Background: Australia is currently in the process of deploying a national personally controlled electronic health record (PCEHR). This is being built using a combination of international standards and profiles as well as Australian Standards and with specifications developed by the National eHealth Transition Authority (NeHTA). Objective: There exists a poor appreciation of how the complex construction of the overall system is supported and protected by multiple international standards. These fundamental underpinnings have been sourced from international standards groups such as Health Level Seven (HL7) and Integrating the Health Enterprise (IHE) as well as developed locally. In addition, other services underlie this infrastructure such as secure messaging, the national Health Identification Service and the National Authentication Service for Health (NASH). Methods: An analysis of the national e-health system demonstrates how this model of standards and service integration results in a complex service oriented architecture. Results: The expected benefits from the integrated yet highly dependent nature of the national ehealth system are improved patient outcomes and significant cost savings. These are grounded and balanced by the current and future challenges that include incorporating the PCEHR into clincial workfiows and ensuring relevant, timely, detailed clinical data as well as consistent security policy issues and unquantified security threats. Conclusions: Ultimately, Australia has designed an ambitious yet diverse and integrated architecture. What remains to be seen is if the challenges that the medical software industry and clinical community face in leveraging the political process in order to encourage provider and public participation in ehealth, can be achieved despite the sound underpinnings of international standards.

• MeSH
• informační systémy MeSH
• lékařská informatika * MeSH
• lidé MeSH
• referenční standardy * MeSH
• řízení zdravotnictví MeSH
• záznamy jako téma MeSH
• Check Tag
• lidé MeSH
• Geografické názvy
• Austrálie MeSH

• MeSH
• colliculus inferior fyziologie   MeSH
• metathalamus fyziologie   MeSH
• morčata MeSH
• signální transdukce MeSH
• zvířata MeSH
• zvuk MeSH
• Check Tag
• morčata MeSH
• zvířata MeSH

Při studiu rozpoznání mluvených slov se psycholingvisté zabývají tím, jak se lexikální jednotky ukládají v paměti, a podstatou percepčních procesů, které zajišťují přístup k těmto reprezentacím. „Výčtové modely“ navrhují přímé spojení mezi fonologickou a lexikální formou, zatímco „analyzační modely“ zavádějí komponent pro pre-lexikální morfologickou dekompozici složených slov. Prefigovaná slova a slova s iniciálním kořenem jsou tak v jednom přístupu detekována podobně, v druhém však odlišně. Ve studiu byl použit monitorovací experiment, ve kterém posluchači reagovali na specifikované cílové slovo. Jejich reakční doby byly analyzovány s ohledem na typ cílového slova (kořen / předpona) a typ segmentace materiálu (nosné fráze byly rozčleněny na fragmenty o velikosti slabiky, které v jednom případě zachovávaly hranice morfémů, v druhém nikoli). Čeština jakožto flektivní a prozodicky jedinečný jazyk umožňuje prověřit stupeň univerzálnosti u efektů morfémového typu a prozkoumat roli morfémů při určování slabičných hranic. Výsledky naznačují statisticky významný rozdíl mezi kořenovými a derivačními morfémy (první vykazuje rychlejší reakce), avšak ohledně typu segmentace zůstávají neprůkazné.

In the field of spoken word recognition, psycholinguists investigate the way lexical items are stored in memory and the nature of perceptual processes that allow access to these representations. “Full listing” models propose a direct access to lexical items from the phonological form, while “full parsing” approaches implement a pre-lexical morphological decomposition procedure of complex words. Prefixed words are thus detected similarly to words beginning with a stem morpheme in one model, but differentially in the other. In the study a word-monitoring task was used in which listeners reacted to a specified target word. Their reaction times were analysed with respect to type of the target word (prefix/stem) and the segmentation mode (carrier sentences were broken into syllable-sized fragments that either respected morpheme boundaries, or disregarded the morphological structure, maximizing syllable onsets). Czech as an inflectional and prosodically unique language offers a possibility to test the degree of universality of the morpheme category effects, and investigate the role of morphemes in syllable boundary assignment. The results suggest a statistically significant difference between stem and derivative morphemes (the former eliciting faster reactions) but were inconclusive as regards the segmentation mode. The findings are discussed in the light of current theories and relevant experiments in other languages.

• Klíčová slova
• mentální reprezentace, morfém, slabika, monitorování slov,
• MeSH
• dospělí MeSH
• fonetika MeSH
• lidé MeSH
• mladý dospělý MeSH
• percepce řeči * MeSH
• percepce klasifikace   MeSH
• psycholingvistika metody   statistika a číselné údaje   MeSH
• reakční čas MeSH
• Check Tag
• dospělí MeSH
• lidé MeSH
• mladý dospělý MeSH
• mužské pohlaví MeSH
• ženské pohlaví MeSH
• Publikační typ
• hodnotící studie MeSH
• práce podpořená grantem MeSH

Modeling central auditory neurons in response to complex sounds not only helps understanding neural processing of speech signals but can also provide insights for biomimetics in neuro-engineering. While modeling responses of midbrain auditory neurons to synthetic tones is rather good, modeling those to environmental sounds is less satisfactory. Environmental sounds typically contain a wide range of frequency components, often with strong and transient energy. These stimulus features have not been examined in the conventional approach of auditory modeling centered on spectral selectivity. To this end, we firstly compared responses to an environmental sound of auditory midbrain neurons across 3 subpopulations of neurons with frequency selectivity in the low, middle and high ranges; secondly, we manipulated the sound energy, both in power and in spectrum, and compared across these subpopulations how their modeled responses were affected. The environmental sound was recorded when a rat was drinking from a feeding bottle (called the 'drinking sound'). The sound spectrum was divided into 20 non-overlapping frequency bands (from 0 to 20 kHz, at 1 kHz width) and presented to an artificial neural model built on a committee machine with parallel spectral inputs to simulate the known tonotopic organization of the auditory system. The model was trained to predict empirical response probability profiles of neurons to the repeated sounds. Results showed that model performance depended more on the strong energy components than on the spectral selectivity. Findings were interpreted to reflect general sensitivity to rapidly changing sound intensities at the auditory midbrain and in the cortex.

• MeSH
• akustická stimulace metody   MeSH
• krysa rodu rattus MeSH
• mezencefalon * fyziologie   MeSH
• neurony fyziologie   MeSH
• řeč MeSH
• zvířata MeSH
• zvuk * MeSH
• Check Tag
• krysa rodu rattus MeSH
• zvířata MeSH
• Publikační typ
• časopisecké články MeSH

Individual nuclei of the auditory pathway contribute in a specific way to the processing of complex acoustical signals. We investigated the responses of single neurons to typical guinea pig vocalizations (purr, chutter, chirp and whistle) in the ventral part of the medial geniculate body (MGB) of anesthetized guinea pigs. The neuronal and population peristimulus time histograms (PSTHs) reflected the repetition frequency of individual phrases in the calls. The patterns of PSTHs correlated well with the sound temporal envelope in calls with short phrases (purr, chirp). The dominant onset character of the neuronal responses resulted in a lower correlation between the sound envelope and the PSTH pattern in the case of longer calls (chutter and whistle). A time-reversed version of whistle elicited on average a 13% weaker response than did the natural whistle. The rate-characteristic frequency (CF) profile provided only a coarse representation of the sound frequency spectrum without detailed information about the individual spectral peaks and their relative magnitudes. In comparison with the inferior colliculus (Suta et al. in J Neurophysiol 90:3794-3808, 2003), the processing of species-specific vocalizations in the MGB differs in: (1) a less precise representation of the temporal envelope in the case of longer calls, but not in the case of calls consisting of one or more short phrases; (2) a less precise rate-CF representation of the spectral envelope in the case of low-frequency calls, but not in the case of broad-band calls; (3) a smaller difference between the responses to natural and time-reversed whistle.

• MeSH
• akční potenciály fyziologie   MeSH
• akustická stimulace MeSH
• časové faktory MeSH
• druhová specificita MeSH
• financování organizované MeSH
• metathalamus cytologie   fyziologie   MeSH
• morčata MeSH
• neurony fyziologie   MeSH
• reakční čas fyziologie   MeSH
• sluchová percepce fyziologie   MeSH
• spektrální analýza MeSH
• vokalizace zvířat fyziologie   MeSH
• vztah dávky záření a odpovědi MeSH
• zvířata MeSH
• Check Tag
• morčata MeSH
• ženské pohlaví MeSH
• zvířata MeSH

The yearbook presents a collection of works that focus on medical informatics, specifically on biomedical research and medical support systems. Intended for professional public.

• MeSH
• biomedicínský výzkum MeSH
• management znalostí MeSH
• metody pro podporu rozhodování MeSH
• mezioborová komunikace MeSH
• nervová síť MeSH
• počítačové zpracování obrazu MeSH
• počítačové zpracování signálu MeSH
• řízení zdravotnictví MeSH
• Publikační typ
• sborníky MeSH

• Konspekt
• Lékařské vědy. Lékařství
• NLK Obory
• lékařská informatika
• NLK Publikační typ
• ročenky

Species-specific vocalizations represent an important acoustical signal that must be decoded in the auditory system of the listener. We were interested in examining to what extent anesthesia may change the process of signal decoding in neurons of the auditory cortex in the guinea pig. With this aim, the multiple-unit activity, either spontaneous or acoustically evoked, was recorded in the auditory cortex of guinea pigs, at first in the awake state and then after the injection of anesthetics (33 mg/kg ketamine with 6.6 mg/kg xylazine). Acoustical stimuli, presented in free-field conditions, consisted of four typical guinea pig calls (purr, chutter, chirp and whistle), a time-reversed version of the whistle and a broad-band noise burst. The administration of anesthesia typically resulted in a decrease in the level of spontaneous activity and in changes in the strength of the neuronal response to acoustical stimuli. The effect of anesthesia was mostly, but not exclusively, suppressive. Diversity in the effects of anesthesia led in some recordings to an enhanced response to one call accompanied by a suppressed response to another call. The temporal pattern of the response to vocalizations was changed in some cases under anesthesia, which may indicate a change in the synaptic input of the recorded neurons. In summary, our results suggest that anesthesia must be considered as an important factor when investigating the processing of complex sounds such as species-specific vocalizations in the auditory cortex.

• MeSH
• akustická stimulace MeSH
• druhová specificita MeSH
• financování organizované MeSH
• morčata MeSH
• regresní analýza MeSH
• sluchová percepce genetika   MeSH
• sluchové evokované potenciály fyziologie   MeSH
• sluchové korové centrum fyziologie   MeSH
• vokalizace zvířat fyziologie   MeSH
• zvířata MeSH
• zvuková spektrografie MeSH
• Check Tag
• morčata MeSH
• mužské pohlaví MeSH
• zvířata MeSH

Acoustical environment plays an important role during the maturation of the auditory system. It has been shown that the sensory inputs to the developing centres influence the development of the structure of projections, neuronal responsiveness, excitatory-inhibitory balance, or tonotopical arrangement, throughout the auditory pathway. Our previous study (Bures et al., 2014) showed that rats reared in a complex acoustic environment (spectrally and temporally modulated sound reinforced by an active behavioural paradigm with a positive feedback) exhibit permanently improved response characteristics of the inferior colliculus (IC) neurons. Extending these results, the current work provides evidence that the changes occur also at the level of auditory cortex (AC). In particular, the enriched animals have lower excitatory thresholds, sharper frequency selectivity, and a lower proportion of non-monotonic rate-intensity functions. In contrast to the changes observed in the IC, the cortical neurons of enriched animals have lower response magnitudes. In addition, the enrichment changed the AC responsiveness to frequency-modulated and also to a lesser extent, amplitude-modulated stimuli. Significantly, the alterations span the entire hearing range and may be regarded as general and not directly linked to the characteristics of the acoustical stimulation. Furthermore, these developmentally induced changes are permanent and detectable in adulthood. The findings indicate that an acoustically enriched environment during the critical period of postnatal development influences basic properties of neuronal receptive fields in the AC, which may have implications for the ability to detect and discriminate sounds.

• MeSH
• akustická stimulace MeSH
• bydlení zvířat MeSH
• membránové potenciály fyziologie   MeSH
• neurony fyziologie   MeSH
• potkani Long-Evans MeSH
• sluchová dráha růst a vývoj   fyziologie   MeSH
• sluchová percepce fyziologie   MeSH
• sluchové kmenové evokované potenciály MeSH
• sluchové korové centrum růst a vývoj   fyziologie   MeSH
• životní prostředí MeSH
• zpětná vazba MeSH
• zvířata MeSH
• Check Tag
• ženské pohlaví MeSH
• zvířata MeSH
• Publikační typ
• časopisecké články MeSH
• práce podpořená grantem MeSH

The processing of species-specific communication signals in the auditory system represents an important aspect of animal behavior and is crucial for its social interactions, reproduction, and survival. In this article the neuronal mechanisms underlying the processing of communication signals in the higher centers of the auditory system--inferior colliculus (IC), medial geniculate body (MGB) and auditory cortex (AC)--are reviewed, with particular attention to the guinea pig. The selectivity of neuronal responses for individual calls in these auditory centers in the guinea pig is usually low--most neurons respond to calls as well as to artificial sounds; the coding of complex sounds in the central auditory nuclei is apparently based on the representation of temporal and spectral features of acoustical stimuli in neural networks. Neuronal response patterns in the IC reliably match the sound envelope for calls characterized by one or more short impulses, but do not exactly fit the envelope for long calls. Also, the main spectral peaks are represented by neuronal firing rates in the IC. In comparison to the IC, response patterns in the MGB and AC demonstrate a less precise representation of the sound envelope, especially in the case of longer calls. The spectral representation is worse in the case of low-frequency calls, but not in the case of broad-band calls. The emotional content of the call may influence neuronal responses in the auditory pathway, which can be demonstrated by stimulation with time-reversed calls or by measurements performed under different levels of anesthesia. The investigation of the principles of the neural coding of species-specific vocalizations offers some keys for understanding the neural mechanisms underlying human speech perception.

• MeSH
• akční potenciály MeSH
• akustická stimulace MeSH
• anestezie MeSH
• Chiroptera MeSH
• colliculus inferior fyziologie   MeSH
• emoce MeSH
• kočky MeSH
• metathalamus fyziologie   MeSH
• morčata MeSH
• neurony fyziologie   MeSH
• primáti MeSH
• sluchová percepce fyziologie   MeSH
• sluchové korové centrum fyziologie   MeSH
• vokalizace zvířat * MeSH
• zpěvní ptáci MeSH
• zvířata MeSH
• Check Tag
• kočky MeSH
• morčata MeSH
• zvířata MeSH
• Publikační typ
• časopisecké články MeSH
• práce podpořená grantem MeSH
• přehledy MeSH

It is well known that auditory experience during early development shapes response properties of auditory cortex (AC) neurons, influencing, for example, tonotopical arrangement, response thresholds and strength, or frequency selectivity. Here, we show that rearing rat pups in a complex acoustically enriched environment leads to an increased reliability of responses of AC neurons, affecting both the rate and the temporal codes. For a repetitive stimulus, the neurons exhibit a lower spike count variance, indicating a more stable rate coding. At the level of individual spikes, the discharge patterns of individual neurons show a higher degree of similarity across stimulus repetitions. Furthermore, the neurons follow more precisely the temporal course of the stimulus, as manifested by improved phase-locking to temporally modulated sounds. The changes are persistent and present up to adulthood. The results document that besides basic alterations of receptive fields presented in our previous study, the acoustic environment during the critical period of postnatal development also leads to a decreased stochasticity and a higher reproducibility of neuronal spiking patterns.

• MeSH
• akční potenciály * MeSH
• akustická stimulace * MeSH
• neurony fyziologie   MeSH
• potkani Long-Evans MeSH
• sluchová percepce fyziologie   MeSH
• sluchové korové centrum fyziologie   MeSH
• životní prostředí MeSH
• zvířata MeSH
• zvuk MeSH
• Check Tag
• ženské pohlaví MeSH
• zvířata MeSH
• Publikační typ
• časopisecké články MeSH
• práce podpořená grantem MeSH