Mobiili ekosysteemi kuluttajan kumppanina

Työn tarkoitus oli perehtyä mobiilin ekosysteemin tarkoitukseen ja siihen liittyen käydä läpi mobiiliteollisuuden historiallisia tapahtumia ymmärtäen, kuinka tämän päivän ekosysteemi-kokonaisuudet ovat muodostuneet. Työssä käytiin läpi suurimmat mobiilialustat ja niiden taustalla vallitsevat ekosysteemit. Läpikäynnin yhteydessä selvitettiin syitä mobiilialustojen ja ekosysteemien menestykseen ja niihin vaikuttaviin tekijöihin. Työ sisälsi paljon selvitystyötä, jonka myötä on ollut helpompi ymmärtää syitä alalla tapahtuneille muutoksille. Työn aikana tehtiin myös käytännönläheinen tapaustutkimus eri valmistajien ekosysteemiin kuuluvilla mobiilialustoilla käyttäen niihin kuuluvaa laitteistoa. Tutkimus osoitti muun muassa sen, että kuluttajat voivat tehdä asioita myös useamman ekosysteemin välillä. Osana työtä tutkittiin myös mobiiliekosysteemin vaihtamisen käytännön haasteita ja kysymyksiä. Aihetta käsiteltäessä tuli ilmi mobiiliekosysteemin vaihtamisen voivan osoittautua varsin haastavaksi, ja on useita seikkoja joita kuluttajan tulisi miettiä tällaisessa tilanteessa. Työn loppupuolella pohdittiin lyhyesti mobiiliteknologian ja mobiiliekosysteemien lähitulevaisuuden mukana tuomia mahdollisuuksia ja ymmärrettiin se valtava alalla olevan potentiaalin määrä.The purpose of the final year project was to get familiar with the mobile ecosystem and go through the history of mobile industry to have a better understanding of how the current modern ecosystem solutions have been born. The thesis discusses the biggest modern mobile platforms and their underlying ecosystems. During the project the reasons for the success of certain mobile platforms and ecosystems were investigated. The project included a lot of research work and it has greatly helped to understand the reasons for certain changes that have taken place within the industry. A practical case study was also conducted as part of the project using devices from different mobile platforms and ecosystems. Among other things, the case study showed that it is possible for consumers to do various things using multiple ecosystems. The challenges and questions of changing from a mobile ecosystem to a completely another mobile ecosystem were also investigated as part of the project. As a result of the investigations it was shown that the change process could prove to be quite challenging and there are several things that a customer should think about in this kind of situation. Subsequently, this thesis also briefly discusses the near future possibilities of mobile technology and mobile ecosystems. The project showed how huge potential there is within the market

Brain activity reflects the predictability of word sequences in listened continuous speech

Natural speech builds on contextual relations that can prompt predictions of upcoming utterances. To study the neural underpinnings of such predictive processing we asked 10 healthy adults to listen to a 1-h-long audiobook while their magnetoencephalographic (MEG) brain activity was recorded. We correlated the MEG signals with acoustic speech envelope, as well as with estimates of Bayesian word probability with and without the contextual word sequence (N-gram and Unigram, respectively), with a focus on time-lags. The MEG signals of auditory and sensorimotor cortices were strongly coupled to the speech envelope at the rates of syllables (4-8 Hz) and of prosody and intonation (0.5-2 Hz). The probability structure of word sequences, independently of the acoustical features, affected thePeer reviewe

Favorable long-term health-related quality of life after surgery for lumbar disc herniation in young adult patients

BackgroundLumbar disc herniation is often managed conservatively; nevertheless, surgical intervention can be required. Majority of patients experience a drastic relief of symptoms after surgery, but previous studies have reported that their health-related quality of life remains inferior compared to the general population for several years. There may be a major cumulative loss of health-related quality of life for young patients as they have long expected life ahead of them.MethodsA total of 526 eligible adult patients under the age of 40 underwent surgery for lumbar disc herniation from 1990 to 2005. Patients' baseline characteristics were acquired by chart review to confirm eligibility to the study. Follow-up quality of life data was acquired by sending patients EQ-5D questionnaire at median 18 years after index surgery, and those 316 patients responding to the questionnaire (60%) were included in the study. Propensity score matching was utilized to match every study patient with two general population sample participants from a large Finnish population health study. Primary objective was to compare the quality of life to that of the control population. Secondary objective was to explore which patient characteristics lead to inferior outcome.ResultsThe mean EQ-index for the patient cohort was 0.86, while it was 0.84 for the age and gender-matched general population sample (difference 0.02, 95% CI - 0.0004 to 0.049). Within the patient cohort, an increasing number of lifetime lumbar surgeries was associated with progressively deteriorating EQ-index scores (p = 0.049) and longer duration of symptoms prior to the surgery correlated with lower score (p = 0.013).ConclusionPatients who underwent surgery for lumbar disc herniation nearly two decades ago reported quality of life comparable to the age and gender-matched general population. However, patients who had undergone numerous lumbar surgeries had significantly worse outcome. Therefore, possible ways to prevent cumulation of lumbar surgeries could improve long-term health-related quality of life.Peer reviewe

Abnormal Brain Responses to Action Observation in Complex Regional Pain Syndrome

Patients with complex regional pain syndrome (CRPS) display various abnormalities in central motor function, and their pain is intensified when they perform or just observe motor actions. In this study, we examined the abnormalities of brain responses to action observation in CRPS. We analyzed 3-T functional magnetic resonance images from 13 upper limb CRPS patients (all female, ages 31-58 years) and 13 healthy, age- and sex-matched control subjects. The functional magnetic resonance imaging data were acquired while the subjects viewed brief videos of hand actions shown in the first-person perspective. A pattern-classification analysis was applied to characterize brain areas where the activation pattern differed between CRPS patients and healthy subjects. Brain areas with statistically significant group differences (q <.05, false discovery rate-corrected) included the hand representation area in the sensorimotor cortex, inferior frontal gyrus, secondary somatosensory cortex, inferior parietal lobule, orbitofrontal cortex, and thalamus. Our findings indicate that CRPS impairs action observation by affecting brain areas related to pain processing and motor control. Perspective: This article shows that in CRPS, the observation of others' motor actions induces abnormal neural activity in brain areas essential for sensorimotor functions and pain. These results build the cerebral basis for action-observation impairments in CRPS. (C) 2016 by the American Pain SocietyPeer reviewe

Consistency and similarity of MEG- and fMRI-signal time courses during movie viewing

Movie viewing allows human perception and cognition to be studied in complex, real-life-like situations in a brain-imaging laboratory. Previous studies with functional magnetic resonance imaging (fMRI) and with magneto-and electroencephalography (MEG and EEG) have demonstrated consistent temporal dynamics of brain activity across movie viewers. However, little is known about the similarities and differences of fMRI and MEG or EEG dynamics during such naturalistic situations. We thus compared MEG and fMRI responses to the same 15-min black-and-white movie in the same eight subjects who watched the movie twice during both MEG and fMRI recordings. We analyzed intra-and intersubject voxel-wise correlations within each imaging modality as well as the correlation of the MEG envelopes and fMRI signals. The fMRI signals showed voxel-wise within-and between-subjects correlations up to r = 0.66 and r = 0.37, respectively, whereas these correlations were clearly weaker for the envelopes of band-pass filtered (7 frequency bands below 100 Hz) MEG signals (within-subjects correlation r <0.14 and between-subjects r <0.05). Direct MEG-fMRI voxel-wise correlations were unreliable. Notably, applying a spatial-filtering approach to the MEG data uncovered consistent canonical variates that showed considerably stronger (up to r = 0.25) between-subjects correlations than the univariate voxel-wise analysis. Furthermore, the envelopes of the time courses of these variates up to about 10 Hz showed association with fMRI signals in a general linear model. Similarities between envelopes of MEG canonical variates and fMRI voxel time-courses were seen mostly in occipital, but also in temporal and frontal brain regions, whereas intra-and intersubject correlations for MEG and fMRI separately were strongest only in the occipital areas. In contrast to the conventional univariate analysis, the spatial-filtering approach was able to uncover associations between the MEG envelopes and fMRI time courses, shedding light on the similarities of hemodynamic and electromagnetic brain activities during movie viewing.Peer reviewe

Anaemia and enhancement of coagulation are associated with severe COVID-19 infection

Coagulation disturbances are common in severe COVID-19 infection. We examined laboratory markers in COVID-19 patients during the first wave of the pandemic in Finland. We analysed a wide panel of coagulation tests (IL ACL TOP 750/500) from anonymously collected samples of 78 hospitalized COVID-19 patients in intensive care units (ICUs; n = 34) or medical wards (n = 44) at Helsinki University Hospital in April-May 2020. These coagulation data were supplemented with the laboratory information system results, including complete blood count and C reactive protein (CRP). Coagulation and inflammatory markers were elevated in most: FVIII in 52%, fibrinogen 77%, D-dimer 74%, CRP 94%, platelet count 37%. Anaemia was common, especially in men (73% vs. 44% in women), and overall weakly correlated with FVIII (women R-2 = 0.48, men R-2 = 0.24). ICU patients had higher fibrinogen and D-dimer levels (p < .01). Men admitted to the ICU also had higher platelet count, leukocytes and FVIII and lower haemoglobin than the non-ICU patients. None of the patients met the disseminated intravascular coagulation (DIC) criteria, but 31% had a D-dimer level of at least 1.5 mg/L. Presence of both anaemia and high D-dimer together with FVIII is independently associated with ICU admission. Antithrombin was reduced in 47% of the patients but did not distinguish severity. Overall, CRP was associated with coagulation activation. Elevated FVIII, fibrinogen and D-dimer reflected a strong inflammatory response and were characteristic of hospitalized COVID-19 patients. The patients were often anaemic, as is typical in severe inflammation, while anaemia was also associated with coagulation activity.Peer reviewe

Data-driven comorbidity analysis of 100 common disorders reveals patient subgroups with differing mortality risks and laboratory correlates

The populational heterogeneity of a disease, in part due to comorbidity, poses several complexities. Individual comorbidity profiles, on the other hand, contain useful information to refine phenotyping, prognostication, and risk assessment, and they provide clues to underlying biology. Nevertheless, the spectrum and the implications of the diagnosis profiles remain largely uncharted. Here we mapped comorbidity patterns in 100 common diseases using 4-year retrospective data from 526,779 patients and developed an online tool to visualize the results. Our analysis exposed disease-specific patient subgroups with distinctive diagnosis patterns, survival functions, and laboratory correlates. Computational modeling and real-world data shed light on the structure, variation, and relevance of populational comorbidity patterns, paving the way for improved diagnostics, risk assessment, and individualization of care. Variation in outcomes and biological correlates of a disease emphasizes the importance of evaluating the generalizability of current treatment strategies, as well as considering the limitations that selective inclusion criteria pose on clinical trials.Peer reviewe

Haptic contents of a movie dynamically engage the spectator's sensorimotor cortex

Observation of another person's actions and feelings activates brain areas that support similar functions in the observer, thereby facilitating inferences about the other's mental and bodily states. In real life, events eliciting this kind of vicarious brain activations are intermingled with other complex, ever-changing stimuli in the environment. One practical approach to study the neural underpinnings of real-life vicarious perception is to image brain activity during movie viewing. Here the goal was to find out how observed haptic events in a silent movie would affect the spectator's sensorimotor cortex. The functional state of the sensorimotor cortex was monitored by analyzing, in 16 healthy subjects, magnetoencephalographic (MEG) responses to tactile finger stimuli that were presented once per second throughout the session. Using canonical correlation analysis and spatial filtering, consistent single-trial responses across subjects were uncovered, and their waveform changes throughout the movie were quantified. The long-latency (85-175 ms) parts of the responses were modulated in concordance with the participants' average moment-by-moment ratings of own engagement in the haptic content of the movie (correlation r=0.49; ratings collected after the MEG session). The results, obtained by using novel signal-analysis approaches, demonstrate that the functional state of the human sensorimotor cortex fluctuates in a fine-grained manner even during passive observation of temporally varying haptic events. Hum Brain Mapp 37:4061-4068, 2016. (c) 2016 The Authors Human Brain Mapping Published by Wiley Periodicals, Inc.Peer reviewe

Processing of an Audiobook in the Human Brain Is Shaped by Cultural Family Background

Perception of the same narrative can vary between individuals depending on a listener’s previous experiences. We studied whether and how cultural family background may shape the processing of an audiobook in the human brain. During functional magnetic resonance imaging (fMRI), 48 healthy volunteers from two different cultural family backgrounds listened to an audiobook depicting the intercultural social life of young adults with the respective cultural backgrounds. Shared cultural family background increased inter-subject correlation of hemodynamic activity in the left-hemispheric Heschl’s gyrus, insula, superior temporal gyrus, lingual gyrus and middle temporal gyrus, in the right-hemispheric lateral occipital and posterior cingulate cortices as well as in the bilateral middle temporal gyrus, middle occipital gyrus and precuneus. Thus, cultural family background is reflected in multiple areas of speech processing in the brain and may also modulate visual imagery. After neuroimaging, the participants listened to the narrative again and, after each passage, produced a list of words that had been on their minds when they heard the audiobook during neuroimaging. Cultural family background was reflected as semantic differences in these word lists as quantified by a word2vec-generated semantic model. Our findings may depict enhanced mutual understanding between persons who share similar cultural family backgrounds

Processing of an Audiobook in the Human Brain Is Shaped by Cultural Family Background

Perception of the same narrative can vary between individuals depending on a listener’s previous experiences. We studied whether and how cultural family background may shape the processing of an audiobook in the human brain. During functional magnetic resonance imaging (fMRI), 48 healthy volunteers from two different cultural family backgrounds listened to an audiobook depicting the intercultural social life of young adults with the respective cultural backgrounds. Shared cultural family background increased inter-subject correlation of hemodynamic activity in the left-hemispheric Heschl’s gyrus, insula, superior temporal gyrus, lingual gyrus and middle temporal gyrus, in the right-hemispheric lateral occipital and posterior cingulate cortices as well as in the bilateral middle temporal gyrus, middle occipital gyrus and precuneus. Thus, cultural family background is reflected in multiple areas of speech processing in the brain and may also modulate visual imagery. After neuroimaging, the participants listened to the narrative again and, after each passage, produced a list of words that had been on their minds when they heard the audiobook during neuroimaging. Cultural family background was reflected as semantic differences in these word lists as quantified by a word2vec-generated semantic model. Our findings may depict enhanced mutual understanding between persons who share similar cultural family backgrounds