group, HUS Neurocenter, Brain, Music and Learning, Music, Ageing and Rehabilitation Team, and Diversity, multilingualism and social justice in education

Subjects

CONGENITAL AMUSIA, 515 Psychology, speech, LANGUAGE FUNCTION, stroke, aphasia, MUSIC, TEXT, ALZHEIMERS-DISEASE, SONGS, LONG-TERM-MEMORY, ACQUIRED AMUSIA, ISCHEMIC-STROKE, verbal learning, song, 516 Educational sciences, BRAIN

Abstract

Coupling novel verbal material with a musical melody can potentially aid in its learning and recall in healthy subjects, but this has never been systematically studied in stroke patients with cognitive deficits. In a counterbalanced design, we presented novel verbal material (short narrative stories) in both spoken and sung formats to stroke patients at the acute poststroke stage and 6 months poststroke. The task comprised three learning trials and a delayed recall trial. Memory performance on the spoken and sung tasks did not differ at the acute stage, whereas sung stories were learned and recalled significantly better compared with spoken stories at the 6 months poststroke stage. Interestingly, this pattern of results was evident especially in patients with mild aphasia, in whom the learning of sung versus spoken stories improved more from the acute to the 6-month stages compared with nonaphasic patients. Overall, these findings suggest that singing could be used as a mnemonic aid in the learning of novel verbal material in later stages of recovery after stroke.

Published

2018

20. Regional gray matter correlates of memory for emotion-laden words in middle-aged and older adults: A voxel-based morphometry study.

Author

Saarela, Carina, Joutsa, Juho, Laine, Matti, Parkkola, Riitta, Rinne, Juha O., and Karrasch, Mira

Subjects

VOXEL-based morphometry, CEREBELLUM abnormalities, GRAY matter (Nerve tissue), CENTRAL nervous system, CEREBELLUM diseases

Abstract

Emotional content is known to enhance memory in a content-dependent manner in healthy populations. In middle-aged and older adults, a reduced preference for negative material, or even an enhanced preference for positive material has been observed. This preference seems to be modulated by the emotional arousal that the material evokes. The neuroanatomical basis for emotional memory processes is, however, not well understood in middle-aged and older healthy people. Previous research on local gray matter correlates of emotional memory in older populations has mainly been conducted with patients suffering from various neurodegenerative diseases. To our knowledge, this is the first study to examine regional gray matter correlates of immediate free recall and recognition memory of intentionally encoded positive, negative, and emotionally neutral words using voxel-based morphometry (VBM) in a sample of 50-to-79-year-old cognitively intact normal adults. The behavioral analyses yielded a positivity bias in recognition memory, but not in immediate free recall. No associations with memory performance emerged from the region-of-interest (ROI) analyses using amygdalar and hippocampal volumes. Controlling for total intracranial volume, age, and gender, the whole-brain VBM analyses showed statistically significant associations between immediate free recall of negative words and volumes in various frontal regions, between immediate free recall of positive words and cerebellar volume, and between recognition memory of positive words and primary visual cortex volume. The findings indicate that the neural areas subserving memory for emotion-laden information encompass posterior brain areas, including the cerebellum, and that memory for emotion-laden information may be driven by cognitive control functions. [ABSTRACT FROM AUTHOR]

Published

2017

21. Cognitive neuropsychology has been, is, and will be significant to aphasiology.

Author

Laine, Matti and Martin, Nadine

Subjects

*APHASIA, *BRAIN, *COGNITION, *CASE studies, *NEUROPSYCHOLOGY, *PHONETICS, *SEMANTICS, *PHONOLOGICAL awareness, *REHABILITATION of aphasic persons, *PSYCHOLOGY

Abstract

Background: In recent years some critical voices have been raised in regard to the significance of cognitive neuropsychology (CNP) to the study of brain and mind. Given the central role of language disorders in CNP research, it is time to consider the relevance of this research approach in aphasiology. Aims: We analyse the main points of criticism raised against the CNP research approach, evaluate the significance of this approach to the study of acquired language disorders, and make some suggestions concerning further development of the field. Main Contribution: The main points of criticism against CNP (reliance on single-case studies; single-minded hunt for dissociations; emptiness of theorising) have been important long-term concerns but do not take into account the fact that, during its history of circa four decades, the CNP approach has diversified. There are thus CNP studies that rely on case series analyses, focus on error analyses rather than mere dissociations, or employ computational modelling rather than the “boxes-and-arrows” models of the mental architecture. The CNP approach to cognition and its disorders is thus applicable to different research questions and theoretical stances, providing experimental rigour to single-case patient studies. With regard to clinical applications in aphasia diagnostics and treatment, the CNP approach provides a richer view on the strengths and weaknesses of a patient's cognitive-linguistic abilities. Conclusions: We believe that CNP case studies continue to be an important source of information for generating hypotheses and providing converging evidence for research on the mind and on the brain. However, there is a need for further research development especially in computational modelling of language processes, their impairments, and recovery. This research is expected to provide further benefit to clinical diagnostics and treatment of aphasia. [ABSTRACT FROM AUTHOR]

Published

2012

22. The role of cognitive neuropsychology in aphasiology: A response to the commentaries.

Author

Laine, Matti and Martin, Nadine

Subjects

*APHASIA, *BRAIN, *COGNITION, *CASE studies, *NEUROPSYCHOLOGY, *REHABILITATION of aphasic persons, *PSYCHOLOGY

Abstract

A response by the authors of the article "Cognitive neuropsychology has been, is, and will be significant to aphasiology," is presented.

Published

2012

23. GSM mobile phone radiation suppresses brain glucose metabolism.

Author

Kwon, Myoung Soo, Vorobyev, Victor, Kännälä, Sami, Laine, Matti, Rinne, Juha O, Toivonen, Tommi, Johansson, Jarkko, Teräs, Mika, Lindholm, Harri, Alanko, Tommi, and Hämäläinen, Heikki

Subjects

GSM communications, CELL phones, PHYSIOLOGICAL effects of radiation, BRAIN, GLUCOSE, ENERGY metabolism, ELECTROMAGNETIC fields, POSITRON emission tomography, RADIO frequency, TEMPORAL lobe, CEREBRAL hemispheres

Abstract

We investigated the effects of mobile phone radiation on cerebral glucose metabolism using high-resolution positron emission tomography (PET) with the 18F-deoxyglucose (FDG) tracer. A long half-life (109 minutes) of the 18F isotope allowed a long, natural exposure condition outside the PET scanner. Thirteen young right-handed male subjects were exposed to a pulse-modulated 902.4 MHz Global System for Mobile Communications signal for 33 minutes, while performing a simple visual vigilance task. Temperature was also measured in the head region (forehead, eyes, cheeks, ear canals) during exposure. 18F-deoxyglucose PET images acquired after the exposure showed that relative cerebral metabolic rate of glucose was significantly reduced in the temporoparietal junction and anterior temporal lobe of the right hemisphere ipsilateral to the exposure. Temperature rise was also observed on the exposed side of the head, but the magnitude was very small. The exposure did not affect task performance (reaction time, error rate). Our results show that short-term mobile phone exposure can locally suppress brain energy metabolism in humans. [ABSTRACT FROM AUTHOR]

Published

2011

24. Cortical dynamics of visual/semantic vs. phonological analysis in picture confrontation

Author

Vihla, Minna, Laine, Matti, and Salmelin, Riitta

Subjects

*BRAIN, *MAGNETIC resonance imaging, *CENTRAL nervous system, *MEDICAL imaging systems

Abstract

Abstract: Picture naming covers the main stages of word production from concept retrieval to articulation. Cortical correlates of picture naming have been characterized with both haemodynamic and neurophysiological methods but the association of specific activation patterns with the hypothesized processing stages remains elusive. Here we used categorization tasks to selectively highlight different components of picture confrontation, from visual analysis (VIS) to semantic (SEM) and phonological access (PHON), and compared these time courses of activation with that obtained during picture naming (NAM). Brain activity was recorded with whole-head magnetoencephalography (MEG). Following the initially similar activation patterns in occipital and parietal areas, task effects (stronger activation in NAM/PHON than in SEM/VIS) emerged after 300 ms, in the sustained activation of the left posterior temporal and bilateral inferior frontal cortex, apparently reflecting enhancement of phonological and phonetic/articulatory processing. [Copyright &y& Elsevier]

Published

2006

25. Should we play mind games or brain games in cognitive neuropsychology? A reply to Pulvermüller.

Author

Laine, Matti and Martin, Nadine

Subjects

*APHASIA, *BRAIN, *COGNITION, *NEUROPSYCHOLOGY, *PHONOLOGICAL awareness, *REHABILITATION of aphasic persons, *PSYCHOLOGY

Abstract

The authors respond on several commentaries by Friedemann Pulvermüller on their paper "Cognitive neuropsychology has been, is, and will be significant to aphasiology." Pulvermüller opines that cognitive neuropsychology (CNP) should be relevant to cognitive neuroscience only if it includes neurobiological orientation at the theoretical level. However, the authors note that CNP remains relevant and can be applied to the treatment of language disorders.

Published

2012

26. Electrophysiological correlates of memory processing in early Finnish–Swedish bilinguals

Author

Leinonen, Alina, Laine, Mari, Laine, Matti, and Krause, Christina M.

Subjects

*MEMORY, *OSCILLATIONS, *BRAIN, *LANGUAGE & languages

Abstract

Abstract: Event-related desynchronization (ERD) and event-related synchronization (ERS) of the 1–30 EEG frequencies were studied in eight early Finnish–Swedish bilinguals during an auditory bilingual Sternberg memory task using Finnish–Swedish cognates as stimuli. Only subtle differences between languages were expected, since cognates have been assumed to have shared conceptual representations in the bilingual memory. Encoding elicited theta and alpha frequency ERS and beta frequency ERD responses in both languages. Retrieval elicited theta ERS and alpha and beta ERD responses. Some statistically significant differences between encoding and retrieval in Finnish versus Swedish emerged: greater theta and alpha ERS responses were observed during encoding in Swedish than during encoding in Finnish. During between-language retrieval, later-appearing theta ERS and alpha ERD responses were elicited as compared to within-language retrieval. These delayed oscillatory responses might reflect the involvement of central executive attentional functions in relation to language switching. [Copyright &y& Elsevier]

Published

2007

27. Naming actions and objects: cortical dynamics in healthy adults and in an anomic patient with a dissociation in action/object naming

Author

Sörös, Peter, Cornelissen, Katri, Laine, Matti, and Salmelin, Riitta

Subjects

*BRAIN, *NOUNS, *VERBS, *MAGNETOENCEPHALOGRAPHY

Abstract

Neuropsychological studies have demonstrated that the production of nouns and verbs can be dissociated in aphasia. These reports have been taken as evidence for separate representations of nouns and verbs in the human brain. We used whole-head magnetoencephalography to record cortical dynamics of action and object naming in 10 healthy adults and in 1 anomic patient with superior naming of verbs compared with nouns due to a left posterior parietal lesion. A single set of 100 line drawings was used for both action and object naming. In normal subjects, the activation sequences in action and object naming were essentially identical, advancing from the occipital to posterior temporoparietal and further to the left frontal cortex, without consistent involvement of the classical left inferior frontal (Broca) and temporal (Wernicke) language areas. In the anomic patient, pronounced differences between action and object naming emerged in the left hemisphere. The activation sequence was disrupted at the level of the damaged parietal cortex and did not reach the left frontal cortex even in the relatively easier action naming. The more severely impaired object naming was associated with exceptionally strong and early activation of the left inferior frontal cortex (Broca) and subsequent pronounced activation of the left middle temporal cortex, silent in action naming. Verb and noun retrieval thus utilized a spatiotemporally similar neuronal network in healthy individuals. A clear dissociation in cortical correlates of verb and noun retrieval only became evident in our anomic patient, in whom damage to the language network has resulted in disproportionately worse performance in object than action naming. [Copyright &y& Elsevier]

Published

2003