Method of calibration for glucose sensor implemented in an integrated microdialysis based system

In this paper the novel method of calibration of glucose amperometric type sensor implemented in an integrated microdialysis based micro system is presented. This method consists in evaluation of the charge, resulting from the glucose consumption in the enzymatic reaction, transferred to the electrode under stop-flow conditions

Predator-mediated genotypic shifts in a prey population: experimental evidence

We demonstrate the effect of fish predation on genotype frequencies in a laboratory population composed of two Daphnia magna clones, with historically contrasting exposures to fish predation. The two clones differed in their responsiveness to predation via differential avoidance/escape behavior. The clone which coexists with fish in nature is more responsive to the presence of a fish predator, while the clone not exposed to fish predation does not exhibit the defensive reaction. Fish caused a rapid (within 18 h) and significant shift in Daphnia clonal composition, from 1:1 to 8:1, in favor of the responsive clone. Genotype-specific defensive abilities (modus defendi) can contribute greatly to the phenomenon of genotype replacement under selective predation

Micro-evaporators for kinetic exploration of phase diagrams

We use pervaporation-based microfluidic devices to concentrate species in aqueous solutions with spatial and temporal control of the process. Using experiments and modelling, we quantitatively describe the advection-diffusion behavior of the concentration field of various solutions (electrolytes, colloids, etc) and demonstrate the potential of these devices as universal tools for the kinetic exploration of the phases and textures that form upon concentration

DNA-based Electrochemical Biosensor for Imipramine Detection

AbstractThe main aim of our research was development of a novel selective electrochemical method for imipramine (IMI) detection. This substance enable to interact with DNA and it is also electrochemically active. Two major groups of electrochemical sensors were used in the experiments with bare gold electrodes and DNA-modified. Determination of imipramine by means of non-modified electrodes was not selective and limit of detection was shifted towards higher concentrations of IMI. The sensitivity of mixed and mono-GC sequence DNA-modified electrodes was much higher than for the bare gold ones

Environmental chemicals in eggs of Eurasian Golden Plovers "Pluvialis apricaria" breeding in Lower Saxony: is reproduction endangered?

Aus dem niedersächsischen Brutgebiet Esterweger Dose wurden von 2003 bis 2006 18 Eier aus nicht oder nur teilweise geschlüpften Gelegen sowie die Lebern eines Embryos und eines Kükens des Goldregenpfeifers auf Rückstände an Umweltchemikalien untersucht. Die Organohalogene (HCB, Σ PCB, Σ HCH, Σ DDT, Σ Chlordane und Nonachlore) sowie das Schwermetall Quecksilber wurden in sehr geringen Konzentrationen nachgewiesen. Nur die Leber des Embryos wies sehr hohe Konzentrationen an DDT und Metaboliten auf. Im Vergleich zur Kontamination der Eier anderer Watvogelarten sind die Konzentrationen der Umweltchemikalien in Goldregenpfeifereiern der Esterweger Dose als gering und den Reproduktionserfolg nicht gefährdend einzustufen.We analysed the levels of environmental chemicals in Eurasian Golden Plover samples from the breeding site Esterweger Dose, Lower Saxony, Germany. In total, 18 unhatched eggs and two livers of an embryo and a chick, respectively, were sampled from 2003 – 2006. Organochlorines (HCB, Σ PCB, Σ HCH, Σ DDT, Σ chlordane and nonachlor) and mercury were found in very low concentrations. Only in the liver of one embryo very high levels of DDT and metabolites were found. Compared with chemical levels in eggs of other wader species those in Eurasian Golden Plover eggs from the Esterweger Dose are assessed to be low and not critical for the reproductive success

80 Hz auditory steady state responses (ASSR) elicited by silent gaps embedded within a broadband noise

IntroductionAlthough auditory temporal processing plays an important role in speech comprehension, it cannot be measured by pure tone audiometry. Auditory temporal resolution is often assessed by behavioral gaps-in-noise test. To evaluate whether auditory temporal resolution could be objectively assessed, we measured the auditory steady state response (ASSR) elicited by silent gaps embedded within broadband noises at 80 Hz.MethodsWe prepared six sound types as test stimuli. One was a continuous broadband noise without a silent interval as a control stimulus and the others were broadband noises with 80 Hz silent intervals of 0.4, 0.8, 1.6, 3.1, and 6.3 ms.ResultsSignificant ASSRs were recorded only when the gap length was longer than the behavioral thresholds and the ASSR amplitude increased as the gap length increased.ConclusionEighty Hertz gap-evoked ASSR appears to reflect the neural activity related to the auditory gap processing and may be used as an objective measure of auditory temporal resolution in humans

Optimization of a PVC Membrane for Reference Field Effect Transistors

For the miniaturization of ISFET sensing systems, the concept of a REFET with low ion sensitivity is proposed to replace the conventional reference electrodes through the arrangement of a quasi reference electrode and a differential readout circuit. In this study, an ion-unblocking membrane was used as the top layer of a REFET. To optimize the REFET performance, the influences of the silylating process, different plasticizers, and the composition of the PVC cocktails were investigated. A low sensitivity (10.4 ± 2.2 mV/pH) and high linearity (99.7 ± 0.3 %) in the range from pH 2.2 to pH 11.6 was obtained for the REFET with a 60 wt.% DNP/(DNP + PVC) membrane. To evaluate the long term stability, the drift coefficient was estimated, and for the best REFET, it was −0.74 mV/h. Two criteria for assessing the lifetime of REFETs were used, namely the increase in pH sensitivity to a value higher than 15 mV/pH and the degradation of linearity below 99 %. For the best REFET, it was approximately 15 days

Optimization of Urea-EnFET Based on Ta2O5 Layer with Post Annealing

In this study, the urea-enzymatic field effect transistors (EnFETs) were investigated based on pH-ion sensitive field effect transistors (ISFETs) with tantalum pentoxide (Ta2O5) sensing membranes. In addition, a post N2 annealing was used to improve the sensing properties. At first, the pH sensitivity, hysteresis, drift, and light induced drift of the ISFETs were evaluated. After the covalent bonding process and urease immobilization, the urea sensitivity of the EnFETs were also investigated and compared with the conventional Si3N4 sensing layer. The ISFETs and EnFETs with annealed Ta2O5 sensing membranes showed the best responses, including the highest pH sensitivity (56.9 mV/pH, from pH 2 to pH 12) and also corresponded to the highest urea sensitivity (61 mV/pCurea, from 1 mM to 7.5 mM). Besides, the non-ideal factors of pH hysteresis, time drift, and light induced drift of the annealed samples were also lower than the controlled Ta2O5 and Si3N4 sensing membranes

Differential Levels of Stress Proteins (HSPs) in Male and Female Daphnia magna in Response to Thermal Stress: A Consequence of Sex-Related Behavioral Differences?

In two independent experiments, we compared: (1) water depth selection (and accompanying temperature selection) by male and female Daphnia magna under different kinds of environmental stress, including the presence of filamentous cyanobacteria, the risk of predation from fish, and the presence of toxic compounds; and (2) sex-dependent production of heat shock proteins (HSP60, 70, and 90) in response to a sudden change in temperature. Male D. magna selected deep water strata, which offer a relatively stable environment, and thereby avoided the threat of predation and the presence of toxic compounds in surface waters. Correlated with this behavior, males reduce their molecular defenses against stress, such as the production of heat shock proteins (HSPs), and do not maintain the physiological machinery that triggers an increase in HSP levels in response to stress. In contrast, female D. magna actively select habitats that offer optimal conditions for growth and production of offspring. Consequently, females are exposed to variable environmental conditions that may be associated with increased stress. To permit survival in these different habitats, D. magna females require molecular mechanisms to protect their cells from rapid changes in stress levels. Thus, they maintain high constitutive levels of the heat shock proteins from HSP 60, 70, and 90 families, and they have the potential to further enhance the production of the majority of these proteins under stress conditions. The results of this study indicate that the separate habitats selected by male and female D. magna result in different patterns of HSP production, leading us to hypothesize that that male and female Daphnia magna adopt different strategies to maximize the fitness of the species