Billion‐Fold Enhancement in Sensitivity of Nuclear Magnetic Resonance Spectroscopy for Magnesium Ions in Solution

Gottberg, A.; Stachura, Monika; Kowalska, Magdalena; Bissell, M. L.; Arcisauskaite, Vaida; Blaum, Klaus; Helmke, Alexander; Johnston, K.; Kreim, Kim Dieter; Larsen, Flemming H.; Neugart, R.; Neyens, G.; Ruiz, R. F. Garcia; Szunyogh, Dániel; Thulstrup, Peter W.; Yordanov, Deyan T.; Hemmingsen, Lars

doi:10.1002/cphc.201402619

Cited by 22 publications

(20 citation statements)

References 22 publications

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“…Thus, introduc- impact and applications ing various gases (He, Ar, and air) into the chamber, beam penetration and conservation of spin polarization during passage through the gas could be systematically tested as a function of gas pressure above the sample. The results were encouraging, demonstrating that a 61 keV 31 Mg + beam penetrates He gas in the sample chamber up to a pressure of about 0.1 mbar, and that the spin polarization is also preserved up to this pressure [5]. Although it is not quite sufficient to allow for an aqueous sample in the setup, it indicates that this should be possible with further development of the differential pumping system.…”

Section: First Measurement Of An Nmr Spectrum For Species In Solutionmentioning

confidence: 69%

“…The experiments were successful, and resonance frequencies of 31 Mg implanted into a liquid sample were recorded, vide infra. The results of this pilot study have been published recently [5]. The project has clearly required the convergence of a broad spectrum of expertise from nuclear physics over engineering to biochemistry, the cross-fertilization that may occur more or less accidently when scientists from various fields are present at a large-scale facility, and a great, independent, and passionate effort by AG and MS. For future studies along these lines, beam times for 29,31 Mg and 58,74,75 Cu have been granted at ISOLDE-CERN [44, 45], and a proposal submitted to TRI-UMF (Canada) is pending technical issues.…”

Section: How Did the Idea And Project Evolve?mentioning

confidence: 95%

“…impact and applications (some of which is conducted at large scale facilities ISOLDE [3], GANIL [6], RIKEN [7], TRIUMF [13]) [3][4][5][6][7][8][9][10][11][12][13][14]. In chemistry and biochemistry the advantages of β-NMR spectroscopy are: (1) high sensitivity, since as few as 10 5 -10 7 ions are required to record the signal and (2) access to chemical elements that are otherwise difficult to interrogate spectroscopically.…”

Section: Toward Applications Of β-Nmr Spectroscopy In Chemistry and Bmentioning

confidence: 99%

“…The sensitivity of β-NMR spectroscopy is further enhanced, as it is a radioisotope-based technique, exploiting the detection of anisotropic emission of β-particles from the spin polarized nuclei, vide infra, leading to a billion-fold or higher increase in sensitivity as compared to conventional NMR spectroscopy on stable isotopes. In addition to this, some of the elements which are problematic in conventional NMR spectroscopy, such as Mg, Ca, Cu, and Zn, already are or might be accessible with β-NMR spectroscopy [3][4][5]. Several applications of β-NMR spectroscopy in nuclear, solid state physics, and materials science have been published over the past decades [3][4][5][6][7][8][9][10][11][12][13][14] and references therein, and with the project described herein, we aim to advance the applications to solution chemistry and biochemistry [5].…”

Section: Introductionmentioning

confidence: 99%

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Toward Applications of β-NMR Spectroscopy in Chemistry and Biochemistry

Stachura

Gottberg

Kowalska

et al. 2015

Nuclear Physics News

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Section: First Measurement Of An Nmr Spectrum For Species In Solutionmentioning

confidence: 69%

Section: How Did the Idea And Project Evolve?mentioning

confidence: 95%

Section: Toward Applications Of β-Nmr Spectroscopy In Chemistry and Bmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Toward Applications of β-NMR Spectroscopy in Chemistry and Biochemistry

Stachura

Gottberg

Kowalska

et al. 2015

Nuclear Physics News

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“…In addition, the year 2012 was particularly successful for the biophysics collaboration, because a new apparatus allowing for β-NMR experiments on liquid samples was finally established at ISOLDE and tried in the world's first experiments in an ionic liquid. The results of this study will soon be published elsewhere [37].…”

Section: Ongoing Researchmentioning

confidence: 96%

CERN-MEDICIS (Medical Isotopes Collected from ISOLDE): A New Facility

Augusto¹,

Buehler²,

Lawson³

et al. 2014

Applied Sciences

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About 50% of the 1.4 GeV CERN (European Organization for Nuclear Research, www.cern.ch) protons are sent onto targets to produce radioactive beams by online mass separation at the Isotope Separator Online Device (ISOLDE) facility, for a wide range of studies in fundamental and applied physics. CERN-MEDICIS is a spin-off dedicated to R&D in life sciences and medical applications. It is located in an extension of the Class A building presently under construction. It will comprise laboratories to receive the irradiated targets from a new station located at the dump position behind the ISOLDE production targets. An increasing range of innovative isotopes will thus progressively become accessible from the start-up of the facility in 2015 onward; for fundamental studies in cancer research, for new imaging and therapy protocols in cell and animal models and for pre-clinical trials, possibly extended to specific early phase clinical studies up to Phase I trials. Five hundred megabecquerel isotope batches purified by electromagnetic mass separation combined with chemical methods will be collected on a weekly basis. A possible future upgrade with gigabecquerel pharmaceutical-grade i.e., current good manufacturing practices (cGMP) batch production capabilities is finally presented. OPEN ACCESSAppl. Sci. 2014, 4 266

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Diazirines as Potential Molecular Imaging Tags: Probing the Requirements for Efficient and Long‐Lived SABRE‐Induced Hyperpolarization

et al. 2017

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Diazirines are an attractive class of potential molecular tags for magnetic resonance imaging owing to their biocompatibility and ease of incorporation into a large variety of molecules. As recently reported, 15N2‐diazirine can be hyperpolarized by the SABRE‐SHEATH method, sustaining both singlet and magnetization states, thus offering a path to long‐lived polarization storage. Herein, we show the generality of this approach by illustrating that the diazirine tag alone is sufficient for achieving excellent signal enhancements with long‐lasting polarization. Our investigations reveal the critical role of Lewis basic additives, including water, on achieving SABRE‐promoted hyperpolarization. The application of this strategy to a 15N2‐diazirine‐containing choline derivative demonstrates the potential of 15N2‐diazirines as molecular imaging tags for biomedical applications.

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Billion‐Fold Enhancement in Sensitivity of Nuclear Magnetic Resonance Spectroscopy for Magnesium Ions in Solution

Cited by 22 publications

References 22 publications

Toward Applications of β-NMR Spectroscopy in Chemistry and Biochemistry

Toward Applications of β-NMR Spectroscopy in Chemistry and Biochemistry

CERN-MEDICIS (Medical Isotopes Collected from ISOLDE): A New Facility

Diazirines as Potential Molecular Imaging Tags: Probing the Requirements for Efficient and Long‐Lived SABRE‐Induced Hyperpolarization

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