Aerospace medicine and biology: A continuing bibliography with indexes (supplement 378)

This bibliography lists 185 reports, articles and other documents introduced into the NASA Scientific and Technical Information System during Aug. 1993. Subject coverage includes: aerospace medicine and physiology, life support systems and man/system technology, protective clothing, exobiology and extraterrestrial life, planetary biology, and flight crew behavior and performance

Aerospace medicine and biology: A continuing bibliography with indexes (supplement 402)

This bibliography lists 244 reports, articles and other documents introduced into the NASA Scientific and Technical Information System during Nov. 1992. Subject coverage includes: aerospace medicine and physiology, life support systems and man/system technology, protective clothing, exobiology and extraterrestrial life, planetary biology, and flight crew behavior and performance

Improving Condition and Sensitivity of Linear Inverse Problems in Magnetic Applications

Die Identifikation nicht direkt zugänglicher Prozesse anhand gemessener Daten ist von großer Bedeutung in vielen Bereichen. Im Fokus dieser Arbeit liegen Applikationen in der Magnetostatik, Magnetokardiographie und Magnetinduktionstomographie. Ein Ansatz zur Identifikation besteht in der Lösung eines entsprechenden linear inversen Problems. Unglücklicherweise haben in den Daten enthaltene Fehler und Rauschen einen signifikanten Einfluss auf die inverse Lösung. Ziel dieser Arbeit ist die Reduktion der Einflüsse von Fehlern und Rauschen durch eine Verbesserung der Kondition des Problems, sowie eine Steigerung der Sensitivität der Messanordnungen. Zur Bestimmung der Kondition wird das Verhältnis des größten und mittleren Singulärwerts der Kernmatrix als neues Maß vorgeschlagen. Darüber hinaus werden Ansätze zur Analyse der Sensitivität hinsichtlich der Messung elektromagnetischer Quellen und der Erfassung elektrischer Leitfähigkeitsveränderungen präsentiert.Strategien zur Verbesserung von Kondition und Sensitivität werden in vier Simulationsstudien beschrieben. In der ersten Studie wird ein Tabu-Suche-Ansatz zur Optimierung der Anordnung magnetischer Sensoren vorgestellt. Anordnungen mit optimierte Sensorpositionen resultieren dabei in einer deutlich besseren Kondition als regelmäßige Anordnungen. In einer zweiten Studie werden Parameter adaptiert,welche den Quellenraum für die Bildgebung durch magnetische Nanopartikel definieren. Als eine Schlussfolgerung sollte der Quellenraum etwas größer als das Sensorareal definiert werden. Diese Arbeit zeigt ebenfalls, dass Variationen in den Sensorrichtungen für monoaxiale Sensorarrays zu einer Verbesserung der Kondition führen. Zudem wird die Sensitivität von Spulenanordnungen für die Magnetinduktionstomographie bewertet und verglichen. Durch Nutzung relativ großer Spulen, die das Messgebiet nahezu vollständig abdecken, können Kondition und Sensitivität wesentlich verbessert werden.Die präsentierten Methoden und Strategien ermöglichen eine substantielle Verbesserung der Kondition des linear inversen Problems bei der Analyse magnetischer Messungen. Insbesondere die Anordnung von Sensoren in Bezug auf das Messobjekt ist kritisch für die Kondition, sowie die Qualität inverser Lösungen. Die vorgestellten Methoden sind darüber hinaus für linear inverse Probleme in zahlreichen Bereichen einsetzbar.The identification and reconstruction of hidden, not directly accessible processes from measured data is important in many areas of research and engineering. This thesis focusses on applications in magnetostatics, magnetocardiography, and magneticinduction tomography. One approach to identify these processes is to solve a related linear inverse problem. Unfortunately, noise and errors in the data have a significant impact on inverse solutions.The aim of this work is to reduce the effects of noise and errors by improving the condition of the problem and to increase the sensitivity of measurement setups. To quantify the condition, we propose the ratio of the largest and the mean singular value of the kernel matrix. Moreover, we outline approaches to analyse quantitatively and qualitatively the sensitivity to electromagnetic sources and electrical conductivity changes.In four simulation studies, strategies to improve the condition and sensitivity inmagnetic applications are described. First, we present a tabu search algorithm to optimize arrangements of magnetic sensors. Optimized sensor arrays result in a considerably improved condition compared with regular arrangements. Second, we adapt parameters that define source space grids for magnetic nanoparticle imaging. One conclusion is that the source space should be defined slightly larger than the sensor area. Third, we demonstrate for mono-axial sensor arrays that variations in thesensor directions and small variations in the sensor positions lead to improvements of the condition, too. Finally, we evaluate and compare the sensitivities of six coil setups for magnetic induction tomography. Our investigations indicate a rapid decay of sensitivity by several orders of magnitude within a range of a few centimetres. By using relatively large coils that cover the measurement region almost completely, the condition and sensitivity can be improved clearly.The methods and strategies presented in this thesis facilitate substantial improvements of the condition for linear inverse problems in magnetic applications. In particular, the arrangement of sensors relative to the measurement object is critical to the condition and to the quality of inverse solutions. Moreover, the presented methods are applicable to linear inverse problems in various fields

Aerospace medicine and biology: A cumulative index to a continuing bibliography (supplement 319)

This publication is a cumulative index to the abstracts contained in Supplements 307 through 318 of Aerospace Medicine and Biology: A Continuing Bibliography. Seven indexes are included -- subject, personal author, corporate source, foreign technology, contract number, report number and accession number

Strategies for optimal design of biomagnetic sensor systems

Magnetic field imaging (MFI) is a technique to record contact free the magnetic field distribution and estimate the underlying source distribution in the heart. Currently, the cardiomagnetic fields are recorded with superconducting quantum interference devices (SQUIDs), which are restricted to the inside of a cryostat filled with liquid helium or nitrogen. New room temperature optical magnetometers allow less restrictive sensor positioning, which raises the question of how to optimally place the sensors for robust field reconstruction. The objective in this study is to develop a generic object-oriented framework for optimizing sensor arrangements (sensor positions and orientations) which supports the necessary constraints of a limited search volume (only outside the body) and the technical minimum distance of sensors (e.g. 1 cm). In order to test the framework, a new quasi-continuous particle swarm optimizer (PSO) component is developed as well as an exemplary goal function component using the condition number (CN) of the leadfield matrix. Generic constraint handling algorithms are designed and implemented, that decompose complex constraints into basic ones. The constraint components interface to an operational exemplary optimization strategy which is validated on the magnetocardiographic sensor arrangement problem. The simulation setup includes a three compartment boundary element model of a torso with a fitted multi-dipole heart model. The results show that the CN, representing the reconstruction robustness of the inverse problem, can be reduced with our optimization by one order of magnitude within a sensor plane (the cryostat bottom) in front of the torso compared to a regular sensor grid. Reduction of another order of magnitude is achieved by optimizing sensor positions on the entire torso surface. Results also indicate that the number of sensors may be reduced to 20-30 without loss of robustness in terms of CN. The original contributions are the generic reusable framework and exemplary components, the quasicontinuous PSO algorithm with constraint support and the composite constraint handling algorithms

Cortical processing of musical pitch as reflected by behavioural and electrophysiological evidence

In a musical context, the pitch of sounds is encoded according to domain-general principles not confined to music or even to audition overall but common to other perceptual and cognitive processes (such as multiple pattern encoding and feature integration), and to domain-specific and culture-specific properties related to a particular musical system only (such as the pitch steps of the Western tonal system). The studies included in this thesis shed light on the processing stages during which pitch encoding occurs on the basis of both domain-general and music-specific properties, and elucidate the putative brain mechanisms underlying pitch-related music perception. Study I showed, in subjects without formal musical education, that the pitch and timbre of multiple sounds are integrated as unified object representations in sensory memory before attentional intervention. Similarly, multiple pattern pitches are simultaneously maintained in non-musicians' sensory memory (Study II). These findings demonstrate the degree of sophistication of pitch processing at the sensory memory stage, requiring neither attention nor any special expertise of the subjects. Furthermore, music- and culture-specific properties, such as the pitch steps of the equal-tempered musical scale, are automatically discriminated in sensory memory even by subjects without formal musical education (Studies III and IV). The cognitive processing of pitch according to culture-specific musical-scale schemata hence occurs as early as at the sensory-memory stage of pitch analysis. Exposure and cortical plasticity seem to be involved in musical pitch encoding. For instance, after only one hour of laboratory training, the neural representations of pitch in the auditory cortex are altered (Study V). However, faulty brain mechanisms for attentive processing of fine-grained pitch steps lead to inborn deficits in music perception and recognition such as those encountered in congenital amusia (Study VI). These findings suggest that predispositions for exact pitch-step discrimination together with long-term exposure to music govern the acquisition of the automatized schematic knowledge of the music of a particular culture that even non-musicians possess.Musiikkia kuunnellessa äänenkorkeuden (melodian) prosessointiin osallistuvat sekä yleiset kognitiiviset prosessit että pelkästään tietylle kulttuurille tyypilliset musiikin kuunteluun erikoistuneet prosessit. Ensin mainittuun kategoriaan kuuluvat yleiset hahmontunnistusmekanismit sekä musikaalisten piirteiden keskinäinen integraatio, jälkimmäiseen esimerkiksi länsimaisen sävelasteikkojen tunnistaminen ja niiden prosessointi. Tässä väitöskirjassa tarkastellaan sekä yleisiä että alakohtaisia musiikin prosessointiin liittyvä mekanismeja ja tarkastellaan niiden taustalla olevia aivomekanismeja. Kuudessa erillisessä käyttäytymistä ja aivojen toimintaa mittaavassa tutkimuksessa saatiin seuraavat tulokset. Äänen korkeutta ja sointia koodaavat piirteet (tutkimus I) sekä lyhyitä melodioita muodostavat sävelet (tutkimus II) yhdistetään toisiinsa sensorisessa mustissa jo ennen tietoista prosessointia. Myös musiikin kulttuuriset piirteet, kuten sävelasteikot länsimaisessa musiikissa, tunnistetaan automaattisesti sensorisessa muistissa ennen kuin ne tulevat tarkkaavaisuuteen (tutkimukset III ja IV). Muusikkojen lisäksi (tutkimus III) samat tulokset saatiin koehenkilöiltä, joilla ei ollut musiikkiin liittyvää aikaisempaa koulutusta. Tutkimuksessa V havaittiin lisäksi, että äänen korkeuteen erikoistuneet neuraaliset järjestelmät muuttuvat jo tunnin harjoittelun seurauksena, mutta toisaalta myös synnynnäisillä tekijöillä on suuri vaikutus musiikin kokemiseen (tutkimus VI). Yhdessä nämä tulokset pyrkivät kuvaamaan sitä, miten monimutkaisia äänen prosessointiin liittyviä ominaisuuksia sensorinen muisti pystyy käsittelemään riippumatta tarkkaavaisuudesta, tietoisesta prosessoinnista, tai musiikkiin liittyvästä aikaisemmasta koulutuksesta. Lisäksi tutkimus valottaa opittujen ja synnynnäisten tekijöiden vaikutuksia musiikin kokemisessa

Aerospace Medicine and Biology: A continuing bibliography with indexes (supplement 259)

A bibliography containing 476 documents introduced into the NASA scientific and technical information system in May 1984 is presented. The primary subject categories included are: life sciences, aerospace medicine, behavioral sciences, man/system technology, life support, and planetary biology. Topics extensively represented were space flight stress, man machine systems, weightlessness, human performance, mental performance, and spacecraft environments. Abstracts for each citation are given

Revealing Distinct Neural Signatures in Magnetoencephalography with Hidden Markov Models

Magnetoencephalography (MEG) is a functional neuroimaging method which measures the magnetic fields produced by neural communication in the brain. Specifically, the fields induced by dendritic current flow in assemblies of pyramidal neurons. Because these magnetic fields are generated directly by brain electrophysiology, and are mostly unperturbed by the skull, MEG data are rich in spatial and temporal information. This thesis is chiefly concerned with interpreting these data in a way that produces useful results whilst minimising bias. Hidden Markov modelling (HMM) is a robust statistical method which has been applied to fields as diverse as speech recognition and financial market prediction. It parses data into a number of ‘hidden states’, each with their own unique characteristics, in an unsupervised way. Because it is data-driven, it can create a model unique to each participant’s brain activity and specific to each task. In addition, the HMM framework itself is flexible so it can be applied to both sensor and source-space data and can be applied to multiple channels (multivariate) or to a single time course (univariate). Choice of an observation model allows states to be characterised by amplitude, spatial, or spectral content depending on the research question. The aim of this thesis is to apply hidden Markov modelling (HMM) to whole head MEG data to identify repeated patterns of transient neural activity occurring throughout the brain. Once these patterns were identified, the interaction between these short ‘bursts’ of activity across the cortex was established which provided a unique measure of functional connectivity. Three studies were undertaken: The role of transient spectral bursts in MEG functional connectivity: In recent years, the smoothly varying neural oscillations often studied in MEG (such as those trial-averaged responses in the traditional neurophysiological (such as alpha/beta) frequency bands) have been shown to be made up of single-trial high-amplitude ‘bursts’ of activity. These bursts can be observed in the beta frequency band and are therefore often referred to as beta bursts. In this study, a novel time-delay embedded HMM was used to identif bursts in broadband data based on their spectral content for MEG data from 66 healthy adult participants. The burst amplitude, duration and frequency of occurrence were characterised across the cortex in resting state data, and in a motor task the classic movement-related beta desynchronisation and post movement beta rebound were shown to be made up of changes in burst occurrence. A novel functional connectivity metric was then introduced based on the coincidence of bursts from distal brain regions, allowing the known beta band functional connectome to be reproduced. Bursts coincident across spatially separate brain regions were also shown to correspond to periods of heightened coherence, lending evidence to the communication by coherence (Fries 2005, 2015) hypothesis. Post-stimulus responses across the cortex: During a motor task, both primary (during stimulation) and post stimulus responses (PSR) can be observed. These are well characterised in the literature, but little is known about their functional significance. The PSR in particular is modified in a range of seemingly unrelated neurological conditions with variable symptoms, such as schizophrenia (Robson et al. 2016), autism spectrum disorder (Gaetz et al. 2020) and multiple sclerosis (Barratt et al. 2017), indicating that the PSR is a fundamental neurophysiological process, the disturbance of which has implications on both healthy and pathological brain function. This work therefore tested the hypothesis that the PSR is present across the cortex. MEG data were acquired and analysed from two experiments with 15 healthy adult volunteers each – the first was a right-hand grip task with visual feedback, the second involved passive left visual field stimulation. Both experiments varied stimulus duration (2s, 5s and 10s) with a 30s rest-period between trials to allow characterisation of the full PSR. A univariate 3-state time-delay-embedded hidden Markov model (HMM) was used to characterise the spatial distributions of the primary and PSR across the cortex for both tasks. Results showed that for both tasks, the primary response state was more bilateral over the sensorimotor or visual areas (depending on task) where the PSR state was more unilateral and confined to the contralateral sensorimotor or visual areas (again, dependant on task). A state coincidence metric was then used to investigate the integration of the primary and PSR states across brain regions as a measure of task-related functional connectivity. Hidden Markov modelling of the interictal brain: Epilepsy is a highly heterogeneous disease with variations in the temporal morphology and localisation of epileptiform activity across patients. Unsupervised machine learning techniques like the HMM allow us to take into account this variability and ensure that every model is tailored to each individual. In this work, a multivariate time-delay embedded HMM was used to identify brain states based on their spatial and spectral properties in sensor-level MEG data acquired as part of standard clinical care for patients at the Children’s Hospital of Philadelphia. State allocations were used together with a linearly constrained minimum variance (LCMV) beamformer to produce a 3D map of state variance, hence localising probable epileptogenic foci. Clinical MEG epilepsy data are routinely analysed by excess kurtosis mapping (EKM) and so the performance of the HMM was assessed against this for three patient groups, each with increasingly complex epilepsy manifestation (10 patients in total). The difference in localization of epileptogenic foci for the two methods was 7 ± 2mm (mean ± SD over all 10 patients); and 94 ± 13% of EKM temporal markers were matched by an HMM state visit. It is therefore clear that this method localizes epileptogenic areas in agreement with EKM and in patients with more than one focus the HMM provides additional information about the relationship between them

Aerospace medicine and biology: A cumulative index to a continuing bibliography (supplement 371)

This publication is a cumulative index to the abstracts contained in Supplements 359 through 370 of Aerospace Medicine and Biology: A Continuing Bibliography. It includes seven indexes: subject, personal author, corporate source, foreign technology, contract number, report number, and accession number