grant

ARCHERY: Artificial Intelligence based Radiotherapy treatment planning for Cervical and Head and Neck cancer

Organization UNIVERSITY COLLEGE LONDONLocation LONDON, UNITED KINGDOMPosted 1 Sept 2022Deadline 31 Aug 2027
NIHUS FederalResearch GrantFY2025AI basedAI systemAddressAnatomic SitesAnatomic structuresAnatomyAreaArtificial IntelligenceAutomationBreastCAT scanCT X RayCT XrayCT imagingCT scanCancer BurdenCancer CenterCancer HospitalCancer PatientCancer TreatmentCancersCervicalCervical CancerCervix CancerComputed TomographyComputer ReasoningComputer softwareCost SavingsCountryDiseaseDisorderEconomic IncomeEconomical IncomeEffectivenessEnsureEsophageal CancerEsophagus CancerEuropeanFederation of MalayaFutureHead and Neck CancerHead and Neck CarcinomaHealth StatusHuman ResourcesImprove AccessIncidenceIncomeIndiaInternationalJordanLMICLevel of HealthLow incomeLungLung Respiratory SystemMachine IntelligenceMalay FederationMalayaMalaysiaMalignant Cervical NeoplasmMalignant Cervical TumorMalignant Esophageal NeoplasmMalignant Esophageal TumorMalignant Head and Neck NeoplasmMalignant Neoplasm TherapyMalignant Neoplasm TreatmentMalignant Neoplasm of the CervixMalignant NeoplasmsMalignant TumorMalignant Tumor of the CervixMalignant Tumor of the Cervix UteriMalignant Tumor of the EsophagusMalignant Uterine Cervix NeoplasmMalignant Uterine Cervix TumorMalignant neoplasm of cervix uteriMalignant neoplasm of esophagusManpowerManualsMedicalModalityModelingMulti-center studiesMulticenter StudiesNational Cancer BurdenOncologistOrganOutcome MeasurePathway interactionsPatient ParticipationPatientsPositionPositioning AttributeProcessProspective StudiesProtocolProtocols documentationPublic HealthPublic SectorQOLQuality of lifeRadiationRadiation OncologyRadiation induced damageRadiation therapyRadiotherapeuticsRadiotherapyResearch ResourcesResourcesRiskSample SizeShapesSocietiesSoftwareSouth AfricaSpecialistState HospitalsSurvey InstrumentSurveysTimeTomodensitometryUterine Cervix CancerWomanX-Ray CAT ScanX-Ray Computed TomographyX-Ray Computerized TomographyXray CAT scanXray Computed TomographyXray computerized tomographyanti-cancer researchanti-cancer therapyartificial intelligence basedburden of diseaseburden of illnesscancer researchcancer therapycancer typecancer-directed therapycatscanclinical validationcomputed axial tomographycomputer tomographycomputerized axial tomographycomputerized tomographycostcurative interventioncurative therapeuticcurative therapycurative treatmentsdesigndesigningdisease burdeneconomic impacthead/neck cancerhealth levelimprovedincomeslow and middle-income countrieslow income countrymalignancymalignant head and neck tumormeasurable outcomemeetingmeetingsmenmortalityneoplasm/cancernon-contrast CTnoncontrast CTnoncontrast computed tomographyoesophageal canceroutcome measurementpalliationpathwaypersonnelprospectiveradiation damageradiation riskradiation treatmentsecondary outcometherapy optimizationtime usetreatment optimizationtreatment planningtreatment with radiationtumorweb servicesweb-based service
Sign up free to applyApply link · pipeline · email alerts
— or —

Get email alerts for similar roles

Weekly digest · no password needed · unsubscribe any time

Full Description

PROJECT SUMMARY
50% of cancer patients require radiotherapy during their disease course, however, only 10-40% of patients
in low and middle-income countries (LMICs), have access to it. A shortfall in the specialised workforce to
deliver radiotherapy has been identified as the most significant barrier to expanding radiotherapy capacity.
The current radiotherapy workflow is inefficient requiring several labor intensive processes and takes
weeks to months to deliver in LMICs. The growing demand for cancer treatment means that the ratio of
incidence to mortality will continue to worsen without a scalable solution.
Artificial intelligence (AI) based software has been developed to automate two components of the
radiotherapy planning pathway 1. Delineation of anatomical areas that are at risk of tumour spread and at
risk of radiation damage. 2. Definition of the position, size and shape of the radiation beams. Proposed
advantages include improved treatment accuracy, as well as a reduction in the time (from weeks to less
than a day) and human resources needed to deliver radiotherapy.
We propose a non-randomised prospective study to evaluate the quality and economic impact of AI based
automated radiotherapy treatment for cervical cancer and head and neck cancers, which are endemic in
LMICs, and for which radiotherapy is the primary curative treatment modality. The sample size of 706
patients (353 for each cancer type) has been calculated based on an estimated 95% treatment plan
acceptability rate. Time and cost savings will be analysed as secondary outcome measures to establish
the cost and resource impact of automation using the time-driven activity-based costing model.
The 48-month study will take place in six public sector cancer hospitals in India (n=2), Jordan (n=1), Malaysia
(n=1), and South Africa (n=2) to ensure we include a broad range of patients and the representativeness of
the findings will support implementation of the software in LMICs.
If the study objectives are met, the AI based software will be offered as a not-for-profit web service to
public sector state hospitals in LMICs to support expansion of high quality radiotherapy capacity, improving
access, and affordability of this key modality of cancer cure and control.

Grant Number: 3U01CA269143-03S3
NIH Institute/Center: NIH
Principal Investigator: Ajay Aggarwal

Sign up free to get the apply link, save to pipeline, and set email alerts.

Sign up free →

Agency Plan

7-day free trial

Unlock procurement & grants

Upgrade to access active tenders from World Bank, UNDP, ADB and more — with email alerts and pipeline tracking.

$29.99 / month

  • 🔔Email alerts for new matching tenders
  • 🗂️Track tenders in your pipeline
  • 💰Filter by contract value
  • 📥Export results to CSV
  • 📌Save searches with one click
Start 7-day free trial →

Explore more

📍 More grants in UNITED KINGDOM🏷 More NIH opportunities🏷 More US Federal opportunities🏷 More Research Grant opportunities🏢 All nih_reporter opportunities