Your search keyword '"Ananya Choudhury"' showing total 11 results

1. Tumour response to hypoxia: understanding the hypoxic tumour microenvironment to improve treatment outcome in solid tumours

Author

Kamilla JA. Bigos, Conrado G. Quiles, Sapna Lunj, Danielle J. Smith, Mechthild Krause, Esther GC. Troost, Catharine M. West, Peter Hoskin, and Ananya Choudhury

Subjects

hypoxia, tumour microenvironment, extracellular matrix, immune cells, cancer associated fibroblasts, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Hypoxia is a common feature of solid tumours affecting their biology and response to therapy. One of the main transcription factors activated by hypoxia is hypoxia-inducible factor (HIF), which regulates the expression of genes involved in various aspects of tumourigenesis including proliferative capacity, angiogenesis, immune evasion, metabolic reprogramming, extracellular matrix (ECM) remodelling, and cell migration. This can negatively impact patient outcomes by inducing therapeutic resistance. The importance of hypoxia is clearly demonstrated by continued research into finding clinically relevant hypoxia biomarkers, and hypoxia-targeting therapies. One of the problems is the lack of clinically applicable methods of hypoxia detection, and lack of standardisation. Additionally, a lot of the methods of detecting hypoxia do not take into consideration the complexity of the hypoxic tumour microenvironment (TME). Therefore, this needs further elucidation as approximately 50% of solid tumours are hypoxic. The ECM is important component of the hypoxic TME, and is developed by both cancer associated fibroblasts (CAFs) and tumour cells. However, it is important to distinguish the different roles to develop both biomarkers and novel compounds. Fibronectin (FN), collagen (COL) and hyaluronic acid (HA) are important components of the ECM that create ECM fibres. These fibres are crosslinked by specific enzymes including lysyl oxidase (LOX) which regulates the stiffness of tumours and induces fibrosis. This is partially regulated by HIFs. The review highlights the importance of understanding the role of matrix stiffness in different solid tumours as current data shows contradictory results on the impact on therapeutic resistance. The review also indicates that further research is needed into identifying different CAF subtypes and their exact roles; with some showing pro-tumorigenic capacity and others having anti-tumorigenic roles. This has made it difficult to fully elucidate the role of CAFs within the TME. However, it is clear that this is an important area of research that requires unravelling as current strategies to target CAFs have resulted in worsened prognosis. The role of immune cells within the tumour microenvironment is also discussed as hypoxia has been associated with modulating immune cells to create an anti-tumorigenic environment. Which has led to the development of immunotherapies including PD-L1. These hypoxia-induced changes can confer resistance to conventional therapies, such as chemotherapy, radiotherapy, and immunotherapy. This review summarizes the current knowledge on the impact of hypoxia on the TME and its implications for therapy resistance. It also discusses the potential of hypoxia biomarkers as prognostic and predictive indictors of treatment response, as well as the challenges and opportunities of targeting hypoxia in clinical trials.

Published

2024

2. Dose outside of the prostate is associated with improved outcomes for high-risk prostate cancer patients treated with brachytherapy boost

Author

Jane Shortall, Eliana Vasquez Osorio, Andrew Green, Alan McWilliam, Thriaviyam Elumalai, Kimberley Reeves, Corinne Johnson-Hart, William Beasley, Peter Hoskin, Ananya Choudhury, and Marcel van Herk

Subjects

radiation oncology, image based data mining, prostate, outcomes, radiotherapy, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

BackgroundOne in three high-risk prostate cancer patients treated with radiotherapy recur. Detection of lymph node metastasis and microscopic disease spread using conventional imaging is poor, and many patients are under-treated due to suboptimal seminal vesicle or lymph node irradiation. We use Image Based Data Mining (IBDM) to investigate association between dose distributions, and prognostic variables and biochemical recurrence (BCR) in prostate cancer patients treated with radiotherapy. We further test whether including dose information in risk-stratification models improves performance.MethodPlanning CTs, dose distributions and clinical information were collected for 612 high-risk prostate cancer patients treated with conformal hypo-fractionated radiotherapy, intensity modulated radiotherapy (IMRT), or IMRT plus a single fraction high dose rate (HDR) brachytherapy boost. Dose distributions (including HDR boost) of all studied patients were mapped to a reference anatomy using the prostate delineations. Regions where dose distributions significantly differed between patients that did and did-not experience BCR were assessed voxel-wise using 1) a binary endpoint of BCR at four-years (dose only) and 2) Cox-IBDM (dose and prognostic variables). Regions where dose was associated with outcome were identified. Cox proportional-hazard models with and without region dose information were produced and the Akaike Information Criterion (AIC) was used to assess model performance.ResultsNo significant regions were observed for patients treated with hypo-fractionated radiotherapy or IMRT. Regions outside the target where higher dose was associated with lower BCR were observed for patients treated with brachytherapy boost. Cox-IBDM revealed that dose response was influenced by age and T-stage. A region at the seminal vesicle tips was identified in binary- and Cox-IBDM. Including the mean dose in this region in a risk-stratification model (hazard ratio=0.84, p=0.005) significantly reduced AIC values (p=0.019), indicating superior performance, compared with prognostic variables only. The region dose was lower in the brachytherapy boost patients compared with the external beam cohorts supporting the occurrence of marginal misses.ConclusionAssociation was identified between BCR and dose outside of the target region in high-risk prostate cancer patients treated with IMRT plus brachytherapy boost. We show, for the first-time, that the importance of irradiating this region is linked to prognostic variables.

Published

2023

3. Imaging hypoxia in endometrial cancer: How and why should it be done?

Author

Nandita M. deSouza, Ananya Choudhury, Mel Greaves, James P. B. O’Connor, and Peter J. Hoskin

Subjects

hypoxia, endometrial cancer, magnetic resonance imaging (MRI), oxygen-enhanced MRI, molecular subtypes, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Published

2022

4. High weekly integral dose and larger fraction size increase risk of fatigue and worsening of functional outcomes following radiotherapy for localized prostate cancer

Author

Nuradh Joseph, Alessandro Cicchetti, Alan McWilliam, Adam Webb, Petra Seibold, Claudio Fiorino, Cesare Cozzarini, Liv Veldeman, Renée Bultijnck, Valérie Fonteyne, Christopher J. Talbot, Paul R. Symonds, Kerstie Johnson, Tim Rattay, Maarten Lambrecht, Karin Haustermans, Gert De Meerleer, Rebecca M. Elliott, Elena Sperk, Carsten Herskind, Marlon Veldwijk, Barbara Avuzzi, Tommaso Giandini, Riccardo Valdagni, David Azria, Marie-Pierre Farcy Jacquet, Marie Charissoux, Ana Vega, Miguel E. Aguado-Barrera, Antonio Gómez-Caamaño, Pierfrancesco Franco, Elisabetta Garibaldi, Giuseppe Girelli, Cinzia Iotti, Vittotorio Vavassori, Jenny Chang-Claude, Catharine M. L. West, Tiziana Rancati, and Ananya Choudhury

Subjects

prostate cancer, fatigue, radiotherapy - adverse effects, functional loss, integral dose, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

IntroductionWe hypothesized that increasing the pelvic integral dose (ID) and a higher dose per fraction correlate with worsening fatigue and functional outcomes in localized prostate cancer (PCa) patients treated with external beam radiotherapy (EBRT).MethodsThe study design was a retrospective analysis of two prospective observational cohorts, REQUITE (development, n=543) and DUE-01 (validation, n=228). Data were available for comorbidities, medication, androgen deprivation therapy, previous surgeries, smoking, age, and body mass index. The ID was calculated as the product of the mean body dose and body volume. The weekly ID accounted for differences in fractionation. The worsening (end of radiotherapy versus baseline) of European Organisation for Research and Treatment of Cancer EORTC) Quality of Life Questionnaire (QLQ)-C30 scores in physical/role/social functioning and fatigue symptom scales were evaluated, and two outcome measures were defined as worsening in ≥2 (WS2) or ≥3 (WS3) scales, respectively. The weekly ID and clinical risk factors were tested in multivariable logistic regression analysis.ResultsIn REQUITE, WS2 was seen in 28% and WS3 in 16% of patients. The median weekly ID was 13.1 L·Gy/week [interquartile (IQ) range 10.2-19.3]. The weekly ID, diabetes, the use of intensity-modulated radiotherapy, and the dose per fraction were significantly associated with WS2 [AUC (area under the receiver operating characteristics curve) =0.59; 95% CI 0.55-0.63] and WS3 (AUC=0.60; 95% CI 0.55-0.64). The prevalence of WS2 (15.3%) and WS3 (6.1%) was lower in DUE-01, but the median weekly ID was higher (15.8 L·Gy/week; IQ range 13.2-19.3). The model for WS2 was validated with reduced discrimination (AUC=0.52 95% CI 0.47-0.61), The AUC for WS3 was 0.58,ConclusionIncreasing the weekly ID and the dose per fraction lead to the worsening of fatigue and functional outcomes in patients with localized PCa treated with EBRT.

Published

2022

5. Salvage Reirradiation Options for Locally Recurrent Prostate Cancer: A Systematic Review

Author

Jim Zhong, Finbar Slevin, Andrew F. Scarsbrook, Maria Serra, Ananya Choudhury, Peter J. Hoskin, Sarah Brown, and Ann M. Henry

Subjects

prostate cancer, local recurrence, reirradiation, salvage, brachytherapy, external beam radiotherapy (EBRT), Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

BackgroundReirradiation using brachytherapy (BT) and external beam radiation therapy (EBRT) are salvage strategies with locally radiorecurrent prostate cancer. This systematic review describes the oncologic and toxicity outcomes for salvage BT and EBRT [including Stereotactic Body Radiation Therapy (SBRT)].MethodsAn International Prospective Register of Systematic Reviews (PROSPERO) registered (#211875) study was conducted using Preferred Reporting Items for Systematic reviews and Meta-analyses (PRISMA) guidelines. EMBASE and MEDLINE databases were searched from inception to December 2020. For BT, both low dose rate (LDR) and high dose rate (HDR) BT techniques were included. Two authors independently assessed study quality using the 18-item Modified Delphi technique.ResultsA total of 39 eligible studies comprising 1967 patients were included (28 BT and 11 SBRT). In 35 studies (90%), the design was single centre and/or retrospective and no randomised prospective studies were found. Twelve BT studies used LDR only, 11 HDR only, 4 LDR or HDR and 1 pulsed-dose rate only. All EBRT studies used SBRT exclusively, four with Cyberknife alone and 7 using both Cyberknife and conventional linear accelerator treatments. Median (range) modified Delphi quality score was 15 (6-18). Median (range) follow-up was 47.5 months (13-108) (BT) and 25.4 months (21-44) (SBRT). For the LDR-BT studies, the median (range) 2-year and 5-year bRFS rates were 71% (48-89.5) and 52.5% (20-79). For the HDR-BT studies, the median (range) 2-year and 5-year bRFS rates were 74% (63-89) and 51% (45-65). For the SBRT studies, the median (range) 2-year bRFS for the SBRT group was 54.9% (40-80). Mean (range) acute and late grade≥3 GU toxicity rates for LDR-BT/HDR-BT/SBRT were 7.4%(0-14)/2%(0-14)/2.7%(0-8.7) and 13.6%(0-30)/7.9%(0-21.3%)/2.7%(0-8%). Mean (range) acute and late grade≥3 GI toxicity rates for LDR-BT/HDR-BT/SBRT were 6.5%(0-19)/0%/0.5%(0-4%) and 6.4%(0-20)/0.1%(0-0.9)/0.2%(0-1.5). One third of studies included Patient Reported Outcome Measures (PROMs).ConclusionsSalvage reirradiation of radiorecurrent prostate cancer using HDR-BT or SBRT provides similar biochemical control and acceptable late toxicity. Salvage LDR-BT is associated with higher late GU/GI toxicity. Challenges exist in comparing BT and SBRT from inconsistencies in reporting with missing data, and prospective randomised trials are needed.

Published

2021

6. External Validation of a Predictive Model for Acute Skin Radiation Toxicity in the REQUITE Breast Cohort

Author

Tim Rattay, Petra Seibold, Miguel E. Aguado-Barrera, Manuel Altabas, David Azria, Gillian C. Barnett, Renée Bultijnck, Jenny Chang-Claude, Ananya Choudhury, Charlotte E. Coles, Alison M. Dunning, Rebecca M. Elliott, Marie-Pierre Farcy Jacquet, Sara Gutiérrez-Enríquez, Kerstie Johnson, Anusha Müller, Giselle Post, Tiziana Rancati, Victoria Reyes, Barry S. Rosenstein, Dirk De Ruysscher, Maria C. de Santis, Elena Sperk, Hilary Stobart, R. Paul Symonds, Begoña Taboada-Valladares, Ana Vega, Liv Veldeman, Adam J. Webb, Catharine M. West, Riccardo Valdagni, Christopher J. Talbot, REQUITE consortium, Yolande Lievens, Marc van Eijkeren, Piet Ost, Valérie Fonteyne, Christel Monten, Wilfried De Neve, Stephanie Peeters, Karin Haustermans, Caroline Weltens, Gilles Defraene, Maarten Lambrecht, Erik van Limberghen, Erik Briers, Celine Bourgier, Muriel Brengues, Roxana Draghici, Francoise Bons, Thomas Blaschke, Christian Weiß, Irmgard Helmbold, Christian Weißenberger, Petra Stegmaier, Johannes Claßen, Ulrich Giesche, Marie-Luise Sautter-Bihl, Burkhard Neu, Thomas Schnabel, Michael Ehmann, Benjamin Gauter-Fleckenstein, Carsten Herskind, Marlon Veldwijk, Jörg Schäfer, Tommaso Giandini, Marzia Franceschini, Claudia Sangalli, Barbara Avuzzi, Sara Morlino, Laura Lozza, Gabriele Pietro, Elena Delmastro, Elisabetta Garibaldi, Alessandro Cicchetti, Ben Vanneste, Bibiana Piqué-Leiva, Meritxel Molla, Alexandra Giraldo, Monica Ramos, Ramon Lobato-Busto, Paloma Sosa-Fajardo, Laura Torrado Moya, Isabel Dominguez-Rios, Irene Fajardo-Paneque, Patricia Calvo-Crespo, Ana Carballo, Paula Peleteiro, Olivia-Fuentes-Rios, Antonio Gomez-Caamano, Victoria Harrop, Debbie Payne, Manjusha Keni, Samuel Lavers, Simon Wright, Sridhar Thiagarajan, Luis Aznar-Garcia, Kiran Kancherla, Christopher Kent, Subramaniam Vasanthan, Donna Appleton, Monika Kaushik, Frances Kenny, Hazem Khout, Jaroslaw Krupa, Kelly V. Lambert, Simon Pilgrim, Sheila Shokuhi, Kalliope Valassiadou, Ion Bioangiu, Kufre Sampson, Ahmed Osman, Corinne Faivre-Finn, Karen Foweraker, Abigail Pascoe, Claire P. Esler, Tim Ward, Daniel S. Higginson, Richard G. Stock, and Sheryl Green

Subjects

validation, prediction model, early toxicity, radiotherapy, breast cancer, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Background: Acute skin toxicity is a common and usually transient side-effect of breast radiotherapy although, if sufficiently severe, it can affect breast cosmesis, aftercare costs and the patient's quality-of-life. The aim of this study was to develop predictive models for acute skin toxicity using published risk factors and externally validate the models in patients recruited into the prospective multi-center REQUITE (validating pREdictive models and biomarkers of radiotherapy toxicity to reduce side-effects and improve QUalITy of lifE in cancer survivors) study.Methods: Patient and treatment-related risk factors significantly associated with acute breast radiation toxicity on multivariate analysis were identified in the literature. These predictors were used to develop risk models for acute erythema and acute desquamation (skin loss) in three Radiogenomics Consortium cohorts of patients treated by breast-conserving surgery and whole breast external beam radiotherapy (n = 2,031). The models were externally validated in the REQUITE breast cancer cohort (n = 2,057).Results: The final risk model for acute erythema included BMI, breast size, hypo-fractionation, boost, tamoxifen use and smoking status. This model was validated in REQUITE with moderate discrimination (AUC 0.65), calibration and agreement between predicted and observed toxicity (Brier score 0.17). The risk model for acute desquamation, excluding the predictor tamoxifen use, failed to validate in the REQUITE cohort.Conclusions: While most published prediction research in the field has focused on model development, this study reports successful external validation of a predictive model using clinical risk factors for acute erythema following radiotherapy after breast-conserving surgery. This model retained discriminatory power but will benefit from further re-calibration. A similar model to predict acute desquamation failed to validate in the REQUITE cohort. Future improvements and more accurate predictions are expected through the addition of genetic markers and application of other modeling and machine learning techniques.

Published

2020

7. A Deep Learning Approach Validates Genetic Risk Factors for Late Toxicity After Prostate Cancer Radiotherapy in a REQUITE Multi-National Cohort

Author

Michela Carlotta Massi, Francesca Gasperoni, Francesca Ieva, Anna Maria Paganoni, Paolo Zunino, Andrea Manzoni, Nicola Rares Franco, Liv Veldeman, Piet Ost, Valérie Fonteyne, Christopher J. Talbot, Tim Rattay, Adam Webb, Paul R. Symonds, Kerstie Johnson, Maarten Lambrecht, Karin Haustermans, Gert De Meerleer, Dirk de Ruysscher, Ben Vanneste, Evert Van Limbergen, Ananya Choudhury, Rebecca M. Elliott, Elena Sperk, Carsten Herskind, Marlon R. Veldwijk, Barbara Avuzzi, Tommaso Giandini, Riccardo Valdagni, Alessandro Cicchetti, David Azria, Marie-Pierre Farcy Jacquet, Barry S. Rosenstein, Richard G. Stock, Kayla Collado, Ana Vega, Miguel Elías Aguado-Barrera, Patricia Calvo, Alison M. Dunning, Laura Fachal, Sarah L. Kerns, Debbie Payne, Jenny Chang-Claude, Petra Seibold, Catharine M. L. West, and Tiziana Rancati

Subjects

prostate cancer, late toxicity, snps, deep learning, autoencoder, validation, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Background: REQUITE (validating pREdictive models and biomarkers of radiotherapy toxicity to reduce side effects and improve QUalITy of lifE in cancer survivors) is an international prospective cohort study. The purpose of this project was to analyse a cohort of patients recruited into REQUITE using a deep learning algorithm to identify patient-specific features associated with the development of toxicity, and test the approach by attempting to validate previously published genetic risk factors.Methods: The study involved REQUITE prostate cancer patients treated with external beam radiotherapy who had complete 2-year follow-up. We used five separate late toxicity endpoints: ≥grade 1 late rectal bleeding, ≥grade 2 urinary frequency, ≥grade 1 haematuria, ≥ grade 2 nocturia, ≥ grade 1 decreased urinary stream. Forty-three single nucleotide polymorphisms (SNPs) already reported in the literature to be associated with the toxicity endpoints were included in the analysis. No SNP had been studied before in the REQUITE cohort. Deep Sparse AutoEncoders (DSAE) were trained to recognize features (SNPs) identifying patients with no toxicity and tested on a different independent mixed population including patients without and with toxicity.Results: One thousand, four hundred and one patients were included, and toxicity rates were: rectal bleeding 11.7%, urinary frequency 4%, haematuria 5.5%, nocturia 7.8%, decreased urinary stream 17.1%. Twenty-four of the 43 SNPs that were associated with the toxicity endpoints were validated as identifying patients with toxicity. Twenty of the 24 SNPs were associated with the same toxicity endpoint as reported in the literature: 9 SNPs for urinary symptoms and 11 SNPs for overall toxicity. The other 4 SNPs were associated with a different endpoint.Conclusion: Deep learning algorithms can validate SNPs associated with toxicity after radiotherapy for prostate cancer. The method should be studied further to identify polygenic SNP risk signatures for radiotherapy toxicity. The signatures could then be included in integrated normal tissue complication probability models and tested for their ability to personalize radiotherapy treatment planning.

Published

2020

8. The MOMENTUM Study: An International Registry for the Evidence-Based Introduction of MR-Guided Adaptive Therapy

Author

Sophie R. de Mol van Otterloo, John P. Christodouleas, Erwin L. A. Blezer, Hafid Akhiat, Kevin Brown, Ananya Choudhury, Dave Eggert, Beth A. Erickson, Corinne Faivre-Finn, Clifton D. Fuller, Joel Goldwein, Shaista Hafeez, Emma Hall, Kevin J. Harrington, Uulke A. van der Heide, Robert A. Huddart, Martijn P. W. Intven, Anna M. Kirby, Susan Lalondrelle, Claire McCann, Bruce D. Minsky, Stella Mook, Marlies E. Nowee, Uwe Oelfke, Kristina Orrling, Arjun Sahgal, Jeffrey G. Sarmiento, Christopher J. Schultz, Robbert J. H. A. Tersteeg, Rob H. N. Tijssen, Alison C. Tree, Baukelien van Triest, William A. Hall, and Helena M. Verkooijen

Subjects

MR-linac, MRI, functional imaging, radiotherapy, magnetic resonance imaging, image-guidance, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Purpose: MR-guided Radiation Therapy (MRgRT) allows for high-precision radiotherapy under real-time MR visualization. This enables margin reduction and subsequent dose escalation which may lead to higher tumor control and less toxicity. The Unity MR-linac (Elekta AB, Stockholm, Sweden) integrates a linear accelerator with a 1.5T diagnostic quality MRI and an online adaptive workflow. A prospective international registry was established to facilitate the evidence-based implementation of the Unity MR-linac into clinical practice, to systemically evaluate long-term outcomes, and to aid further technical development of MR-linac-based MRgRT.Methods and Results: In February 2019, the Multi-OutcoMe EvaluatioN of radiation Therapy Using the MR-linac study (MOMENTUM) started within the MR-linac Consortium. The MOMENTUM study is an international academic-industrial partnership between several hospitals and industry partner Elekta. All patients treated on the MR-linac are eligible for inclusion in MOMENTUM. For participants, we collect clinical patient data (e.g., patient, tumor, and treatment characteristics) and technical patient data which is defined as information generated on the MR-linac during treatment. The data are captured, pseudonymized, and stored in an international registry at set time intervals up to two years after treatment. Patients can choose to provide patient-reported outcomes and consent to additional MRI scans acquired on the MR-linac. This registry will serve as a data platform that supports multicenter research investigating the MR-linac. Rules and regulations on data sharing, data access, and intellectual property rights are summarized in an academic-industrial collaboration agreement. Data access rules ensure secure data handling and research integrity for investigators and institutions. Separate data access rules exist for academic and industry partners. This study is registered at ClinicalTrials.gov with ID: NCT04075305 (https://clinicaltrials.gov/ct2/show/NCT04075305).Conclusion: The multi-institutional MOMENTUM study has been set up to collect clinical and technical patient data to advance technical development, and facilitate evidenced-based implementation of MR-linac technology with the ultimate purpose to improve tumor control, survival, and quality of life of patients with cancer.

Published

2020

9. The MRI-Linear accelerator (MR-linac) Consortium: evidence based clinical introduction of an innovation in radiation oncology connecting researchers, methodology, data collection, quality assurance and technical development

Author

Linda G.W. Kerkmeijer, Clifton D. Fuller, Helena M. Verkooijen, Marcel Verheij, Ananya Choudhury, Kevin J. Harrington, Chris Schultz, Arjun Sahgal, Steven J. Frank, Joel Goldwein, Kevin J. Brown, Bruce D. Minsky, and Marco van Vulpen

Subjects

Radiotherapy, MRI, innovation, linear accelerator, Consortium, MR-linac, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

An international research consortium has been formed to facilitate evidence-based introduction of MR-guided radiotherapy (MR-linac) and to address how the MR-linac could be used to achieve an optimized radiation treatment approach to improve patients’ survival, local and regional tumor control, and quality of life. The present paper describes the organizational structure of the clinical part of the MR-linac consortium. Furthermore, it elucidates why collaboration on this large project is necessary and how a central data registry program will be implemented.

Published

2016

10. The MOMENTUM Study: An International Registry for the Evidence-Based Introduction of MR-Guided Adaptive Therapy

Author

Helena M. Verkooijen, Anna M. Kirby, Kristina Orrling, Baukelien van Triest, Susan Lalondrelle, Corinne Faivre-Finn, Beth Erickson, Bruce D. Minsky, Erwin L. A. Blezer, Emma Hall, Clifton D. Fuller, Kevin J. Harrington, Jeffrey G Sarmiento, Alison Tree, Joel W. Goldwein, William A. Hall, Shaista Hafeez, Christopher J. Schultz, Arjun Sahgal, Stella Mook, Claire McCann, Robert Huddart, Uwe Oelfke, Robbert J.H.A. Tersteeg, Hafid Akhiat, Dave Eggert, Martijn Intven, Ananya Choudhury, Uulke A. van der Heide, Rob H N Tijssen, Sophie R de Mol van Otterloo, John P. Christodouleas, Marlies E. Nowee, and K.J. Brown

Subjects

0301 basic medicine, Cancer Research, medicine.medical_specialty, Evidence-based practice, image-guidance, medicine.medical_treatment, MR-linac, lcsh:RC254-282, 03 medical and health sciences, 0302 clinical medicine, Quality of life (healthcare), MR-guided radiation therapy (MRgRT), medicine, magnetic resonance imaging, Medical physics, radiotherapy, functional imaging, Manchester Cancer Research Centre, business.industry, ResearchInstitutes_Networks_Beacons/mcrc, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, Radiation therapy, Data sharing, 030104 developmental biology, Workflow, Data access, adaptive radiotherapy, Oncology, 030220 oncology & carcinogenesis, General partnership, Pseudonymized, business, MRI

Abstract

Purpose: MR-guided Radiation Therapy (MRgRT) allows for high-precision radiotherapy under real-time MR visualization. This enables margin reduction and subsequent dose escalation which may lead to higher tumor control and less toxicity. The Unity MR-linac (Elekta AB, Stockholm, Sweden) integrates a linear accelerator with a 1.5T diagnostic quality MRI and an online adaptive workflow. A prospective international registry was established to facilitate the evidence-based implementation of the Unity MR-linac into clinical practice, to systemically evaluate long-term outcomes, and to aid further technical development of MR-linac-based MRgRT. Methods and Results: In February 2019, the Multi-OutcoMe EvaluatioN of radiation Therapy Using the MR-linac study (MOMENTUM) started within the MR-linac Consortium. The MOMENTUM study is an international academic-industrial partnership between several hospitals and industry partner Elekta. All patients treated on the MR-linac are eligible for inclusion in MOMENTUM. For participants, we collect clinical patient data (e.g., patient, tumor, and treatment characteristics) and technical patient data which is defined as information generated on the MR-linac during treatment. The data are captured, pseudonymized, and stored in an international registry at set time intervals up to two years after treatment. Patients can choose to provide patient-reported outcomes and consent to additional MRI scans acquired on the MR-linac. This registry will serve as a data platform that supports multicenter research investigating the MR-linac. Rules and regulations on data sharing, data access, and intellectual property rights are summarized in an academic-industrial collaboration agreement. Data access rules ensure secure data handling and research integrity for investigators and institutions. Separate data access rules exist for academic and industry partners. This study is registered at ClinicalTrials.gov with ID: NCT04075305 (https://clinicaltrials.gov/ct2/show/NCT04075305). Conclusion: The multi-institutional MOMENTUM study has been set up to collect clinical and technical patient data to advance technical development, and facilitate evidenced-based implementation of MR-linac technology with the ultimate purpose to improve tumor control, survival, and quality of life of patients with cancer.

Published

2020

11. The MRI-Linear Accelerator Consortium: Evidence-Based Clinical Introduction of an Innovation in Radiation Oncology Connecting Researchers, Methodology, Data Collection, Quality Assurance, and Technical Development

Author

Kevin J. Harrington, Arjun Sahgal, Marco van Vulpen, Marcel Verheij, Bruce D. Minsky, Christopher J. Schultz, Helena M. Verkooijen, Clifton D. Fuller, Joel W. Goldwein, K.J. Brown, Steven J. Frank, Ananya Choudhury, Linda G W Kerkmeijer, Radiation Oncology, and CCA - Evaluation of Cancer Care

Subjects

Cancer Research, medicine.medical_specialty, Evidence-based practice, consortium, MR-linac, lcsh:RC254-282, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, 0302 clinical medicine, Quality of life (healthcare), Radiation oncology, Journal Article, Medicine, Medical physics, radiotherapy, International research, Data collection, Manchester Cancer Research Centre, business.industry, ResearchInstitutes_Networks_Beacons/mcrc, linear accelerator, Tumor control, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, innovation, Engineering management, Oncology, 030220 oncology & carcinogenesis, Perspective, Organizational structure, business, Quality assurance, MRI

Abstract

An international research consortium has been formed to facilitate evidence-based introduction of MR-guided radiotherapy (MR-linac) and to address how the MR-linac could be used to achieve an optimized radiation treatment approach to improve patients' survival, local, and regional tumor control and quality of life. The present paper describes the organizational structure of the clinical part of the MR-linac consortium. Furthermore, it elucidates why collaboration on this large project is necessary, and how a central data registry program will be implemented.

Published

2016