197 research outputs found
Wandel der Altersstrukturen: Widersprüche und Zukunftsszenarien
'In den letzten 20 Jahren ist über den Alterungsprozess der Bevölkerungen in den Industriestaaten so intensiv wie nie zuvor diskutiert worden. Ein nicht unerheblicher Teil dieser Diskussion legt den Schluss nahe, dass eine ständig wachsende Gruppe von Menschen - die Älteren - als eine Belastung oder gar als ein Risiko für die Zukunft angesehen wird. Hier sind differenzierte Analysen nötig. In der Debatte über den Alterungsprozess dominieren Perspektiven, die auf steigende Belastungen für die Gesellschaft durch eine alternde Bevölkerung ausgerichtet sind und die den Beitrag älterer Menschen für die gesellschaftliche Entwicklung problematisieren. Diesen Sichtweisen wird mit Argumenten begegnet, die auf Basis von Forschungsbefunden eine Relativierung der heute gängigen Altersbilder ermöglichen. In diesem Zusammenhang werden Überlegungen zur 'Produktivität' des Alters und Szenarien für die Zukunft des Alters formuliert.' (Autorenreferat)'Public discussions about ageing have gained unprecedented importance during the last two decades. A continuously growing group in society, the elderly, are being regarded as a burden and as a collective risk for the future. However, more careful analyses are necessary. Whereas the public discussion focuses on the erosion of generational relations and the financial burden of elderly people, thus questioning their contributions for society, a research-based approach is more inclined to criticize these images of old age. In this context, ideas about the 'productivity' of age as well as scenarios about the future of age are being formulated.' (author's abstract)
Potential of volatile organic compounds as markers of entrapped humans for use in urban search-and-rescue operations
Volatile organic compounds emitted by a human body form a chemical signature
capable of providing invaluable information on the physiological status of an
individual and, thereby, could serve as signs-of-life for detecting victims
after natural or man-made disasters. In this review a database of potential
biomarkers of human presence was created on the basis of existing literature
reports on volatiles in human breath, skin emanation, blood, and urine.
Approximate fluxes of these species from the human body were estimated and used
to predict their concentrations in the vicinity of victims. The proposed
markers were classified into groups of different potential for victim
detection. The major classification discriminants were the capability of
detection by portable, real-time analytical instruments and background levels
in urban environment. The data summarized in this review are intended to assist
studies on the detection of humans via chemical analysis and accelerate
investigations in this area of knowledge.Comment: 38 page
A modeling-based evaluation of isothermal rebreathing for breath gas analyses of highly soluble volatile organic compounds
Isothermal rebreathing has been proposed as an experimental technique for
estimating the alveolar levels of hydrophilic volatile organic compounds (VOCs)
in exhaled breath. Using the prototypic test compound acetone we demonstrate
that the end-tidal breath profiles of such substances during isothermal
rebreathing show characteristics that contradict the conventional pulmonary
inert gas elimination theory due to Farhi. On the other hand, these profiles
can reliably be captured by virtue of a previously developed mathematical model
for the general exhalation kinetics of highly soluble, blood-borne VOCs, which
explicitly takes into account airway gas exchange as major determinant of the
observable breath output.
This model allows for a mechanistic analysis of various rebreathing protocols
suggested in the literature. In particular, it clarifies the discrepancies
between in vitro and in vivo blood-breath ratios of hydrophilic VOCs and yields
further quantitative insights into the physiological components of isothermal
rebreathing.Comment: 21 page
Modeling-based determination of physiological parameters of systemic VOCs by breath gas analysis: a pilot study
In this paper we develop a simple two compartment model which extends the
Farhi equation to the case when the inhaled concentration of a volatile organic
compound (VOC) is not zero. The model connects the exhaled breath concentration
of systemic VOCs with physiological parameters such as endogenous production
rates and metabolic rates. Its validity is tested with data obtained for
isoprene and inhaled deuterated isoprene-D5.Comment: 16 page
The relationship between twitch depression and twitch fade during neuromuscular block produced by vecuronium: correlation with the release of acetylcholine
<p>Abstract</p> <p>Background</p> <p>Train-of-four stimulation pattern following the administration of non-depolarizing neuromuscular blocking drugs reveals fade on successive contractions. Fade is caused by the release of fewer acetylcholine molecules by the fourth (A<sub>4</sub>) than by the first stimulus (A<sub>1</sub>). The current study was conducted to define the relationship between the clinically observed fade and the simulated decline in acetylcholine release (A<sub>4</sub>/A<sub>1</sub>) that would be necessary to produce it.</p> <p>Methods</p> <p>The T<sub>4</sub>/T<sub>1 </sub>ratios produced by different doses of vecuronium (15–80 μg·kg<sup>-1</sup>) were plotted as a function of the concomitant T<sub>1</sub>. Separately in a model of neuromuscular transmission, T<sub>1</sub>, T<sub>4</sub>, and T<sub>4</sub>/T<sub>1 </sub>were estimated using simulations in the presence and in the absence of a neuromuscular blocking drug and a stepwise decrease in A<sub>4</sub>, but constant A<sub>1</sub>.</p> <p>Results</p> <p>Vecuronium induced neuromuscular block was associated with larger T<sub>4</sub>/T<sub>1 </sub>ratios (less fade) during the onset than during the offset of the block. All doses caused similar fade during offset. Simulations revealed that the smallest T<sub>4</sub>/T<sub>1 </sub>was associated with the nadir of A<sub>4</sub>/A<sub>1 </sub>and occurred at the beginning of T<sub>1 </sub>recovery. The nadir of A<sub>4</sub>/A<sub>1 </sub>was only marginally affected by the dose of vecuronium: 15 μg·kg<sup>-1 </sup>producing the minimum A<sub>4</sub>/A<sub>1 </sub>of 0.8 and 80 μg·kg<sup>-1 </sup>the minimum A<sub>4</sub>/A<sub>1 </sub>of 0.7.</p> <p>Conclusion</p> <p>The hysteresis in the fade between onset and offset appears to be caused by a delayed decrease of A<sub>4</sub>/A<sub>1 </sub>as compared with the decrease in T<sub>1</sub>. Tentative estimates of the decrease in A<sub>4</sub>/A<sub>1 </sub>during fade produced by vecuronium are offered. However, the validity of these estimates is dependent on the validity of the assumptions made in simulations.</p
Physiological modeling of isoprene dynamics in exhaled breath
Human breath contains a myriad of endogenous volatile organic compounds
(VOCs) which are reflective of ongoing metabolic or physiological processes.
While research into the diagnostic potential and general medical relevance of
these trace gases is conducted on a considerable scale, little focus has been
given so far to a sound analysis of the quantitative relationships between
breath levels and the underlying systemic concentrations. This paper is devoted
to a thorough modeling study of the end-tidal breath dynamics associated with
isoprene, which serves as a paradigmatic example for the class of low-soluble,
blood-borne VOCs.
Real-time measurements of exhaled breath under an ergometer challenge reveal
characteristic changes of isoprene output in response to variations in
ventilation and perfusion. Here, a valid compartmental description of these
profiles is developed. By comparison with experimental data it is inferred that
the major part of breath isoprene variability during exercise conditions can be
attributed to an increased fractional perfusion of potential storage and
production sites, leading to higher levels of mixed venous blood concentrations
at the onset of physical activity. In this context, various lines of supportive
evidence for an extrahepatic tissue source of isoprene are presented.
Our model is a first step towards new guidelines for the breath gas analysis
of isoprene and is expected to aid further investigations regarding the
exhalation, storage, transport and biotransformation processes associated with
this important compound.Comment: 14 page
Volume of the effect compartment in simulations of neuromuscular block
BACKGROUND: The study examines the role of the volume of the effect compartment in simulations of neuromuscular block (NMB) produced by nondepolarizing muscle relaxants. METHODS: The molar amount of the postsynaptic receptors at the motor end plates in muscle was assumed constant; the apparent receptor concentration in the effect compartment is the ratio of this amount and the volume arbitrarily assigned to the effect compartment. The muscle relaxants were postulated to diffuse between the central and the effect compartment and to bind to the postsynaptic receptors. NMB was calculated from the free concentration of the muscle relaxant in the effect compartment. RESULTS: The simulations suggest that the time profiles of NMB and the derived pharmacokinetic and pharmacodynamic variables are dependent on the apparent receptor concentration in the effect compartment. For small, but not for large, volumes, times to peak submaximal NMB are projected to depend on the magnitude of NMB and on the binding affinities. CONCLUSION: An experimental design to estimate the volume of the effect compartment is suggested
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