call for proposal Archives - European Industrial Pharmacists Group (EIPG)

Environmental sustainability: the EIPG perspective


Piero Iamartino Although the impact of medicines on the environment has been highlighted since the 70s of the last century with the emergence of the first reports of pollution in surface waters, it is only since the beginning of the Read more

How AI is Changing the Pharma Industry and the Industrial Pharmacist's Role


Svala Anni, Favard Théo, O´Grady David The pharmaceutical sector is experiencing a major transformation, propelled by groundbreaking drug discoveries and advanced technology. As development costs in the pharmaceutical industry exceed $100 billion in the U.S. in 2022, there is a Read more

Generative AI in drug development


by Giuliana Miglierini Generative AI is perhaps the more advanced form of artificial intelligence available today, as it is able to create new contents (texts, images, audio, video, objects, etc) based on data used to train it. Applications of generative Read more

Draft topics for the first IHI calls for proposals

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by Giuliana Miglierini

The Innovative Health Initiative (IHI) published on its website the first draft topics which may be part of the first two calls for proposals, scheduled in June 2022. Interested parties may start the activities needed to build and formalise the research consortia, taking into consideration that the announced topics are draft, pending their approval by the IHI Governing Board and their final version may differ from the drafts.

IHI call 1 shall focus on innovative technologies for the development of decision-support system for improved care pathways, next generation imaging, personalised oncology and access and integration of heterogeneous health data in areas of high unmet public health need.

IHI call 2 shall address cardiovascular diseases and the development of a harmonised methodology to promote early feasibility studies.

The draft topics of IHI call 1

Innovative decision-support systems are important to make available improved care pathways for patients with neurodegenerative diseases and comorbidities. The actions to be undertaken include the enhanced cross-sectoral and sustainable collaboration between healthcare industries, academia and other stakeholders in order to exchange data (through the new European Health Data Space), analytical tools and material for training and professional development of personnel.

Earlier diagnosis should lead to more clinically effective interventions and reduced hospitalisation and facilitate the adherence to therapy. Clinical outcomes are expected to support a better patient stratification, which is needed to develop more patient-adapted interventions, therapeutics and cost-effective pathways for the management of neurodegenerative diseases. Among the expected outcomes is the development of a re-usable, interoperable, easily adaptable, and scalable digital platform, initially targeted to support patients in this therapeutic area, but further expandable in the future to other areas of interest. The action should also involve the development of agreed standards and guidelines to support data collection and operational features of the digital platform. New algorithms may provide (near) real time feedback on health interventions and support the constant monitoring of the patient’s status.

The second topic is focused on the development of high-quality tools, high-quality data, advanced patient imaging and image-guided technologies and processes for improved early diagnosis, prognosis, staging, intervention planning, therapy and management of cancer. Imaging can be part of new combined cancer therapies (e.g., theranostics, chemotherapy, targeted therapy including immunotherapy, radiotherapy and/or surgery). The call should also include the development of improved validation and evaluation methodologies specific to artificial intelligence (AI)and machine learning (ML), with a particular attention to the creation of new solutions that automatically link images to clinical data. This could be applied, for example, to develop minimally invasive interventions guided by medical imaging, or image-driven planning and predictive tools.

The third topic is also aimed to tackle cancer through the development of personalised interventions. This action should contribute to break down silos that are often still characterizing medicine and technological areas. The availability of harmonised approaches should lead to safe and effective innovative health technologies, to the integration of future products, services and tools and the development of more patient-centred tools. Here again, an expected outcome is represented by a dynamic platform for R&I collaboration across different sectors and stakeholders, focusing on the early stages of applied clinical research on cancer and on the testing and validation of multi-modal therapeutic approaches, including novel or emerging technical and clinical concepts and the possible contribution arising from in vitro diagnostics.

Topic 4 of IHI 1 addresses the integration of future products, services and tools along the healthcare pathway to better respond to specific patients’ needs. The availability of interoperable, quality data which reflect the FAIR principles (Findability, Accessibility, Interoperability, Reusability) is central to this action, as well as the development of advanced analytics/artificial intelligence supporting health R&I. Among the main expected outcomes is the long-term access to diverse types of data enabled by the linkage and integration of novel and cross-sectoral sources. Access to interoperable tools should also become possible for citizens and patients to support the self-management of health and the joint decision making process between healthcare professionals and patients.

The draft topics of IHI call 2

Cardiovascular diseases (CDV) remain one of the main causes of death; the development of new tools for the primary and secondary prevention of CDV is the main focus of Topic 1, to be pursued by the identification of existing comprehensive CVD and heart failure (HF) patient datasets, in order to facilitate the diagnosis of atherosclerosis and HF. These data shall be also integrated with those captured by diagnostic tools (e.g., wearables, imaging devices, bio samples/biopsies).

Classical diagnostic screening, in-vitro- diagnostics, ‘multi-omic’ platforms (e.g. genomic, transcriptomic, proteomic and multimodality imaging data), continuous glucose monitoring (CGM) data, continuous electrocardiogram (ECG) from wearable, HF and activity data, wearable devices and digital health applications are all possible sources for the data. Projects may also leverage data in currently available IMI federated databases in compliance with the GDPR regulation governing protection of personal data.

The utility of already existing or new biomarker combinations shall be assessed to detect patients at risk, also making use of AI models to analyse data. Validated data referred to patient reported outcome and experience measure (PROMs and PREMs) may also be considered for use in the clinical setting.

The second draft topic is targeted to establish a harmonised methodology to promote the diffusion of Early Feasibility Studies (EFS) among healthcare professionals. Once again, the availability of digital technologies easily accessible by patients shall be key to this action. Among expected outcomes are the improvement of the quality of clinical evidence on health technology innovation generated through earlier clinical experience, together with the increase of the attractiveness of clinical research for healthcare technologies in the EU.

These activities are essential to enable the fast translation of innovation into the clinical practice, improving access to patients especially where there are only limited or no alternative therapeutic options. This approach to the development of innovative technologies may also benefit regulators and health technologies assessment (HTA) bodies, as well as notified bodies. All stakeholders involved in clinical practice and research may contribute to the early generation of quality data, so to achieve a better understanding of diseases management and treatment options and to support the future development of new medical guidelines.

The creation of hubs of clinical excellence to attract investment may also be considered under this topic, with involvement of developers of medical devices, drug-device combination products, imaging equipment, in-vitro diagnostics, and SMEs.