Your search keyword '"17o"' showing total 12 results

1. Visualization of distribution in the vitreous cavity via eye drops using ultra-heavily T2-weighted sequences in MRI: a preliminary study with enucleated pig eyes.

Author

Kato Y, Yuki K, Nishiguchi K, and Naganawa S

Subjects

Animals, Swine, Contrast Media chemistry, Eye Enucleation, Organometallic Compounds, Vitreous Body diagnostic imaging, Magnetic Resonance Imaging methods, Ophthalmic Solutions

Abstract

We investigated whether magnetic resonance imaging can visualize the distribution in the vitreous cavity via eye drops of ophthalmic solutions, gadolinium-based contrast agent, and 17 O-water, and to clarify the usefulness of ultra-heavily T2-weighted sequences in the research of intraocular distribution. Five different solutions (V-ROHTO, TRAVATANZ, gadobutrol, H 2 17 O, and saline) were administered to excised pig eye specimens. The samples were scanned using T1 mapping, T2 mapping, 3D T2-weighted (echo times (TE): 500, 3200, and 4500 ms), a half-Fourier single-shot turbo-spin echo sequence (HASTE; TE: 440 and 3000 ms), and 3D-real inversion-recovery before eye drops administration. Subsequently, we used a plastic dropper to drop a 0.5 mL solution each, and images were obtained up to 26 h later. Temporal changes in the T1 and T2 values of the anterior chamber and vitreous cavity were compared. The other sequences were evaluated by determining temporal signal changes as signal intensity ratio (SIR) compared to "No drop." The T1 and T2 values of samples treated with gadobutrol and H 2 17 O decreased over time. The SIR of samples treated with gadobutrol and H 2 17 O showed remarkable changes in the 3D T2-weighted images, whereas no remarkable temporal changes were observed in the other solutions. Longer TEs resulted in remarkable changes. We demonstrated that visualization of distribution in the vitreous cavity via eye drops could be achieved with excised pig eyes using gadobutrol and H 2 17 O, but not with ophthalmic solutions. Ultra-heavily T2-weighted sequences may be promising for the early and highly sensitive visualization of the intraocular distribution of eye drops., (© 2024. The Author(s).)

Published

2024

2. Probing oxygen exchange between UiO-66(Zr) MOF and water using 17 O solid-state NMR.

Author

Venel F, Giovine R, Laurencin D, Špačková J, Mittelette S, Métro TX, Volkringer C, Lafon O, and Pourpoint F

Abstract

The Zr-based Metal Organic Framework (MOF) UiO-66(Zr) is widely employed owing to its good thermal and chemical stabilities. Although the long-range structure of this MOF is preserved in the presence of water during several days, little is known about the formation of defects, which cannot be detected using diffraction techniques. We apply here 17 O solid-state NMR spectroscopy at 18.8 T to investigate the reactivity of UiO-66, through the exchange of oxygen atoms between the different sites of the MOF and water. For that purpose, we have selectively enriched in 17 O isotope the carboxylate groups of UiO-66(Zr) by using it with 17 O-labeled terephthalic acid prepared using mechanochemistry. In the presence of water at 50 °C and a following dehydration at 150 °C, we observe an overall exchange of O atoms between COO - and μ 3 -O 2- sites. Furthermore, we demonstrate that the three distinct oxygen sites, μ 3 -OH, μ 3 -O 2- and COO - , of UiO-66(Zr) MOF can be enriched in 17 O isotope by post-synthetic hydrothermal treatment in the presence of 17 O-enriched water. These results demonstrate the lability of Zr-O bonds and the reactivity of UiO-66(Zr) with water., (© 2024 The Authors. Chemistry - A European Journal published by Wiley-VCH GmbH.)

Published

2024

3. Balancing precision and throughput of δ 17 O and Δ' 17 O analysis of natural waters by Cavity Ringdown Spectroscopy.

Author

Terzer-Wassmuth S, Wassenaar LI, Araguás-Araguás LJ, and Stumpp C

Abstract

δ 17 O and Δ' 17 O are emerging tracers increasingly used in isotope hydrology, climatology, and biochemistry. Differentiating small relative abundance changes in the rare 17 O isotope from the strong covariance with 18 O imposes ultra-high precision requirements for this isotope analysis. Measurements of δ 17 O by Cavity Ringdown Spectroscopy (CRDS) are attractive due to the ease of sample preparation, automated throughput, and avoidance of chemical conversions needed for isotope-ratio mass spectrometry. However, the CRDS approach requires trade-offs in measurement precision and uncertainty. In this protocol document, we present the following:•New analytical procedures and a software tool for conducting δ 17 O and Δ' 17 O measurements by CRDS.•Outline a robust uncertainty framework for Δ' 17 O determinations.•Description of a CRDS performance framework for optimizing throughput, instrumental stability, and Δ' 17 O measurement precision and accuracy., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2023 International Atomic Energy Agency. Published by Elsevier B.V.)

Published

2023

4. 17 O Hyperfine Spectroscopy Reveals Hydration Structure of Nitroxide Radicals in Aqueous Solutions.

Author

Hecker F, Fries L, Hiller M, Chiesa M, and Bennati M

Subjects

Electron Spin Resonance Spectroscopy, Solutions, Free Radicals, Nitrogen Oxides chemistry, Water

Abstract

The hydration structure of nitroxide radicals in aqueous solutions is elucidated by advanced 17 O hyperfine (hf) spectroscopy with support of quantum chemical calculations and MD simulations. A piperidine and a pyrrolidine-based nitroxide radical are compared and show clear differences in the preferred directionality of H-bond formation. We demonstrate that these scenarios are best represented in 17 O hf spectra, where in-plane coordination over σ ${\sigma }$ -type H-bonding leads to little spin density transfer on the water oxygen and small hf couplings, whereas π ${{\rm \pi }}$ -type perpendicular coordination generates much larger hf couplings. Quantitative analysis of the spectra based on MD simulations and DFT predicted hf parameters is consistent with a distribution of close solvating water molecules, in which directionality is influenced by subtle steric effects of the ring and the methyl group substituents., (© 2022 The Authors. Angewandte Chemie International Edition published by Wiley-VCH GmbH.)

Published

2023

5. 17 O solid-state NMR at ultrahigh magnetic field of 35.2 T: Resolution of inequivalent oxygen sites in different phases of MOF MIL-53(Al).

Author

Martins V, Xu J, Hung I, Gan Z, Gervais C, Bonhomme C, and Huang Y

Abstract

MIL-53(Al) is a member of the most extensively studied metal-organic framework (MOF) families owing to its "flexible" framework and superior stability. 17 O solid-state NMR (SSNMR) spectroscopy is an ideal site-specific characterization tool as it probes local oxygen environments. Because oxygen local structure is often altered during phase change, 17 O SSNMR can be used to follow phase transitions. However, 17 O is a challenging nucleus to study via SSNMR due to its low sensitivity and resolution arising from the very low natural abundance of 17 O isotope and its quadrupolar nature. In this work, we describe that by using 17 O isotopic enrichment and performing 17 O SSNMR experiments at an ultrahigh magnetic field of 35.2 T, all chemically and crystallographically inequivalent oxygen sites in two representative MIL-53(Al) (as-made and water adsorbed) phases can be completely resolved. The number of signals in each phase is consistent with that predicted from the space group refined from powder X-ray diffraction data. The 17 O 1D magic-angle spinning (MAS) and 2D triple-quantum MAS (3QMAS) spectra at 35.2 T furnish fine information about the host-guest interactions and the structural changes associated with phase transition. The ability to completely resolve multiple chemically and crystallographically inequivalent oxygen sites in MOFs at very high magnetic field, as illustrated in this work, significantly enhances the potential for using the NMR crystallography approach to determine crystal structures of new MOFs and verify the structures of existing MOFs obtained from refining powder X-ray diffraction data., (© 2020 John Wiley & Sons, Ltd.)

Published

2021

6. Labeling and Probing the Silica Surface Using Mechanochemistry and 17 O NMR Spectroscopy*.

Author

Chen CH, Mentink-Vigier F, Trébosc J, Goldberga I, Gaveau P, Thomassot E, Iuga D, Smith ME, Chen K, Gan Z, Fabregue N, Métro TX, Alonso B, and Laurencin D

Abstract

In recent years, there has been increasing interest in developing cost-efficient, fast, and user-friendly 17 O enrichment protocols to help to understand the structure and reactivity of materials by using 17 O NMR spectroscopy. Here, we show for the first time how ball milling (BM) can be used to selectively and efficiently enrich the surface of fumed silica, which is widely used at industrial scale. Short milling times (up to 15 min) allowed modulation of the enrichment level (up to ca. 5 %) without significantly changing the nature of the material. High-precision 17 O compositions were measured at different milling times by using large-geometry secondary-ion mass spectrometry (LG-SIMS). High-resolution 17 O NMR analyses (including at 35.2 T) allowed clear identification of the signals from siloxane (Si-O-Si) and silanols (Si-OH), while DNP analyses, performed by using direct 17 O polarization and indirect 17 O{ 1 H} CP excitation, agreed with selective labeling of the surface. Information on the distribution of Si-OH environments at the surface was obtained from 2D 1 H- 17 O D-HMQC correlations. Finally, the surface-labeled silica was reacted with titania and using 17 O DNP, their common interface was probed and Si-O-Ti bonds identified., (© 2021 The Authors. Chemistry - A European Journal published by Wiley-VCH GmbH.)

Published

2021

7. Probing Interactions of γ-Alumina with Water via Multinuclear Solid-State NMR Spectroscopy.

Author

Shen L, Wang Y, Du JH, Chen K, Lin Z, Wen Y, Hung I, Gan Z, and Peng L

Abstract

Interaction of γ-alumina with water are important in controlling its structure and catalytic properties. We apply solid-state multinuclear NMR spectroscopy to investigate this interaction by monitoring 1 H and 17 O spectra in real-time. Surface-selective detection is made possible by adsorbing 17 O-enriched water on γ-alumina nanorods. Structural evolution on the surface was selectively probed by 1 H/ 17 O double resonance NMR and 27 Al NMR at ultrahigh 35.2 T magnetic field. Formation of hydroxyl species on the surface of nanorods is rapid upon the exposure of water, which involves low coordinated aluminum ions with doubly bridging and isolated hydroxyl species being generated first. Fast exchange occurs between oxygen atoms in the water molecules and bare surface sites, indicating high reactivity of these oxygen species. These results provide new insights into the structure and dynamics on the surface of γ-alumina and the methods applied here can be extended to study the interaction of other oxides with water.

Published

2020

8. Indirect Proton MR Imaging and Kinetic Analysis of 17 O-Labeled Water Tracer in the Brain.

Author

Kudo K, Harada T, Kameda H, Uwano I, Yamashita F, Higuchi S, Yoshioka K, and Sasaki M

Subjects

Adult, Feasibility Studies, Humans, Imaging, Three-Dimensional methods, Kinetics, Male, Prospective Studies, Protons, Reference Values, Sodium Chloride administration & dosage, Subarachnoid Space, Water, Young Adult, Brain diagnostic imaging, Magnetic Resonance Imaging methods, Oxygen Isotopes pharmacokinetics

Abstract

Purpose: The feasibility of steady-state sequences for 17 O imaging was evaluated based on a kinetic analysis of the brain parenchyma and cerebrospinal fluid (CSF)., Materials and Methods: The institutional review board approved this prospective study with written informed consent. Dynamic 2D or 3D steady-state sequences were performed in five and nine participants, respectively, with different parameters using a 3T scanner. During two consecutive dynamic scans, saline was intravenously administered for control purposes in the first scan, and 20% 17 O-labeled water (1 mL/Kg) was administered in the second scan. Signal changes relative to the baseline were calculated, and kinetic analyses of the curves were conducted for all voxels. Region of interest analysis was performed in the brain parenchyma, choroid plexus, and CSF spaces., Results: Average signal drops were significantly larger in the 17 O group than in the controls for most of the imaging parameters. Different kinetic parameters were observed between the brain parenchyma and CSF spaces. Average and maximum signal drops were significantly larger in the CSF spaces and choroid plexus than in the brain parenchyma. Bolus arrival, time to peak, and the first moment of dynamic curves of 17 O in the CSF space were delayed compared to that in the brain parenchyma. Significant differences between the ventricle and subarachnoid space were also noted., Conclusion: Steady-state sequences are feasible for indirect 17 O imaging with reasonable temporal resolution; this result is potentially important for the analysis of water kinetics and aquaporin function for several disorders.

Published

2018

9. Nonrainfall water origins and formation mechanisms.

Author

Kaseke KF, Wang L, and Seely MK

Abstract

Dryland ecosystems cover 40% of the total land surface on Earth and are defined broadly as zones where precipitation is considerably less than the potential evapotranspiration. Nonrainfall waters (for example, fog and dew) are the least-studied and least-characterized components of the hydrological cycle, although they supply critical amounts of water for dryland ecosystems. The sources of nonrainfall waters are largely unknown for most systems. In addition, most field and modeling studies tend to consider all nonrainfall inputs as a single category because of technical constraints, which hinders prediction of dryland responses to future warming conditions. This study uses multiple stable isotopes ( 2 H, 18 O, and 17 O) to show that fog and dew have multiple origins and that groundwater in drylands can be recycled via evapotranspiration and redistributed to the upper soil profile as nonrainfall water. Surprisingly, the non-ocean-derived (locally generated) fog accounts for more than half of the total fog events, suggesting a potential shift from advection-dominated fog to radiation-dominated fog in the fog zone of the Namib Desert. This shift will have implications on the flora and fauna distribution in this fog-dependent system. We also demonstrate that fog and dew can be differentiated on the basis of the dominant fractionation (equilibrium and kinetic) processes during their formation using the 17 O- 18 O relationship. Our results are of great significance in an era of global climate change where the importance of nonrainfall water increases because rainfall is predicted to decline in many dryland ecosystems.

Published

2017

10. Natural abundant (17) O NMR in a 1.5-T Halbach magnet.

Author

Sørensen MK, Bakharev ON, Jensen O, and Nielsen NC

Subjects

Acetone analysis, Electromagnetic Fields, Equipment Design, Ethanol analysis, Food Analysis, Neodymium, Oxygen Isotopes, Water analysis, Water Purification, Electromagnetic Phenomena, Magnetic Resonance Spectroscopy instrumentation, Magnets

Abstract

We present mobile, low-field (17) O NMR as a means for monitoring oxygen in liquids. Whereas oxygen is one of the most important elements, oxygen NMR is limited by a poor sensitivity related to low natural abundance and gyro-magnetic ratio of the NMR active (17) O isotope. Here, we demonstrate (17) O NMR detection at a Larmor frequency of 8.74 MHz in a 1.5-T Halbach neodymium magnet with a home-built digital NMR instrument suitable for large-scale production and in-line monitoring applications. The proposed (17) O NMR sensor may be applied for direct, noninvasive measurements of water content in, for example, oil, manure, or food in automated quality or process control. Copyright © 2015 John Wiley & Sons, Ltd., (Copyright © 2015 John Wiley & Sons, Ltd.)

Published

2016

11. Investigation of the resonance-assisted hydrogen bond in model β-diketones through localized molecular orbital analysis of the spin-spin coupling constants related to the O-H···O hydrogen bond.

Author

Zarycz MN and Provasi PF

Subjects

Hydrogen Bonding, Models, Molecular, Ketones chemistry, Magnetic Resonance Spectroscopy methods

Abstract

The resonance-assisted hydrogen bond (HB) phenomenon has been studied theoretically by a localized molecular orbital (LMO) decomposition of the spin-spin coupling constants between atoms either involved or close to the O-H···O system of some β-diketones and their saturated counterparts. The analysis, carried out at the level of the second-order polarization propagator approximation, shows that the contributions in terms of LMO to the paramagnetic spin orbital and the spin dipolar Ramsey terms proof the importance of the delocalized π-electron structure supporting the idea of the existence of the resonance-assisted HB phenomenon phenomenon. The LMO contributions to the Fermi contact term indicate mainly the presence of the HB that may or not be linked to the π-electrons., (Copyright © 2014 John Wiley & Sons, Ltd.)

Published

2015

12. Ligand-based molecular MRI: O-17 JJVCPE amyloid imaging in transgenic mice.

Author

Suzuki K, Igarashi H, Huber VJ, Kitaura H, Kwee IL, and Nakada T

Subjects

Animals, Brain pathology, Mice, Mice, Transgenic, Organ Specificity, Oxygen Isotopes pharmacokinetics, Radiopharmaceuticals pharmacokinetics, Tissue Distribution, Amyloidogenic Proteins metabolism, Aniline Compounds pharmacokinetics, Brain metabolism, Magnetic Resonance Imaging methods, Molecular Imaging methods, Thiazoles pharmacokinetics

Abstract

Background: Development of molecular MR imaging (MRI) similar to PET imaging using contrast agents such as gadolinium as probe have been inherently hampered by incompatibility between potential probe (charged molecules) and membrane permeability. Nevertheless, considering the inherent spatial resolution limit for PET of 700μ, the superior microscopic resolution of MRI of 4 μ presents a strong incentive for research into ligand-based molecular MRI., Methods: (17) O exhibits JJ vicinal coupling with a covalently bound proton in a hydroxyl group. This (17) O coupled proton can be ionized in water solution and interexchange with other water protons. This property can be utilized as "probe" in T2-weighted imaging and developed into ligand-based molecular MRI. We examined β-amyloid distribution in human APP overexpressed transgenic mice in vivo following injection of (17) O labeled Pittsburg compound B ((17) O-PiB)., Results: JJVCPE imaging successfully imaged (17) O-PiB, unequivocally establishing that (17) O JJVCPE imaging can be developed into PET-like molecular MRI in clinical medicine., Conclusions: The study represents the first successful ligand-based molecular MRI in vivo. This is also the first in vivo amyloid imaging using MRI. High-resolution molecular MRI with high specificity under clinical settings, such as in vivo microscopic imaging of senile plaque, is a foreseeable aim., (Copyright © 2014 The Authors. Journal of Neuroimaging published by the American Society of Neuroimaging.)

Published

2014