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ENLIGHT ++. Proton and Ion Therapy “eâ€-infrastructure for health; “e†for “enhanced, enabled, excellent†example of choice: Hadrontherapy Hans F. Hoffmann-PH/CMO. What is Health. Definition
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ENLIGHT ++ Proton and Ion Therapy “e”-infrastructure for health; “e” for “enhanced, enabled, excellent” example of choice: Hadrontherapy Hans F. Hoffmann-PH/CMO ENLIGHT++ for KnowARC project
What is Health • Definition • Health is a state of complete physical, mental and social well being and not only the absence of disease or infirmity • WHO Constitution: Theenjoyment of the highest attainable standard of health is one of the fundamental human rights of every human being without distinction for race, religion, political belief, economic or social condition • WHO Mission • The attainment by all peoples of the highest possible level of health ENLIGHT++ for KnowARC project
Prospective for cancer therapy… Metastasis • Primarytumour Surgery Radiotherapy Medical treatments Hormones; Chemotherapy; Immunotherapy; Cell therapy; Genetic treatments… Conformal RT High LET particles Novel specific targets (genetics..) (?) SurvivalQuality of life Local control ENLIGHT++ for KnowARC project
proton carbon ion Hadrontherapy vs. Conventional radiotherapy Bragg Peak Photons and Electrons vs. Hadrons (protons or light-ions) • Dose highest at Bragg Peak • Effect is localised • DNA damage less repairable • Biological effect highest at maximum depth • Effective in poorly oxygenated cells (carbon) • Physical dose high near surface • Effect not localised • Biological effect constant • Effective in well oxygenated cells ENLIGHT++ for KnowARC project
28 cm tumour target charged hadron beam that loses energy in matter X rays protons or carbon ions Photons Protons Hadron therapy 200 MeV Protons / 480 MeV carbon ions GSI Protons: ocular melanomas, base skull tumours, cancers close to the spinal cord cyclotrons ~ 3-4 m diameter synchrotrons ~ 6-8 m diameter Carbon ions: subset of patients with radio-resistant tumors synchrotrons ~ 20-25 m diameter GSI ENLIGHT++ for KnowARC project
Numbers of potential patients From studies in Austria, France, Germany and Italy X-ray therapy every 10 million inhabitants 20'000 pts/year Proton therapy 12% of X-ray patients 2'400 pts/year Therapy with Carbon ions for radio-resistant tumour 3% of X-ray patients 600 pts/year TOTAL of hadron therapy every 10 M about 3'000 pts/year ENLIGHT++ for KnowARC project
Hadron therapy status • 1954 the first patient treated with protons at the University of California, Berkeley, USA • By 2005 about 50000 patients treated. • Europe is moving coherently towards the realisationof a network of Hadron therapy Centres with 12C beams: • The two first ones in Heidelberg and Pavia are foreseen to start operation in 2007 • France and Austria (approved), Marburg • Sweden, Belgium, Netherlands, Spain, UK ……….. • Japan has 2 carbon facilities and 4 proton facilities • USA has 2 running proton facilities and various others being planned ENLIGHT++ for KnowARC project
Hadrontherapy goals • Provide the irradiation technology and the detection systems to optimally use the advantageous properties of heavy charged particles in external radiotherapy • Optimize dose to tumour conformity by beam scanning and adaptation of the delivery to the organ motion • Treat > 1000 patients per year and perform clinical trials using low-LET (p, He) and high-LET (C, O) beams • Conduct technical, physical and clinical R+D organs at risk tumour tumour-conformal dose distribution ENLIGHT++ for KnowARC project
What is ENLIGHT • 2002-2005 ENLIGHT (European Network for Light Ion Therapy) ENLIGHT was composed of: Centres in Heidelberg, Lyon, and Pavia, CERN, EORTC, ESTRO, GSI, Karolinska, MedAustron, TERA • Main achievements: • Creation of a European Hadron therapy Community • Common multidisciplinary platform with a shared vision • ENLIGHT catalysed the transition from research to the clinical environment • Served as a vehicle for education and dissemination ENLIGHT++ for KnowARC project
What is ENLIGHT++ In 2006 ENLIGHT++: + one “plus” for more hadrons (specifically protons), ++ the second “plus” refers to more Countries (17 countries, with 60 Institutions ENLIGHT++ goes beyond being a network: Main Objective: challenge for quality and success by being more inclusive and becoming a research network and an FP7 project ENLIGHT++ for KnowARC project
Present European projects on the same scale MedAustron ETOILE CNAO / TERA HICAT ENLIGHT++ for KnowARC project
ENLIGHT++ strengths • Success of original ENLIGHT and other pre-existing co-operation • Top research institutes • Scientists working at the cutting edge of knowledge and technologies • Expectations of cancer patients ENLIGHT++ for KnowARC project
ENLIGHT++ ingredients • Networking light ion research: • Clinical Studies • Radiobiology • Treatment planning for Intensity Modulated Particle Therapy • Adaptive ion therapy and treating of moving organs • Novel in-beam PET systems • Feasibility study for innovative gantry designs • Information and Communication Technologies for Hadron therapy (this presentation!) ENLIGHT++ for KnowARC project
Outlook • Particle therapy will cover the full spectrum of radiotherapeutical indications • Per 10 million inhabitants one particle therapy facility may be required • Treatments will be fully accepted by the health insurance systems • Pilot “European application of e-Health”? ENLIGHT++ for KnowARC project
ENLIGHT++ challenge • A heterogeneous group - 7 different disciplines- • How to a balance between basic research and the clinical needs? • Many partners. How to collaborate effectively and make progress with the main objectives • Is ion therapy more effective? Will practice validate the theory? • Here: Is Hadrontherapy particularly appropriate for a pilot ICT e-health infrastructure?? ENLIGHT++ for KnowARC project
e-Health: Health Care enhanced by ICT • “e-Health”, Healthcare “enhanced” by ICT, deals with the use of ICT to develop intelligently connected infrastructures (very likely “ grids”) that provide: • "the right information, at the right time, in the right place" • For ubiquitous management of citizens’ health • To assist health professionals • To integrate advances in health knowledge into clinical practice • To streamline the citizens' healthcare system and • To empower the patients to take informed decisions for their well-being • e-Health is an obvious necessity • e-Health is also excellent business ENLIGHT++ for KnowARC project
There are many issues • “in the German Health care system every institution in itself is an isolated solution, partially in line with the latest scientific research, but singular. As a rule, the limits of ICT are reached where the resources of one’s own institution are exhausted” (BM Gesundheit) • Making data available in electronic patient records • Security, authentication, access control, anonymity... • Using the same vocabularies, ontologies... • Provision of sufficient computers and networking infrastructure to Doctor’s practices and hospitals • Clinical data restrictions, FDA, (21 CFR part 11...), • Also , national practices, . . . • Adopting ideas of Collaboration in the Health community and many other issues... • But the promise is great... ...and the time is right ENLIGHT++ for KnowARC project
Ingredients of e-health infrastructure Simple - Smart - Secure • e-health infrastructure items • Patient card • Specialist card • Patient file • Prescription • Mobile diagnostics attached to patients (RFID, Bluetooth, GSM, . . .) • Referral system between hospitals • Security, privacy, . . . • Distributed data storage • Standardised data curation • Standard interfaces • Computers • Networks • Patient empowerment • Networked solutions ENLIGHT++ for KnowARC project
HealthGrid: Research Vision Computing Grid For data crunching applications • An environment, created through the sharing of resources, in which heterogeneous and dispersed health data : • molecular data (ex. genomics, proteomics) • cellular data (ex. pathways) • tissue data (ex. cancer types, wound healing) • personal data (ex. EHR) • population ( ex. epidemiology) • as well as applications, can be accessed by all users as an tailored information providing system according to their authorisation and without loss of information. Knowledge Grid Intelligent use of Data Grid for knowledge creation and tools provisions to all users Data Grid Distributed and optimized storage of large amounts of accessible data
HealthGrid: State-of-the art and next steps Current applications Computing Grid Next application fields Image analysis Ex.: MammoGrid Real time operational assistance Modeling, simulation, algorithms Ex.: Gemss, Data Grid, CrossGrid Radiotherapy Disease related Grids Drug discovery Epidemiology Bio-informatics Ex. BioGrid Image storage and accessibility Ex.: MammoGrid Data Grid Knowledge Grid
HealthGrid: Research Challenges • Highly Distributed sources of health data, with strong privacy rules • Semantic integration - building on the results related to • interoperability of Electronic Health Records and research data • Algorithms for search, data mining and knowledge retrieval based on • advances in language understanding • Privacy and Security • Adopting existing solutions to the Grid • High reliability of system must be proven • User friendliness and acceptance • Need to provide fast and easy to use tool at the point of need • Very heterogeneous user community - health professionals,researchers, authorities, patients • Organizational and cultural issues related to new ways of working and • virtual collaborations • From technology to a solution in Healthcare • Political awareness and understanding • Business models • Legal and ethical issues
HealthGrid: Implementation questions • What could be the role of HealthGrid in meeting the challenges in managing the the rising costs, growing demands from consumers (patients; citizens) and demographic changes, aging population? • Can HealthGrid play a role as an enabling tool for reorganisation of the healthcare systems and can the needed training be provided ? • How can we assure a maximal user acceptance and user friendly technologiesand standards ? • What is needed in order to be able to promise respect of legal, security and privacy ? Do we have convincing proofs today or is there still homework to be done ? • Can we convince industry to invest in HealthGrid and which part of it ? • Can HealthGrid find its place in the general strategy of health informationnetworks ? Can it become a leader ? • Can HealthGrid find its place in the general strategy of online health services ?
ENLIGHT++ - Meeting, CERN, March 24th, 2006Reflections on requirements of e-hadrontherapy(T. Auberger‘s (radio-onkologist‘s) slides) WP 7 – ICT Network for Particle Therapy Requirements are the domain of the users of a project: What to achieve Specialists: How to do it Execution: in continuous collaboration ENLIGHT++ for KnowARC project
Two Versions of Network for Particle Therapy • network of European ion therapy centres • national network between user groups and a central ion therapy centre ENLIGHT++ for KnowARC project
Questions • Why do we need a network? • What is necessary for an European network and for a national network ? • What do we have to do? • Proposals ? • What do we need for our work ? ENLIGHT++ for KnowARC project
Why do we need a network? • I) European Network of Ion Therapy Centres Communication between European ion therapy centres • Video conferences replace meetings • Exchange of know how • Mutual treatment strategies and protocols Exchange of technical parameters • Unique definition of treatment parameters • Standardized technical parameters ENLIGHT++ for KnowARC project
Why do we need a network? • I) European Network of Ion Therapy Centres Preparation of clinical multi-centre trials • Input of patient and treatment data, • diagnostic imaging, image fusion, • comparisons of treatment planning • online planning Mutual data library • rare tumour entities • unique statistics ENLIGHT++ for KnowARC project
Why do we need a network? • I) European Network of Ion Therapy Centres Coordination of non clinical research • Mutual scientific proposals • Distribution of beam time and programmes • (i.e. for radiobiological research of countries which don’t have facilities) ENLIGHT++ for KnowARC project
Why do we need a network? • II)National network between user groups and a central ion centres (1) • Information and training of users (peripheral hospitals) • Definition of standards on diagnostic and clinical preparation of patients • Nationwide and bilateral video tumour boards • Rapid exchange of patient and treatment data (mutual electronic patient files?) ENLIGHT++ for KnowARC project
Why do we need a network? • II) National network between user groups and a central ion centres (2) • Adjustment of treatment modalities in combined therapy regimes • (summarizing doses from different treatment plans, online treatment planning ) • Patient preparation and follow-up under observation of ion centres • National tumour libraries ENLIGHT++ for KnowARC project
What is necessary for an European network and for a national network ? • Common structure in medical and scientific strategy • Unique acquisition of patient and treatment data • Unique definition of beam and planning data • European clinical study protocols • Necessary technical support • Telecommunication systems • Unique electronic patient files ? • unique treatment planning systems ? • image data and planning data transfer • one mutual definition on software for international trials ENLIGHT++ for KnowARC project
What do we have to do? • Medical and scientific structure • Evaluation of the national medical infrastructure in various European countries • Technical solution, which regards this existing infrastructure or alternative ways ENLIGHT++ for KnowARC project
What do we have to do? Medical and scientific Structure • mutual treatment strategies and guidelines for preparation of patients, diagnostics, follow-up • preparation of unique clinical trials regarding system not contents (protocols) ? • tumour libraries (indications? –what has to be stored and how?) • organisation of non-clinical research • (if appreciated?) ENLIGHT++ for KnowARC project
What do we have to do? Evaluation of national medical infrastructure in various European countries • video tumour boards • organisation of patient preparation and follow-up • documentation of treatment results • data formats • patient files and imaging data (storage, transfer) • electronic communication systems • Compatibility of treatment planning systems • electronic epidemiologic registries • Software for support of clinical studies (ARCS ?, other commercial and non-commercial systems?) ENLIGHT++ for KnowARC project
What do we have to do? Technical solution • commercial and non commercial systems (advantages and disadvantages) • costs and requirements of installation • compatibility with existing infrastructure and running or planned technical equipment ENLIGHT++ for KnowARC project
Proposals • Learn from - integrate existing projects: • Mammogrid • Health-e-child • . . . ENLIGHT++ for KnowARC project
What do we need ? • Experts/scientific assistants on • radio oncology • medical physics • ICT • Reimbursement of • Travelling costs • Communication costs • Software/hardware ? • (hfh): Connect “stand alone” solutions, solve, satisfy: • Private interests of firms providing case solutions • Limited/local perspective of the users • IP ENLIGHT++ for KnowARC project
Conclusion for Enlight++ e-infrastructure • There are various reasons to build up an international network and national networks as well • Step 1 - (medical point) • development of a common medical and scientific strategy • Step 2 – (medical, technical) • evaluation of current national infrastructure • Step 3 – (technical) • evaluation of a technical solution for an international network which goes ahead with national development • Step 4 – (medical, technical) • pilot projects which will prove the efficiency of proposed solutions ENLIGHT++ for KnowARC project