Frank Mosel scite author profile

The present study shows that feces samples of 14 human volunteers and isolated gut segments of mice (small intestine, cecum, and large intestine) are able to transform metals and metalloids into volatile derivatives ex situ during anaerobic incubation at 37°C and neutral pH. (dry weight) in mouse gut samples, respectively. The upshift of the bismuth content also led to an increase of derivatives of other elements (such as arsenic, antimony, and lead in human feces or tellurium and lead in the murine large intestine). The assumption that the gut microbiota plays a dominant role for these transformation processes, as indicated by the production of volatile derivatives of various elements in feces samples, is supported by the observation that the gut segments of germfree mice are unable to transform administered bismuth to (CH 3 ) 3 Bi.The transformation of metals and metalloids [metal(loid)s] into volatile derivatives by methylation or hydridization plays an important role in spreading and cycling these elements in our natural and anthropogenetically modified environment (6, 25). These transformations are catalyzed to a large part by organisms, mainly by microorganisms growing under anaerobic conditions. Several elements such as arsenic, antimony, bismuth, selenium, tellurium, and mercury are known or thought to be susceptible to these biotransformations (2,5,9,(17)(18)(19)(20)(21)(22)25).

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Determination of Trimethylbismuth in the Human Body after Ingestion of Colloidal Bismuth Subcitrate

Boertz¹,

Hartmann²,

Sułkowski³

et al. 2008

Drug Metab Dispos

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ABSTRACT:Biological methylation and hydride formation of metals and metalloids are ubiquitous environmental processes that can lead to the formation of chemical species with significantly increased mobility and toxicity. Whereas much is known about the interaction of metal(loid)s with microorganisms in environmental settings, little information has been gathered on respective processes inside the human body as yet. Here, we studied the biotransformation and excretion of bismuth after ingestion of colloidal bismuth subcitrate (215 mg of bismuth) to 20 male human volunteers. Bismuth absorption in the stomach and upper intestine was very low, as evidenced by the small quantity of bismuth eliminated via the renal route. Total bismuth concentrations in blood increased rapidly in the first hour after ingestion. Most of the ingested bismuth was excreted via feces during the study period. Trace levels of the metabolite trimethylbismuth [(CH 3 ) 3 Bi] were detected via low temperaturegas chromatography/inductively coupled plasma-mass spectrometry in blood samples and in exhaled air samples. Concentrations were in the range of up to 2.50 pg/ml (blood) and 0.8 to 458 ng/m 3 (exhaled air), with high interindividual variation being observed. Elimination routes of bismuth were exhaled air (up to 0.03‰), urine (0.03-1.2%), and feces. The site of (CH 3 ) 3 Bi production could not be identified in the present study, but the intestinal microflora seems to be involved in this biotransformation if accompanying ex vivo studies are taken into consideration.It is a well known fact that the toxicity of metal(loid)s is essentially dependent on the chemical form, i.e., on the species of the element in question (Craig, 2003;Dopp et al., 2004; Hirner and Emons, 2004). In particular, alkylation often seems to considerably increase the toxic potential of metal(loid)s. Many studies have shown that in the environment methylated and also, in some cases, hydride species can be formed by different mechanisms and from a variety of metal(loid)s (Craig, 2003). In particular, microorganisms, e.g., bacteria and fungi, have been reported to be involved in this specific kind of conversion (Thayer, 2002).In contrast to the considerable knowledge that has accumulated on the interaction of microorganisms with metal(loid)s in the environment, a paucity of information is currently available on the respective processes inside the human body. This lack of knowledge is particularly striking in view of the fact that certain segments of the digestive tract, namely, the oral cavity and the colon, are colonized by myriads of bacteria. The difficulty of analyzing metal(loid) organic compounds at trace and even ultratrace levels might at least partly account for this information gap.After a pilot study with three volunteers , we performed an ingestion experiment with bismuth, administering this element as a single p.o. dose to 20 male volunteers in the form of a therapeutically used colloidal bismuth subcitrate compound. Bismuth was chosen as the element of interest ...

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Principal component analysis of MALDI TOF MS mass spectra separates M. abscessus (sensu stricto) from M. massiliense isolates

et al. 2016

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BackgroundThe discrimination of the members of the Mycobacterium abscessus complex is of clinical interest because one of the subspecies, M. massiliense, exhibits higher rates of response to antibiotic treatment for lung infection than do the other members of that complex. M. abscessus complex contains three subspecies that are laborious to identify; therefore, a routine diagnostic tool would be worthwhile.ResultsWe used principal component analysis, hierarchical cluster analysis, and single-peak analysis to examine peak lists derived from matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI TOF MS) mass spectra of 50 clinical M. abscessus complex isolates, including 28 M. abscessus (sensu stricto), 19 M. massiliense, and 3 M. bolletii isolates grown in mycobacterium growth indicator tube liquid medium and prepared with a bead-based protocol. Principal component analysis but not hierarchical cluster analysis separated M. abscessus (sensu stricto) isolates and M. massiliense isolates into two clusters. Furthermore, single-peak analysis displayed 4 discriminating peaks that separated M. abscessus (sensu stricto) from M. massiliense isolates. M. bolletii isolates did not exhibit specific peaks but resembled the M. abscessus (sensu stricto) peak profile and also grouped within this principal component analysis cluster. Principal component analysis of all peak lists with the exclusion of the four discriminating peaks again separated M. abscessus (sensu stricto) from M. massiliense isolates, thus relativizing the importance of these peaks for subspecies identification.ConclusionsPrincipal component analysis of peak lists derived from MALDI TOF mass spectra is a robust and convenient method of discriminating M. massiliense isolates from the other members of the M. abscessus complex.

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Laser Doppler imager (LDI) scanner and intradermal injection for in vivo pharmacology in human skin microcirculation: responses to acetylcholine, endothelin‐1 and their repeatability

Saez

Mosel

Nürnberger

et al. 2005

Brit J Clinical Pharma

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AimsThe purpose of this study was to evaluate the repeatability of forearm skin blood fl ow responses to intradermal injections of acetylcholine (ACh) and endothelin-1 (ET-1) using a double injection technique (DIT) and a laser Doppler imager (LDI) scanner in the human skin microcirculation. MethodsWe used a laser Doppler imager (Moor LDI V3.01) to continuously monitor the change in skin blood flow during intradermal administration of physiological saline (0.9% NaCl), acetylcholine (ACh 10 -7 , 10 -8 , 10 -9 M) and endothelin-1 (ET-1 10 -14 , 10 -16 , 10 -18 M) in 10 healthy male subjects. Subjects were examined on 3 different days for assessment of interday and interobserver repeatability. Injections of either drug were randomly placed on different sites of the forearm. Laser Doppler images were collected before and after injection at 2.5 min intervals for 30 min. Data were analysed after the completion of each experiment using Moor Software V.3.01. Results are expressed as changes from baseline in arbitrary perfusion units (PU). ResultsACh caused a significant vasodilation ( P < 0.0001 ANOVA , mean ± SE: 766 ± 152 PU, ACh 10 -9 M; 1868 ± 360 PU, ACh 10 -8 M; 4188 ± 848 PU, ACh 10 -7 M; mean of days 1 and 2, n = 10), and ET-1 induced a significant vasoconstrictive response ( P < 0.0001 ANOVA , -421 ± 83 PU, ET-1 10 -18 M; -553 ± 66 PU, ET-1 10 -16 M; -936 ± 90 PU, ET-1 10 -14 M; mean of days 1 and 2, n = 10). There was no difference on the response to either drug on repeated days. Bland-Altman analyses showed a close agreement of responses between days with repeatability coefficients of 1625.4 PU for ACh, and 386.0 PU for ET-1 (95% CI: ACh, -1438 to 1747 PU, ET-1, -399 to 358 PU) and between observers with repeatability coefficients of 1057.2 PU for ACh and 255.8 PU for ET-1 (95% CI: ACh, -1024 to 1048 PU, ET-1, -252 to 249 PU). The variability between these responses was independent of average flux values for both ACh and ET-1. There was a significant correlation between responses measured in the same site, in the same individual on two different days by the same observer (ACh, r = 0.94, P < 0.0001; ET-1, r = 0.90, P < 0.0006), and between responses measured by two different observers (ACh, r = 0.94, P < 0.0001; ET-1, r = 0.91, P < 0.0003).A. M. Opazo Saez et al. 51259 :5 Br J Clin Pharmacol

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Frank Mosel

Direct identification of bacteria in urine samples by matrix-assisted laser desorption/ionization time-of-flight mass spectrometry and relevance of defensins as interfering factors

Role of Intestinal Microbiota in Transformation of Bismuth and Other Metals and Metalloids into Volatile Methyl and Hydride Derivatives in Humans and Mice

Determination of Trimethylbismuth in the Human Body after Ingestion of Colloidal Bismuth Subcitrate

Principal component analysis of MALDI TOF MS mass spectra separates M. abscessus (sensu stricto) from M. massiliense isolates

Laser Doppler imager (LDI) scanner and intradermal injection for in vivo pharmacology in human skin microcirculation: responses to acetylcholine, endothelin‐1 and their repeatability

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