Your search keyword '"Day, Sarah J."' showing total 24 results

1. Kitaev Interactions Through an Extended Superexchange Pathway in the jeff = 1/2 Ru3+ Honeycomb Magnet, RuP3SiO11

Author

Abdeldaim, Aly H., Gretarsson, Hlynur, Day, Sarah J., Le, M. Duc, Stenning, Gavin B. G., Manuel, Pascal, Perry, Robin S., Tsirlin, Alexander A., Nilsen, Gøran J., and Clark, Lucy

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Materials Science

Abstract

Magnetic materials are composed of the simple building blocks of magnetic moments on a crystal lattice that interact via magnetic exchange. Yet from this simplicity emerges a remarkable diversity of magnetic states. Some reveal the deep quantum mechanical origins of magnetism, for example, quantum spin liquid (QSL) states in which magnetic moments remain disordered at low temperatures despite being strongly correlated through quantum entanglement. A promising theoretical model of a QSL is the Kitaev model, composed of unusual bond-dependent exchange interactions, but experimentally, this model is challenging to realise. Here we show that the material requirements for the Kitaev QSL survive an extended pseudo-edge-sharing superexchange pathway of Ru3+ octahedra within the honeycomb layers of the inorganic framework solid, RuP3SiO11. We confirm the requisite jeff = 1/2 state of Ru3+ in RuP3SiO11 and resolve the hierarchy of exchange interactions that provide experimental access to an unexplored region of the Kitaev model., Comment: 28 Pages, 5 figures, 1 table

Published

2024

2. Efficient electrochemical reduction of nitrate to ammonia over metal-organic framework single-atom catalysts

Author

Shan, Lutong, Ma, Yujie, Xu, Shaojun, Zhou, Meng, He, Meng, Sheveleva, Alena M., Cai, Rongsheng, Lee, Daniel, Cheng, Yongqiang, Tang, Boya, Han, Bing, Chen, Yinlin, An, Lan, Zhou, Tianze, Wilding, Martin, Eggeman, Alexander S., Tuna, Floriana, McInnes, Eric J. L., Day, Sarah J., Thompson, Stephen P., Haigh, Sarah J., Kang, Xinchen, Han, Buxing, Schröder, Martin, and Yang, Sihai

Published

2024

3. On the microscopic origin of reversible and irreversible reactions of LiNixCoyMnx cathode materials: Ni-O hybrid bond formation vs. cationic and anionic redox

Author

Kleiner, Karin, Murray, Claire A., Grosu, Cristina, Day, Sarah J., Winter, Martin, Nagel, Peter, Schuppler, Stefan, and Merz, Michael

Subjects

Condensed Matter - Materials Science

Abstract

Energy density limitations of layered oxides with different Ni contents, i.e., of the conventional cathode materials in Li-ion batteries, are investigated across the first discharge cycle using advanced spectroscopy and state-of-the-art diffraction. For the first time unambiguous experimental evidence is provided, that redox reactions in NCMs proceed via a reversible oxidation of Ni and a hybridization with O, and not, as widely assumed, via pure cationic or more recently discussed, pure anionic redox processes. Once Ni-O hybrid states are formed, the sites cannot be further oxidized. Instead, irreversible reactions set in which lead to a structural collapse and thus, the lack of ionic Ni limits the reversible capacity. Moreover, the degree of hybridization, which varies with the Ni content, triggers the electronic structure and the operation potential of the cathodes. With an increasing amount of Ni, the covalent character of the materials increases and the potential decreases.

Published

2020

4. Temperature-dependent rearrangement of gas molecules in ultramicroporous materials for tunable adsorption of CO2 and C2H2

Author

Zhang, Zhaoqiang, Chen, Yinlin, Chai, Kungang, Kang, Chengjun, Peh, Shing Bo, Li, He, Ren, Junyu, Shi, Xiansong, Han, Xue, Dejoie, Catherine, Day, Sarah J., Yang, Sihai, and Zhao, Dan

Published

2023

5. Chromium-based bcc-superalloys strengthened by iron supplements

Author

Ma, Kan, Blackburn, Thomas, Magnussen, Johan P., Kerbstadt, Michael, Ferreirós, Pedro A., Pinomaa, Tatu, Hofer, Christina, Hopkinson, David G., Day, Sarah J., Bagot, Paul A.J., Moody, Michael P., Galetz, Mathias C., and Knowles, Alexander J.

Published

2023

6. Mapping the structural transitions controlled by the trilinear coupling in Ca3-xSrxTi2O7

Author

Kratochvilova, Marie, Huang, Fei-Ting, Diaz, Maria-Teresa Fernandez, Klicpera, Milan, Day, Sarah J., Thompson, Stephen P., Oh, Yoon-Seok, Gao, Bin, Cheong, Sang-Wook, and Park, Je-Geun

Subjects

Condensed Matter - Materials Science

Abstract

We present the results of the high-temperature neutron and x-ray diffraction experiments on the Ca3-xSrxTi2O7 (x = 0.5, 0.8, 0.85, 0.9) compounds. The ferro- to paraelectric transition in these hybrid improper ferroelectric materials arises from the so-called trilinear coupling. Depending on the Strontium content, various structures and phase transitions, different from theoretical predictions, emerge. The in-situ x-ray powder diffraction indicates a direct ferro- to paraelectric transition between the orthorhombic A21am and tetragonal undistorted I4/mmm phase for x < 0.6. We identified a reduction in the trilinear coupling robustness by increasing the Sr-doping level to lead to the emergence of the intermediate tetragonal P42/mnm phase and the gradual suppression of the orthorhombic phase. The observed character of the structure transitions and the Ca3-xSrxTi2O7 phase diagram are discussed in the framework of theoretical models of other related hybrid improper ferroelectric systems., Comment: 10 pages, 3 figures, 1 table

Published

2019

7. Control of the pore chemistry in metal-organic frameworks for efficient adsorption of benzene and separation of benzene/cyclohexane

Author

Han, Yu, Chen, Yinlin, Ma, Yujie, Bailey, Jamie, Wang, Zi, Lee, Daniel, Sheveleva, Alena M., Tuna, Floriana, McInnes, Eric J.L., Frogley, Mark D., Day, Sarah J., Thompson, Stephen P., Spencer, Ben F., Nikiel, Marek, Manuel, Pascal, Crawshaw, Danielle, Schröder, Martin, and Yang, Sihai

Published

2023

8. Reversible coordinative binding and separation of sulfur dioxide in a robust metal-organic framework with open copper sites.

Author

Smith, Gemma L, Eyley, Jennifer E, Han, Xue, Zhang, Xinran, Li, Jiangnan, Jacques, Nicholas M, Godfrey, Harry GW, Argent, Stephen P, McCormick McPherson, Laura J, Teat, Simon J, Cheng, Yongqiang, Frogley, Mark D, Cinque, Gianfelice, Day, Sarah J, Tang, Chiu C, Easun, Timothy L, Rudić, Svemir, Ramirez-Cuesta, Anibal J, Yang, Sihai, and Schröder, Martin

Subjects

Nanoscience & Nanotechnology

Abstract

Emissions of SO2 from flue gas and marine transport have detrimental impacts on the environment and human health, but SO2 is also an important industrial feedstock if it can be recovered, stored and transported efficiently. Here we report the exceptional adsorption and separation of SO2 in a porous material, [Cu2(L)] (H4L = 4',4‴-(pyridine-3,5-diyl)bis([1,1'-biphenyl]-3,5-dicarboxylic acid)), MFM-170. MFM-170 exhibits fully reversible SO2 uptake of 17.5 mmol g-1 at 298 K and 1.0 bar, and the SO2 binding domains for trapped molecules within MFM-170 have been determined. We report the reversible coordination of SO2 to open Cu(II) sites, which contributes to excellent adsorption thermodynamics and selectivities for SO2 binding and facile regeneration of MFM-170 after desorption. MFM-170 is stable to water, acid and base and shows great promise for the dynamic separation of SO2 from simulated flue gas mixtures, as confirmed by breakthrough experiments.

Published

2019

9. Properties of CO$_2$ clathrate hydrates formed in the presence of MgSO$_4$ solutions with implications for icy moons

Author

Safi, E., Thompson, Stephen P., Evans, Aneurin, Day, Sarah J., Murray, C. A., Parker, J. E., Baker, A. R., Oliveira, J. M., and van Loon, J. Th.

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

There is evidence to suggest that clathrate hydrates have a significant effect on the surface geology of icy bodies in the Solar System. However the aqueous environments believed to be present on these bodies are likely to be saline rather than pure water. Laboratory work to underpin the properties of clathrates in such environments is lacking. We fill this gap by carrying out a laboratory investigation of the physical properties of CO$_2$ clathrates produced in weak aqueous solutions of MgSO$_4$. We use synchrotron X-ray powder diffraction to investigate clathrates formed at high CO$_2$ pressure in ice that has formed from aqueous solutions of MgSO$_4$. We measure the thermal expansion, density and dissociation properties of the clathrates under temperature conditions similar to those on icy Solar System bodies. We find that the sulphate solution inhibits the formation of clathrates by lowering their dissociation temperatures. Hysteresis is found in the thermal expansion coefficients as clathrates are cooled and heated; we attribute this to the presence of the salt in solution. The density derived from X-ray powder diffraction is temperature and pressure dependent. When comparing the density of CO$_2$ clathrates to that of the solution in which they formed, we conclude that they sink in the oceans in which they form. We also find that the polymorph of ice present at low temperatures is Ih rather than Ic, which we attribute to the presence of the MgSO$_4$. We 1) conclude that the clathrate density has implications for their behaviour in satellite oceans as their sinking and floating capabilities are temperature and pressure dependent, 2) conclude that the presence of MgSO$_4$ inhibits the formation of clathrates and in some cases may even affect their structure and 3) report the dominance of Ih throughout the experimental procedure despite Ic being the stable phase at low temperature., Comment: Accepted for publication by Astronomy and Astrophysics on 25 January 2017. Abstract truncated

Published

2017

10. Kitaev interactions through extended superexchange pathways in the jeff=1/2 Ru3+ honeycomb magnet RuP3SiO11.

Author

Abdeldaim, Aly H., Gretarsson, Hlynur, Day, Sarah J., Le, M. Duc, Stenning, Gavin B. G., Manuel, Pascal, Perry, Robin S., Tsirlin, Alexander A., Nilsen, Gøran J., and Clark, Lucy

Subjects

QUANTUM spin liquid, MAGNETIC materials, MAGNETIC crystals, MAGNETIC moments, QUANTUM entanglement

Abstract

Magnetic materials are composed of the simple building blocks of magnetic moments on a crystal lattice that interact via magnetic exchange. Yet from this simplicity emerges a remarkable diversity of magnetic states. Some reveal the deep quantum mechanical origins of magnetism, for example, quantum spin liquid (QSL) states in which magnetic moments remain disordered at low temperatures despite being strongly correlated through quantum entanglement. A promising theoretical model of a QSL is the Kitaev model, composed of unusual bond-dependent exchange interactions, but experimentally, this model is challenging to realise. Here we show that the material requirements for the Kitaev QSL survive an extended pseudo-edge-sharing superexchange pathway of Ru3+ octahedra within the honeycomb layers of the inorganic framework solid, RuP3SiO11. We confirm the requisite j eff = 1 2 state of Ru3+ in RuP3SiO11 and resolve the hierarchy of exchange interactions that provide experimental access to an unexplored region of the Kitaev model. Recent theoretical studies indicate that the Kitaev model may be realized in framework materials exhibiting extended superexchange pathways. Here the authors report experimental evidence showing that the material requirements for a Kitaev quantum spin liquid are satisfied in a inorganic framework material. [ABSTRACT FROM AUTHOR]

Published

2024

11. In situ apparatus for the study of clathrate hydrates relevant to solar system bodies using synchrotron X-ray diffraction and Raman spectroscopy

Author

Day, Sarah J., Thompson, Stephen P., Evans, Aneurin, and Parker, Julia E.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Earth and Planetary Astrophysics

Abstract

Clathrate hydrates are believed to play a significant role in various solar system environments, e.g. comets, and the surfaces and interiors of icy satellites, however the structural factors governing their formation and dissociation are poorly understood. We demonstrate the use of a high pressure gas cell, combined with variable temperature cooling and time-resolved data collection, to the in situ study of clathrate hydrates under conditions relevant to solar system environments. Clathrates formed and processed within the cell are monitored in situ using synchrotron X-ray powder diffraction and Raman spectroscopy. X-ray diffraction allows the formation of clathrate hydrates to be observed as CO2 gas is applied to ice formed within the cell. Complete conversion is obtained by annealing at temperatures just below the ice melting point. A subsequent rise in the quantity of clathrate is observed as the cell is thermally cycled. Four regions between 100-5000cm-1 are present in the Raman spectra that carry features characteristic of both ice and clathrate formation. This novel experimental arrangement is well suited to studying clathrate hydrates over a range of temperature (80-500K) and pressure (1-100bar) conditions and can be used with a variety of different gases and starting aqueous compositions. We propose the increase in clathrate formation observed during thermal cycling may be due to the formation of a quasi liquid-like phase that forms at temperatures below the ice melting point, but which allows easier formation of new clathrate cages, or the retention and delocalisation of previously formed clathrate structures, possibly as amorphous clathrate. The structural similarities between hexagonal ice, the quasi liquid-like phase, and crystalline CO2 hydrate mean that differences in the Raman spectrum are subtle; however, all features out to 5000cm-1 are diagnostic of clathrate structure., Comment: Astronomy & Astrophysics, in press. 6 pages

Published

2015

12. Non-aqueous formation of the calcium carbonate polymorph vaterite: astrophysical implications

Author

Day, Sarah J., Thompson, Stephen P., Parker, Julia E., and Evans, Aneurin

Subjects

Astrophysics - Solar and Stellar Astrophysics, Condensed Matter - Materials Science

Abstract

We study the formation of calcium carbonate, through the solid-gas interaction of amorphous Ca-silicate with gaseous CO2, at elevated pressures, and link this to the possible presence of calcium carbonate in a number of circumstellar and planetary environments. We use in-situ synchrotron X-Ray powder diffraction to obtain detailed structural data pertaining to the formation of the crystalline calcium carbonate phase vaterite and its evolution with temperature. We found that the metastable calcium carbonate phase vaterite was formed alongside calcite, at elevated CO2 pressure, at room temperature and subsequently remained stable over a large range of temperature and pressure. We report the formation of the calcium carbonate mineral vaterite whilst attempting to simulate carbonate dust grain formation in astrophysical environments. This suggests that vaterite could be a mineral component of carbonate dust and also presents a possible method of formation for vaterite and its polymorphs on planetary surfaces., Comment: Astronomy and Astrophysics, in press

Published

2013

13. Binding of carbon dioxide and acetylene to free carboxylic acid sites in a metal–organic framework.

Author

Marsh, Christopher, Xue Han, Zhenzhong Lu, da Silva, Ivan, Yongqiang Cheng, Daemen, Luke L., Day, Sarah J., Thompson, Stephen P., Ramirez-Cuesta, Anibal J., Sihai Yang, and Schröder, Martin

Published

2024

14. Utilising unit-cell twinning operators to reduce lattice thermal conductivity in modular structures: Structure and thermoelectric properties of Ga2O3(ZnO)9

Author

Alvarez -Ruiz, Diana T., Azough, Feridoon, Hernandez-Maldonado, David, Kepaptsoglou, Demie M., Ramasse, Quentin M., Day, Sarah J., Svec, Peter, Svec, Peter, Sr., and Freer, Robert

Published

2018

15. Structural and dynamic analysis of adsorption of sulphur dioxide in a series of Zr‐based metal‐organic frameworks

Author

Li, Jiangnan, Smith, Gemma L, Chen, Yinlin, Ma, Yujie, Kippax-jones, Meredydd, Fan, Mengtian, Lu, Wanpeng, Frogley, Mark D., Cinque, Gianfelice, Day, Sarah J., Thompson, Stephen P., Cheng, Yongqiang, Daemen, Luke L., Ramirez-cuesta, Anibal J., Schröder, Martin, and Yang, Sihai

Abstract

We report reversible high capacity adsorption of SO2 in robust Zr-based metal-organic frameworks (MOFs). Zr-bptc (H4bptc = biphenyl-3,3’,5,5’-tetracarboxylic acid) shows a high SO2 uptake of 6.2 mmol g-1 at 0.1 bar and 298 K, reflecting excellent capture capability and removal of SO2 at low concentration (2500 ppm). Dynamic breakthrough experiments confirm that the introduction of amine, atomically-dispersed Cu(II) or heteroatomic sulphur sites into the pores enhance the capture of SO2 at low concentrations. The captured SO2 can be converted quantitatively to a pharmaceutical intermediate, aryl N-aminosulfonamide, thus converting waste to chemical values. In situ X-ray diffraction, infrared micro-spectroscopic and inelastic neutron scattering enable the visualisation of the binding domains of adsorbed SO2 molecules and host-guest binding dynamics in these materials at the atomic level. The refinement of pore environment plays a critical role in designing efficient sorbent materials.

Published

2022

16. Temperature-dependent rearrangement of gas molecules in ultramicroporous materials for tunable adsorption of CO2 and C2H2.

Author

Zhang, Zhaoqiang, Chen, Yinlin, Chai, Kungang, Kang, Chengjun, Peh, Shing Bo, Li, He, Ren, Junyu, Shi, Xiansong, Han, Xue, Dejoie, Catherine, Day, Sarah J., Yang, Sihai, and Zhao, Dan

Subjects

GAS dynamics, ADSORPTION (Chemistry), MOLECULAR recognition, MOLECULES, METAL-organic frameworks

Abstract

The interactions between adsorbed gas molecules within porous metal-organic frameworks are crucial to gas selectivity but remain poorly explored. Here, we report the modulation of packing geometries of CO2 and C2H2 clusters within the ultramicroporous CUK-1 material as a function of temperature. In-situ synchrotron X-ray diffraction reveals a unique temperature-dependent reversal of CO2 and C2H2 adsorption affinities on CUK-1, which is validated by gas sorption and dynamic breakthrough experiments, affording high-purity C2H2 (99.95%) from the equimolar mixture of C2H2/CO2 via a one-step purification process. At low temperatures (<253 K), CUK-1 preferentially adsorbs CO2 with both high selectivity (>10) and capacity (170 cm3 g−1) owing to the formation of CO2 tetramers that simultaneously maximize the guest-guest and host-guest interactions. At room temperature, conventionally selective adsorption of C2H2 is observed. The selectivity reversal, structural robustness, and facile regeneration of CUK-1 suggest its potential for producing high-purity C2H2 by temperature-swing sorption. Guest clusters within confined nanospaces have a significant impact on molecular recognition. Here authors highlight the potential to systematically control gas-cluster rearrangement, leading to tunable sorption and separation behaviour in a MOF. [ABSTRACT FROM AUTHOR]

Published

2023

17. Reversible coordinative binding and separation of sulphur dioxide in a robust 3 metal-organic framework with open copper sites

Author

Smith, Gemma, Eyley, Jennifer, Zhang, Xinran, Li, Jiangnan, Jacques, Nicholas, Godfrey, Harry, Argent, Stephen P., McCormick, Laura J., Teat, Simon J., Cheng, Yongqiang, Frogley, Mark D., Cinque, Gianfelice, Day, Sarah J., Tang, Chiu C., Easun, Timothy L., Rudić, Svemir, Ramirez-Cuesta, Anibal J., Yang, Sihai, and Schroder, Martin

Abstract

Emissions of sulphur dioxide (SO2) from flue gas and marine transport have detrimental impacts on the environment and human health, but SO2 is also an important industrial feedstock if it can be recovered, stored and transported efficiently. Here we report the exceptional adsorption and separation of SO2 in a porous material, [Cu2(L)] (H4L = 4',4'-(pyridine-3,5-diyl)bis([1,1'-biphenyl]-3,5-dicarboxylic acid), MFM-170. MFM-170 exhibits fully reversible SO2 uptake of 17.5 mmol g-1 at 298 K, 1.0 bar, and the SO2 binding domains for trapped molecules within MFM-170 have been determined. Significantly, we report reversible co-ordination of SO2 to open Cu(II) sites in a porous material, contributing to excellent adsorption thermodynamics and selectivities for SO2 binding, as well as facile regeneration of MFM-170 post adsorption. MFM-170 is stable to water, acid and base and shows significant promise for the dynamic separation of SO2 from simulated flue gas mixtures, as confirmed by breakthrough experiments.

Published

2019

18. Additional collection devices used in conjunction with the SurePath Liquid-Based Pap Test broom device do not enhance diagnostic utility

Author

O'Connor Jason C, O'Shaughnessy Darla L, Day Sarah J, and Freund Gregory G

Subjects

Gynecology and obstetrics, RG1-991, Public aspects of medicine, RA1-1270

Abstract

Abstract Background We have previously shown that use of an EC brush device in combination with the Rovers Cervex-Brush (SurePath broom) offered no significant improvement in EC recovery. Here we determine if use of additional collection devices enhance the diagnostic utility of the SurePath Pap for gynecologic cytology. Methods After informed consent, 37 women ages 18–56 receiving their routine cervical examinations were randomized into four experimental groups. Each group was first sampled with the SurePath broom then immediately re-sampled with an additional collection device or devices. Group 1: Rover endocervix brush (n = 8). Group 2: Medscand CytoBrush Plus GT (n = 7). Group 3: Rover spatula + endocervix brush (n = 11). Group 4: Medscand spatula + CytoBrush Plus GT (n = 11). Results Examination of SurePath broom-collected cytology yielded the following abnormal diagnoses: atypia (n = 2), LSIL (n = 5) and HSIL (n = 3). Comparison of these diagnoses to those obtained from paired samples using the additional collection devices showed that use of a second and or third device yielded no additional abnormal diagnoses. Importantly, use of additional devices did not improve upon the abnormal cell recovery of the SurePath broom and in 4/10 cases under-predicted or did not detect the SurePath broom-collected lesion as confirmed by cervical biopsy. Finally, in 36/37 cases, the SurePath broom successfully recovered ECs. Use of additional devices, in Group 3, augmented EC recovery to 37/37. Conclusions Use of additional collection devices in conjunction with the SurePath broom did not enhance diagnostic utility of the SurePath Pap. A potential but not significant improvement in EC recovery might be seen with the use of three devices.

Published

2004

19. In situ apparatus for the study of clathrate hydrates relevant to solar system bodies using synchrotron X-ray diffraction and Raman spectroscopy

Author

Day, Sarah J., primary, Thompson, Stephen P., additional, Evans, Aneurin, additional, and Parker, Julia E., additional

Published

2015

20. Thermal processing and crystallization of amorphous Mg-Ca silicates

Author

Day, Sarah J., primary, Thompson, Stephen P., additional, Evans, Aneurin, additional, Parker, Julia E., additional, Connor, Leigh D., additional, and Tang, Chiu C., additional

Published

2013

21. Collection of the BD SurePath Pap Test with a broom device plus endocervical brush improves disease detection when compared to the broom device alone or the spatula plus endocervical brush combination

Author

Davis-Devine, Sharon, primary, Day, Sarah J., additional, Anderson, Amy, additional, French, Ashley, additional, Madison-Henness, Darcy, additional, Mohar, Naomi, additional, Tansy, Danielle, additional, Hiremath, Adarsh, additional, Douglas, Jeffrey A., additional, and Freund, Gregory G., additional

Published

2008

22. Collection of the BD SurePath Pap Test with a broom device plus endocervical brush improves disease detection when compared to the broom device alone or the spatula plus endocervical brush combination.

Author

Davis-Devine, Sharon, Day, Sarah J., Anderson, Amy, French, Ashley, Madison-Henness, Darcy, Mohar, Naomi, Tansy, Danielle, Hiremath, Adarsh, Douglas, Jeffrey A., and Freund, Gregory G.

Subjects

*CERVIX uteri, *MEDICAL equipment, *CYTOLOGY, *WOMEN'S health, *META-analysis

Abstract

Objective: Here we examine the diagnostic utility of the US Food And Drug Administration (FDA) approved Spatula + endocervical brush combination for the BD SurePath Pap Test (SPPT) and compare it to SPPT collection with the broom alone or to an off-label combination of broom + EC brush. This question is important due to lingering concerns over the value of EC detection to a satisfactory Pap test. Methods: 20,125 SPPT vials were examined for the collection devices contained. The SPPT collection device combinations allowed were: Rovers Cervex-Brush (broom, FDA approved), Medscand Pap Perfect Spatula + Medscand CytoBrush Plus GT (spatula + GT brush, FDA approved) or Rovers Cervex-Brush + Surgipath C-E Brush (broom + CE brush, off label). Results: Examination of SPPT vials revealed 11,130 collected with the broom, 4,687 collected with the spatula + GT brush and 2,921 collected with the broom + CE brush. Absence of an endocervical/transformation zone was seen in 22.86% of broom cases, 13.10% of spatula + GT brush cases (p= 0.00005 vs broom) and 10.17% of broom + CE brush cases (p= 0.00005 vs broom, p= 0.00005 vs spatula + GT brush). Importantly, LSIL detection was: broom 2.99%; spatula + GT brush 2.45% (p= 0.053 vs broom); broom + CE brush 4.18% (p= 0.034 vs broom, p= 0.0001 vs spatula + GT brush). Conclusion: When broom + brush combination is compared to broom alone or to spatula + GT brush, the broom + CE brush combination better sampled the endocervical/ transformation zone and increased LSIL detection. [ABSTRACT FROM AUTHOR]

Published

2009

23. Additional collection devices used in conjunction with the SurePath Liquid-Based Pap Test broom device do not enhance diagnostic utility.

Author

Day, Sarah J., O'Shaughnessy, Darla L., O'Connor, Jason C., and Freund, Gregory G.

Subjects

*MEDICAL equipment, *PAP test, *CERVIX uteri, *DIAGNOSIS, *CYTOLOGY

Abstract

Background: We have previously shown that use of an EC brush device in combination with the Rovers Cervex-Brush (SurePath broom) offered no significant improvement in EC recovery. Here we determine if use of additional collection devices enhance the diagnostic utility of the SurePath Pap for gynecologic cytology. Methods: After informed consent, 37 women ages 18-56 receiving their routine cervical examinations were randomized into four experimental groups. Each group was first sampled with the SurePath broom then immediately re-sampled with an additional collection device or devices. Group 1: Rover endocervix brush (n = 8). Group 2: Medscand CytoBrush Plus GT (n = 7). Group 3: Rover spatula + endocervix brush (n = 11). Group 4: Medscand spatula + CytoBrush Plus GT (n = 11). Results: Examination of SurePath broom-collected cytology yielded the following abnormal diagnoses: atypia (n = 2), LSIL (n = 5) and HSIL (n = 3). Comparison of these diagnoses to those obtained from paired samples using the additional collection devices showed that use of a second and or third device yielded no additional abnormal diagnoses. Importantly, use of additional devices did not improve upon the abnormal cell recovery of the SurePath broom and in 4/10 cases under-predicted or did not detect the SurePath broom-collected lesion as confirmed by cervical biopsy. Finally, in 36/37 cases, the SurePath broom successfully recovered ECs. Use of additional devices, in Group 3, augmented EC recovery to 37/37. Conclusions: Use of additional collection devices in conjunction with the SurePath broom did not enhance diagnostic utility of the SurePath Pap. A potential but not significant improvement in EC recovery might be seen with the use of three devices. [ABSTRACT FROM AUTHOR]

Published

2004

24. From formulation to structure: 3D electron diffraction for the structure solution of a new indomethacin polymorph from an amorphous solid dispersion.

Author

Leung HW, Copley RCB, Lampronti GI, Day SJ, Saunders LK, Johnstone DN, and Midgley PA

Abstract

3D electron diffraction (3DED) is increasingly employed to determine molecular and crystal structures from micro-crystals. Indomethacin is a well known, marketed, small-molecule non-steroidal anti-inflammatory drug with eight known polymorphic forms, of which four structures have been elucidated to date. Using 3DED, we determined the structure of a new ninth polymorph, σ, found within an amorphous solid dispersion, a product formulation sometimes used for active pharmaceutical ingredients with poor aqueous solubility. Subsequently, we found that σ indomethacin can be produced from direct solvent evaporation using dichloromethane. These results demonstrate the relevance of 3DED within drug development to directly probe product formulations., (open access.)

Published

2024