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3. A Fully Depleted PN-Junction CCD for Infrared-, UV- and X-Ray Detection

Author

von Zanthier, C., Bräuninger, H., Dennerl, K., Hartmann, R., Hartner, G., Hippmann, H., Kaltenberger, A., Kastelic, E., Kink, W., Krause, N., Meidinger, N., Metzner, G., Pfeffermann, E., Popp, M., Reppin, C., Riedl, J., Stötter, D., Strüder, L., Trümper, J., Weber, U., Carathanassis, D., Engelhard, S., Gebhart, Th., Hauff, D., Lutz, G., Richter, R. H., Seitz, H., Solc, P., Biehler, E., Kendziorra, E., Krämer, J., Pflüger, B., Staubert, R., Holl, P., Kemmer, J., Lechner, P., Maier, B., Soltau, H., Stötter, R., Bihler, E., Böttcher, H., Beletic, James W., editor, and Amico, Paola, editor

Published
1998
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7. A Fully Depleted PN-Junction CCD for Infrared-, UV- and X-Ray Detection

Author

von Zanthier, C., primary, Bräuninger, H., additional, Dennerl, K., additional, Hartmann, R., additional, Hartner, G., additional, Hippmann, H., additional, Kaltenberger, A., additional, Kastelic, E., additional, Kink, W., additional, Krause, N., additional, Meidinger, N., additional, Metzner, G., additional, Pfeffermann, E., additional, Popp, M., additional, Reppin, C., additional, Riedl, J., additional, Stötter, D., additional, Strüder, L., additional, Trümper, J., additional, Weber, U., additional, Carathanassis, D., additional, Engelhard, S., additional, Gebhart, Th., additional, Hauff, D., additional, Lutz, G., additional, Richter, R. H., additional, Seitz, H., additional, Solc, P., additional, Biehler, E., additional, Kendziorra, E., additional, Krämer, J., additional, Pflüger, B., additional, Staubert, R., additional, Holl, P., additional, Kemmer, J., additional, Lechner, P., additional, Maier, B., additional, Soltau, H., additional, Stötter, R., additional, Bihler, E., additional, and Böttcher, H., additional

Published
1998
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9. Gold Nanoparticle Mesoporous Carbon Composite as Catalyst for Hydrogen Evolution Reaction.

Author

Biehler E, Quach Q, and Abdel-Fattah TM

Abstract

Increased environmental pollution and the shortage of the current fossil fuel energy supply has increased the demand for eco-friendly energy sources. Hydrogen energy has become a potential solution due to its availability and green combustion byproduct. Hydrogen feedstock materials like sodium borohydride (NaBH 4 ) are promising sources of hydrogen; however, the rate at which the hydrogen is released during its reaction with water is slow and requires a stable catalyst. In this study, gold nanoparticles were deposited onto mesoporous carbon to form a nano-composite catalyst (AuNP-MCM), which was then characterized via transmission electron microscopy (TEM), powder X-ray diffraction (P-XRD), and scanning electron microscopy/energy dispersive X-ray spectroscopy (SEM/EDS). The composite's catalytic ability in a hydrogen evolution reaction was tested under varying conditions, including NaBH 4 concentration, pH, and temperature, and it showed an activation of energy of 30.0 kJ mol -1 . It was determined that the optimal reaction conditions include high NaBH4 concentrations, lower pH, and higher temperatures. This catalyst, with its stability and competitively low activation energy, makes it a promising material for hydrogen generation.

Published
2024
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10. E-learning-an interventional element of the PRiVENT project to improve weaning expertise.

Author

Michels-Zetsche JD, Schubert-Haack J, Tanck K, Neetz B, Iberl G, Müller M, Kempa A, Joves B, Rheinhold A, Ghiani A, Tsitouras K, Schneider A, Rauch C, Gehrig P, Biehler E, Fleischauer T, Britsch S, Frerk T, Szecsenyi J, Herth FJF, and Trudzinski FC

Subjects
Humans, Ventilator Weaning, Learning, Health Personnel education, Critical Care, Computer-Assisted Instruction
Abstract

Background: PRiVENT (PRevention of invasive VENTilation) is an evaluation of a bundle of interventions aimed at the prevention of long-term invasive mechanical ventilation. One of these elements is an e-learning course for healthcare professionals to improve weaning expertise. The aim of our analysis is to examine the implementation of the course in cooperating intensive care units., Methods: The course has been developed through a peer review process by pulmonary and critical care physicians in collaboration with respiratory therapists, supported by health services researchers and a professional e-learning agency. The e-learning platform "weLearn" was made available online to participating healthcare professionals. Feedback on the e-learning programme was obtained and discussed in quality circles (QCs). We measured the acceptance and use of the programme through access statistics., Results: The e-learning course "Joint Prevention of Long-Term Ventilation" consists of 7 separate modules with practice-oriented training units as well as a cross-module area and corresponding interactive case studies. Users can receive 23 CME (continuing medical education) credits. The platform was released on July 1, 2021. By June 28, 2023, 214 users from 33 clinics had registered. Most users (77-98%) completed the modules, thus performing well in the test, where 90-100% passed. In the QCs, the users commended the structure and practical relevance of the programme, as well as the opportunity to earn CME credits., Conclusion: Especially for medical staff in intensive care units, where continuous training is often a challenge during shift work, e-learning is a useful supplement to existing medical training., Trial Registration: The PRiVENT study is registered at ClinicalTrials.gov (NCT05260853) on 02/03/2022., (© 2024. The Author(s).)

Published
2024
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11. [Interprofessional weaning boards and weaning consults for long-term ventilated patients: A qualitative study of perceived potential for patient care].

Author

Keller S, Forstner J, Weis A, Biehler E, Trudzinski F, Michels J, Neetz B, Herth F, Schneider A, Ghiani A, Szecsenyi J, Wensing M, and Poß-Doering R

Subjects
Humans, Cross-Sectional Studies, Intensive Care Units, Patient Care, Respiration, Artificial, Ventilator Weaning
Abstract

Background: The PRiVENT project aims to improve the care of invasively ventilated patients and to reduce the number of out-of-hospital long-term ventilated patients. PRiVENT offers intensive care units the opportunity to exchange information with experts from specialized weaning centers in interprofessional weaning boards and weaning consults and to exploit the full weaning potential of the patients. In the context of the accompanying process evaluation, the PRiVENT intervention components will be examined for sustainability, scalability and effectiveness, and the interprofessional collaboration between intensive care units and the responsible weaning centers will be investigated in order to identify potentials for the care of invasively managed patients., Methods: In a qualitative cross-sectional study, semistructured, problem-oriented interviews were conducted with care providers of participating ICUs. The data were digitally recorded, pseudonymized and verbatim transcribed. Data analysis was based on Brown and Clarke's Thematic Analysis and the Consolidated Framework for Implementation Research. MAXQDA 2020 software was used to organize the data., Results: Fourteen interviews were conducted with ICU care providers. The early transfer of patients to a weaning center and the integration of pulmonary expertise into routine care were identified as positively perceived potentials of the weaning boards and weaning consults. Especially in critically ill, multimorbid patients suffering from COVID-19, the expertise of the weaning centers was considered helpful. Due to heavy workloads, nurses were unable to participate in weaning boards and weaning consults., Conclusion: Interprofessional collaboration between weaning centers and ICUs in weaning boards and weaning consults can improve the care of invasively ventilated patients. Strategies to promote the involvement of nurses should be discussed and developed., Competing Interests: Joachim Szecsenyi ist Gründer des aQUA Institutes. Franziska Trudzinski gibt folgende Interessenkonfilkte an: 1. Payment or honoraria for lectures, presentations, speakers bureaus, manuscript writing or educational events: Boehringer Ingelheim, Chiesi, GlaxoSmithKline, Grifols, Novartis, CSL Behring, Streamed up RG Gesellschaft für Information und Organisation mbH. 2. Participation on a Data Safety Monitoring Board or Advisory Board: CSL Behring, GlaxoSmithKline., (Thieme. All rights reserved.)

Published
2024
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12. Risk factors for long-term invasive mechanical ventilation: a longitudinal study using German health claims data.

Author

Trudzinski FC, Michels-Zetsche JD, Neetz B, Meis J, Müller M, Kempa A, Neurohr C, Schneider A, Herth FJF, Szecsenyi J, Biehler E, Fleischauer T, Wensing M, Britsch S, Schubert-Haack J, Grobe T, and Frerk T

Subjects
Humans, Respiration, Artificial adverse effects, Respiration, Artificial methods, Longitudinal Studies, Acute Disease, Risk Factors, Pancreatitis, Noninvasive Ventilation
Abstract

Background: Long-term invasive mechanical ventilation (IMV) is a major burden for those affected and causes high costs for the health care system. Early risk assessment is a prerequisite for the best possible support of high-risk patients during the weaning process. We aimed to identify risk factors for long-term IMV within 96 h (h) after the onset of IMV., Methods: The analysis was based on data from one of Germany's largest statutory health insurance funds; patients who received IMV ≥ 96 h and were admitted in January 2015 at the earliest and discharged in December 2017 at the latest were analysed. OPS and ICD codes of IMV patients were considered, including the 365 days before intubation and 30 days after discharge. Long-term IMV was defined as evidence of invasive home mechanical ventilation (HMV), IMV ≥ 500 h, or readmission with (re)prolonged ventilation., Results: In the analysis of 7758 hospitalisations, criteria for long-term IMV were met in 38.3% of cases, of which 13.9% had evidence of HMV, 73.1% received IMV ≥ 500 h and/or 40.3% were re-hospitalised with IMV. Several independent risk factors were identified (p < 0.005 each), including pre-diagnoses such as pneumothorax (OR 2.10), acute pancreatitis (OR 2.64), eating disorders (OR 1.99) or rheumatic mitral valve disease (OR 1.89). Among ICU admissions, previous dependence on an aspirator or respirator (OR 5.13), and previous tracheostomy (OR 2.17) were particularly important, while neurosurgery (OR 2.61), early tracheostomy (OR 3.97) and treatment for severe respiratory failure such as positioning treatment (OR 2.31) and extracorporeal lung support (OR 1.80) were relevant procedures in the first 96 h after intubation., Conclusion: This comprehensive analysis of health claims has identified several risk factors for the risk of long-term ventilation. In addition to the known clinical risks, the information obtained may help to identify patients at risk at an early stage. Trial registration The PRiVENT study was retrospectively registered at ClinicalTrials.gov (NCT05260853). Registered at March 2, 2022., (© 2024. The Author(s).)

Published
2024
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13. [The benefits of reading aloud in geriatric wards and institutions].

Author

Guichardet V, André L, Biehler E, and Maréchal F

Subjects
Humans, Aged, Reading, Mental Disorders
Abstract

The number of elderly patients hospitalized in geriatric wards and institutions on a temporary or more permanent basis is increasing. We know that thymic symptoms, such as depression, behavioral disorders and boredom, are common in these patients. We also know that the drug therapies used to treat these symptoms are sometimes a source of iatrogenesis and can be ineffective. That's why "non-drug" therapies are so useful. What if reading aloud could be part of the management of our elderly patients?, (Copyright © 2023 Elsevier Masson SAS. All rights reserved.)

Published
2023
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14. Gold Nanoparticles AuNP Decorated on Fused Graphene-like Materials for Application in a Hydrogen Generation.

Author

Biehler E, Quach Q, and Abdel-Fattah TM

Abstract

The search for a sustainable, alternative fuel source to replace fossil fuels has led to an increased interest in hydrogen fuel. This combustible gas is not only clean-burning but can readily be produced via the hydrolysis of sodium borohydride. The main drawback of this reaction is that the reaction occurs relatively slowly and requires a catalyst to improve efficiency. This study explored a novel composite material made by combining gold nanoparticles and fused graphene-like materials (AuFGLM) as a catalyst for generating hydrogen via sodium borohydride. The novel fused graphene-like material (FGLM) was made with a sustainable dextrose solution and by using a pressure-processing method. Imaging techniques showed that FGLM appears to be an effective support template for nanoparticles. Transmission electron microscopy (TEM), scanning electron microscopy (SEM), energy-dispersive X-ray spectroscopy (EDS), Fourier-transform infrared spectroscopy (FTIR), X-ray diffraction (XRD) and Raman spectroscopy were used to characterize and determine the size, shape, and structure of nanoparticles and composites. The TEM study characterized the fused carbon backbone as it began to take on a rounder shape. The TEM images also revealed that the average diameter of the gold nanoparticle was roughly 23 nm. The FTIR study confirmed O-H, C-C, and C=O as functional groups in the materials. The EDS analysis showed that the composite contained approximately 6.3% gold by weight. The crystal structures of FGLM and AuFGLM were identified via P-XRD analysis. Various reaction conditions were used to test the catalytic ability of AuFGLM, including various solution pHs, temperatures, and doses of NaBH 4 . It was observed that optimal reaction conditions included high temperature, an acidic solution pH, and a higher dose of NaBH 4 . The activation energy of the reaction was determined to be 45.5 kJ mol -1 , and it was found that the catalyst could be used multiple times in a row with an increased volume of hydrogen produced in ensuing trials. The activation energy of this novel catalyst is competitive compared to similar catalysts and its ability to produce hydrogen over multiple uses makes the material an exciting choice for catalyzing the hydrolysis of NaBH 4 for use as a hydrogen fuel source.

Published
2023
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15. Synthesis of Platinum Nanoparticles Supported on Fused Nanosized Carbon Spheres Derived from Sustainable Source for Application in a Hydrogen Generation Reaction.

Author

Biehler E, Quach Q, and Abdel-Fattah TM

Abstract

The dwindling supply of fossil fuels has prompted the search for an alternative energy source that could effectively replace them. Potential renewable energy sources such as solar, wind, tidal, and geothermal are all promising but each has its own drawbacks. Hydrogen gas on the other hand can be combusted to produce energy with only water as a byproduct and can be steadily generated via the aqueous media hydrolysis reaction of Sodium Borohydride (NaBH 4 ). This study successfully synthesized fused carbon spheres derived from sugar and decorated them with platinum nanoparticles to form a novel composite material (PtFCS) for catalyzing this reaction. The platinum nanoparticles were produced by reducing chloroplatinic acid in a solution with sodium borohydride and using sodium citrate as a capping agent for the nanoparticles. Transmission electron microscopy (TEM), Energy-dispersive X-ray spectroscopy (EDS), Fourier-transform infrared spectroscopy (FTIR), and X-ray diffraction (XRD) were used to characterize and determine the size and shape of the Pt nanoparticles (PtNPs) and fused carbon spheres. TEM was able to determine the average size of the fused carbon spheres to be 200 nm and the average size for the PtNPs to be 2-3 nm. The PtFCS composite was tested for its ability to catalyze the hydrolysis of NaBH 4 under various reaction conditions including various solution pH, various temperatures, and various dosages of sodium borohydride. The catalyst was found to perform the best under acidic solution conditions (pH 6), producing hydrogen at a rate of 0.0438 mL/mg cat ·min. The catalyst was determined to have an activation energy of 53.0 kJ/mol and could be used multiple times in succession with no loss in the volume of hydrogen produced. This sugar-derived composite catalyst shows promise and could be implemented as a sustainable catalyst for the generation of hydrogen fuel.

Published
2023
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16. Efficient Removal of Lead Ions from Aqueous Media Using Sustainable Sources Based on Marine Algae.

Author

Namkoong H, Biehler E, Namkoong G, and Abdel-Fattah TM

Abstract

The goal of this project is to explore a new method to efficiently remove Pb(II) ions from water by processing Undaria pinnatifida into immobilized beads using sodium alginate and calcium chloride. The resulting biosorbent was characterized by Fourier transform infrared spectroscopy (FTIR) and scanning electron microscopy coupled with energy-dispersive X-ray spectroscopy (SEM-EDS). Using immobilized U. pinnatifida , we investigated the effect of various factors on Pb(II) ion removal efficiency such as temperature, pH, ionic strength, time, and underlying biosorption mechanisms. For Pb(II) ion biosorption studies, Pb(II) ion biosorption data were obtained and analyzed using Langmuir and Freundlich adsorption models. It is found that the maximum Pb(II) ion adsorption capacity ( X m ) of U. pinnatifida was estimated to be ∼5 times greater than that of activated carbon, indicating the superior Pb(II) ion removal capability of U. pinnatifida compared to activated carbon. In addition, a thermodynamic study indicates that biosorption processes are found to be endothermic and an increase in the Pb(II) ion solution temperature provides a more preferential reaction toward Pb(II) ion biosorption., Competing Interests: The authors declare no competing financial interest., (© 2022 The Authors. Published by American Chemical Society.)

Published
2022
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17. Organo-Nanocups Assist the Formation of Ultra-Small Palladium Nanoparticle Catalysts for Hydrogen Evolution Reaction.

Author

Biehler E, Quach Q, Huff C, and Abdel-Fattah TM

Abstract

Ultra-small palladium nanoparticles were synthesized and applied as catalysts for a hydrogen evolution reaction. The palladium metal precursor was produced via beta-cyclodextrin as organo-nanocup (ONC) capping agent to produce ultra-small nanoparticles used in this study. The produced ~3 nm nanoparticle catalyst was then characterized via X-ray diffraction (XRD), transmission electron microscopy (TEM), ultraviolet-visible spectroscopy (UV-Vis), and Fourier transform infrared spectroscopy (FTIR) to confirm the successful synthesis of ~3 nm palladium nanoparticles. The nanoparticles' catalytic ability was explored via the hydrolysis reaction of sodium borohydride. The palladium nanoparticle catalyst performed best at 303 K at a pH of 7 with 925 μmol of sodium borohydride having an H 2 generation rate of 1.431 mL min -1 mL cat -1 . The activation energy of the palladium catalyst was calculated to be 58.9 kJ/mol.

Published
2022
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18. Divalent minerals decrease micellarization and uptake of carotenoids and digestion products into Caco-2 cells.

Author

Biehler E, Hoffmann L, Krause E, and Bohn T

Subjects
Biological Transport, Caco-2 Cells, Calcium metabolism, Humans, Iron metabolism, Magnesium metabolism, Micelles, Osmolar Concentration, Zinc metabolism, Carotenoids metabolism, Cations, Divalent metabolism, Digestion, Enterocytes metabolism, Intestinal Absorption, Minerals metabolism
Abstract

Carotenoids are lipophilic, dietary antioxidants with the potential to prevent chronic and age-related diseases. Prior to their availability for physiological functions, carotenoids require micellarization and intestinal uptake, both constituting marginally understood processes. Based on an in vitro digestion model coupled to Caco-2 cells, we assessed the effect of dietary abundant divalent ions on spinach-derived carotenoid micellarization and cellular uptake: Ca and Mg ranging from 7.5 to 25 mmol/L in the digesta and Zn and Fe ranging from 3.8 to 12.5 mmol/L. Both micellarization and uptake were significantly inhibited by minerals in a concentration-dependent manner, with stronger effects for Fe and Zn compared to Ca and Mg. Compared to controls (no mineral addition), fractional micellarization and uptake were decreased to the greatest extent (to 22.5 and 5.0%, respectively; P < 0.001) by 12.5 mmol/L Fe. Effects of Mg were of the least magnitude; at 25 mmol/L, only uptake was decreased significantly to 69.2% of the control value (P < 0.001). Total cellular carotenoid uptake from test meals decreased similarly compared to micellarization; however, decreased β-carotene micellarization was counterbalanced by improved fractional cellular uptakes from the micelles for all ions. Compared to controls, fractional β-carotene uptake from the micelles was greater in samples digested in the presence of Fe, Ca, and Zn, by up to 5-10 times at the highest concentrations of each ion (P < 0.001). Like for the above carotenoids, a high cellular uptake of the epoxycarotenoid conversion products neochrome (from neoxanthin) and luteoxanthin+auroxanthin (from violaxanthin) was also observed. The present results indicate that divalent ions may inhibit carotenoid micellarization and uptake.

Published
2011
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19. Comparison of 3 spectrophotometric methods for carotenoid determination in frequently consumed fruits and vegetables.

Author

Biehler E, Mayer F, Hoffmann L, Krause E, and Bohn T

Subjects
Chromatography, High Pressure Liquid methods, Humans, Insurance Benefits, Solvents, Spectrophotometry methods, Xanthophylls analysis, Carotenoids analysis, Fruit chemistry, Vegetables chemistry
Abstract

Unlabelled: Carotenoids are C-40 tetraterpenoid compounds with potential health beneficial effects. Major dietary sources include a variety of fruits and vegetables. Rapid screening methods are therefore desired, but their accuracy varies depending on the carotenoid profile and the matrix of the plant food. In the present study, 3 different methods were compared, all based on a rapid extraction protocol and spectrophotometric measurements to determine the total amount carotenoids present in fruits and vegetables (n = 28), either with or without chlorophyll. Published methods (a) Lichtenthaler and (b) Hornero-Méndez and Mínguez-Mosquera were compared with a newly developed method (method c) based on the average molar absorption coefficient (135310 Lcm(-1)mol(-1)) and wavelength (450 nm in acetone), for the 5 predominant carotenoid species (beta-carotene, zeaxanthin, lycopene, lutein, beta-cryptoxanthin) in the investigated foods. All results were compared to HPLC (method d). To avoid overestimating carotenoid concentrations due to chlorophyll A and B presence, the effect of saponification was studied for all methods. Overall, saponification led to significant carotenoid losses (12.6 +/- 0.9%). Methods a, b, c, and d yielded 5.1 +/- 0.4 mg/100 g, 4.6 +/- 0.5 mg/100 g, 4.3 +/- 0.5 mg/100 g, and 4.2 +/- 0.5 mg/100 g total carotenoids, respectively, with method a leading to significant higher mean concentrations compared to all other methods (P < 0.001, Bonferroni) with methods b and c being not significantly different and highly correlated compared to HPLC (> r = 0.95). Similar results were found when stratifying for chlorophyll content and fruits compared with vegetables, however, accuracy varied for individual fruits, highlighting the limitation to use the same method for all plant foods., Practical Application: This study presents a comparison of various rapid spectrophotometric measurements to determine total carotenoid content in various fruits and vegetables and could aid in the selection of the appropriate method for individual plant foods with different carotenoid profile and matrices.

Published
2010
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