Your search keyword '"Charlotte Gidman"' showing total 2 results

1. Development of Resorbable Phosphate-Based Glass Microspheres as MRI Contrast Media Agents

Author

Jesús Molinar-Díaz, Andi Arjuna, Nichola Abrehart, Alison McLellan, Roy Harris, Md Towhidul Islam, Ahlam Alzaidi, Chris R. Bradley, Charlotte Gidman, Malcolm J. W. Prior, Jeremy Titman, Nicholas P. Blockley, Peter Harvey, Luca Marciani, and Ifty Ahmed

Subjects

Magnetic Resonance Imaging, phosphate-based glasses, oral contrast agents, porous microspheres, resorbable materials, Organic chemistry, QD241-441

Abstract

In this research, resorbable phosphate-based glass (PBG) compositions were developed using varying modifier oxides including iron (Fe2O3), copper (CuO), and manganese (MnO2), and then processed via a rapid single-stage flame spheroidisation process to manufacture dense (i.e., solid) and highly porous microspheres. Solid (63–200 µm) and porous (100–200 µm) microspheres were produced and characterised via SEM, XRD, and EDX to investigate their surface topography, structural properties, and elemental distribution. Complementary NMR investigations revealed the formation of Q2, Q1, and Q0 phosphate species within the porous and solid microspheres, and degradation studies performed to evaluate mass loss, particle size, and pH changes over 28 days showed no significant differences among the microspheres (63–71 µm) investigated. The microspheres produced were then investigated using clinical (1.5 T) and preclinical (7 T) MRI systems to determine the R1 and R2 relaxation rates. Among the compositions investigated, manganese-based porous and solid microspheres revealed enhanced levels of R2 (9.7–10.5 s−1 for 1.5 T; 17.1–18.9 s−1 for 7 T) and R1 (3.4–3.9 s−1 for 1.5 T; 2.2–2.3 s−1 for 7 T) when compared to the copper and iron-based microsphere samples. This was suggested to be due to paramagnetic ions present in the Mn-based microspheres. It is also suggested that the porosity in the resorbable PBG porous microspheres could be further explored for loading with drugs or other biologics. This would further advance these materials as MRI theranostic agents and generate new opportunities for MRI contrast-enhancement oral-delivery applications.

Published

2024

2. POSNOC—POsitive Sentinel NOde: adjuvant therapy alone versus adjuvant therapy plus Clearance or axillary radiotherapy: a randomised controlled trial of axillary treatment in women with early-stage breast cancer who have metastases in one or two sentinel nodes

Author

Wei Tan, Luke Vale, Alastair Thompson, Alan Montgomery, Sarah Craig, Vaughan Keeley, Laura Ternent, Nisha Sharma, Eleanor Mitchell, Lelia Duley, Ian Ellis, Alistair Ring, Nicole Francis, Hannah Price, Ian White, David Dodwell, Elizabeth Miles, Rebecca Haydock, Margaret Childs, Mara Ozolins, Diane Whitham, Apostolos Fakis, David Whynes, Patricia Fairbrother, Robert Newcombe, Malcolm Reed, Daniel Davis, Tara Homer, Kathryn Monson, Ramsey Cutress, Valerie Jenkins, Lesley Fallowfield, Clare Brittain, Daniel Rea, Judith Bliss, Amit Goyal, G Bruce Mann, Robert E Coleman, Shabina Sadiq, Heath Badger, Rachel Helen Haines, Mickey Lewis, Daniel Megias, Zohal Nabi, Preetinder Singh, Andrei Caraman, Romaana Mir, Teresa Grieve, Clare Upton, Aisha Shafayat, Charlotte Gidman, Flonda Probert, Lisa Paksec, Rose Lucas, Annette Dempsey, Rochelle Thornton, Roeum Butt, Peter Barrett Lee, Julie Wolfarth, and Peter Dubsky

Subjects

Medicine

Abstract

Introduction ACOSOG-Z0011(Z11) trial showed that axillary node clearance (ANC) may be omitted in women with ≤2 positive nodes undergoing breast conserving surgery (BCS) and whole breast radiotherapy (RT). A confirmatory study is needed to clarify the role of axillary treatment in women with ≤2 macrometastases undergoing BCS and groups that were not included in Z11 for example, mastectomy and those with microscopic extranodal invasion. The primary objective of POsitive Sentinel NOde: adjuvant therapy alone versus adjuvant therapy plus Clearance or axillary radiotherapy (POSNOC) is to evaluate whether for women with breast cancer and 1 or 2 macrometastases, adjuvant therapy alone is non-inferior to adjuvant therapy plus axillary treatment, in terms of 5-year axillary recurrence.Methods and analysis POSNOC is a pragmatic, multicentre, non-inferiority, international trial with participants randomised in a 1:1 ratio. Women are eligible if they have T1/T2, unifocal or multifocal invasive breast cancer, and 1 or 2 macrometastases at sentinel node biopsy, with or without extranodal extension. In the intervention group women receive adjuvant therapy alone, in the standard care group they receive ANC or axillary RT. In both groups women receive adjuvant therapy, according to local guidelines. This includes systemic therapy and, if indicated, RT to breast or chest wall. The UK Radiotherapy Trials Quality Assurance Group manages the in-built radiotherapy quality assurance programme. Primary endpoint is 5-year axillary recurrence. Secondary outcomes are arm morbidity assessed by Lymphoedema and Breast Cancer Questionnaire and QuickDASH questionnaires; quality of life and anxiety as assessed with FACT B+4 and State/Trait Anxiety Inventory questionnaires, respectively; other oncological outcomes; economic evaluation using EQ-5D-5L. Target sample size is 1900. Primary analysis is per protocol. Recruitment started on 1 August 2014 and as of 9 June 2021, 1866 participants have been randomised.Ethics and dissemination Protocol was approved by the National Research Ethics Service Committee East Midlands—Nottingham 2 (REC reference: 13/EM/0459). Results will be submitted for publication in peer-reviewed journals.Trial registration number ISRCTN54765244; NCT0240168Cite Now

Published

2021