Luc Wouters scite author profile

Sustained AF in goats leads to predominantly structural changes in the atrial myocytes similar to those seen in ventricular myocytes from chronic hibernating myocardium. These structural changes may explain the depressed contractile function of atrial myocardium after cardioversion. This goat model of AF offers a new approach to study the cascade of events leading to sustained AF and its maintenance.

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The Maastricht Protocol for the Measurement of Body Composition and Energy Expenditure with Labeled Water

Wouters¹,

Lichtenbelt²

1995

Obesity Research

278

279

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An update of practical aspects of the use of labeled water for the measurement of total body water (TBW) and energy expenditure (EE) is presented as applied in Maastricht, The Netherlands. We use a 10-hour equilibration period. The isotopes for the measurement of TBW and EE are routinely administered, after collecting a background urine sample, as a last consumption before the night. Our data show an underestimate of TBW measured with isotope dilution after 4 hours {in the morning), a discrepancy which increases with the size of TBW. No such relation and no significant differences were found after 10-hour (overnight) equilibration. The ratio between the dilution space for deuterium and oxygen-18 is higher than the earlier figure of 1.03, especially in adult subjects with a high body fat content. For an observation period of EE over two weeks, samples from the second and the last voiding on the first, mid, and last day of the observation period are collected. Differences in EE calculated from morning and evening samples within the first and second week allow detection of sampling errors and if so, samples are excluded from the final calculation. Differences of EE between weeks 1 and 2 allow a check for the consistency of the subjects' physical activity level and usually fall within 10% of the average EE over the total observation interval. Key words: isotope background, total body water, isotope dilution space, energy balance Introduction Water labeled with deuterium has been used for the measurement of total body water since the early thirties (7). Our own research using the doubly labeled water (DL W) technique started with studies in small animals (2,19). Schoeller (13) was the frrst to apply the DLW method in man, soon followed by others including ourselves (3,18).The DL W method was thoroughly discussed by the main users in 1988 (10). Here, an update of practical aspects of the use of DL W for the measurement of body composition and energy expenditure is presented, as applied in our laboratory in Maastricht. Methods for measuring body composition and energy expenditure are described separately. These are preceded by a presentation on label treatment and calculation and of the observed variation in background isotope levels. The validity of the isotope techniques is evaluated by comparing measurements with results from alternative techniques, and by analysis of the reproducibility within subjects and within observations.

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Evaluation of wireless determination of skin temperature using iButtons

Lichtenbelt

Daanen

Wouters

et al. 2006

Physiology & Behavior

315

238

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Measurements of skin temperatures are often complicated because of the use of wired sensors. This is so in field studies, but also holds for many laboratory conditions. This article describes a wireless temperature system for human skin temperature measurements, i.e. the Thermochron iButton DS1291H. The study deals with validation of the iButton and its application on the human skin, and describes clinical and field measurements. The validation study shows that iButtons have a mean accuracy of -0.09 degrees C (-0.4 degrees C at most) with a precision of 0.05 degrees C (0.09 degrees C at most). These properties can be improved by using calibration. Due to the size of the device the response time is longer than that of conventional sensors, with a tau in water of 19 s. On the human skin under transient conditions the response time is significantly longer, revealing momentary deviations with a magnitude of 1 degrees C. The use of iButtons has been described in studies on circadian rhythms, sleep and cardiac surgery. With respect to circadian rhythm and sleep research, skin temperature assessment by iButtons is of significant value in laboratory, clinical and home situations. We demonstrate that differences in laboratory and field measurements add to our understanding of thermophysiology under natural living conditions. The advantage of iButtons in surgery research is that they are easy to sterilize and wireless so that they do not hinder the surgical procedure. In conclusion, the application of iButtons is advantageous for measuring skin temperatures in those situations in which wired instruments are unpractical and fast responses are not required.

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Time Course of Atrial Fibrillation-induced Cellular Structural Remodeling in Atria of the Goat

Ausma¹,

Litjens²,

Lenders³

et al. 2001

Journal of Molecular and Cellular Cardiology

190

148

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Background: Previously we documented cellular structural changes of a non-degenerative nature in atrial myocytes after atrial fibrillation (AF) in the goat. The time course of these changes was not studied. Methods and Results: Cellular structural changes were studied by light-and electron microscopy and immunohistochemistry in goat atria after 0-16 weeks AF. The first sign of cellular structural remodeling was a more homogeneous chromatin distribution, at 1 week of AF. Sub-structural changes in mitochondria and sarcoplasmic reticulum occurred gradually. Cellular degeneration was absent. The degree of myolysis and glycogen accumulation increased till 8 weeks of AF and did not increase further from thereon. After 16 weeks of AF, 42% of the myocytes in the right atrial free wall were affected by myolysis. The diameter of the atrial myocytes increased. Dedifferentiation of the atrial myocytes was suggested by altered expression patterns of structural proteins, such as the disappearance of cardiotin (1 week), the A-I junctional part of titin (4 weeks), desmin at the intercalated disk (ID) (8 weeks) and a gradual re-expression of -smooth muscle actin. Conclusion: Remodeling of the cellular ultrastructure in atrial myocardium of the goat develops progressively during AF. Re-expression of fetal proteins indicate dedifferentiation of atrial myocytes, analogous to observations in hibernating myocardium of the ventricle.

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Luc Wouters

Structural Changes of Atrial Myocardium due to Sustained Atrial Fibrillation in the Goat

The Maastricht Protocol for the Measurement of Body Composition and Energy Expenditure with Labeled Water

Evaluation of wireless determination of skin temperature using iButtons

Time Course of Atrial Fibrillation-induced Cellular Structural Remodeling in Atria of the Goat

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