Article authors: Isabel Heim and Lady Tatiana Sawoszczyk | Reading time: 10 minutes
Theranostics has revolutionized the way we think about personalized medicine, especially cancer treatment. In the last 10 years, theranostics has emerged as an innovative approach to tailored disease management. Discover the strategic importance of theranostics and learn how it can be deployed in healthcare systems today.
9 key considerations for implementing a theranostics program
Implementing a theranostics program into an existing practice requires a comprehensive set of considerations including technology investments, staff training, regulatory compliance, strategic partnerships, and financial planning.
1. Evaluate potential patient base
2. Understand the workflow and technology
A thorough understanding of the workflow is essential for integrating theranostics into clinical practice. This involves mapping out the entire process from patient selection, diagnostic imaging, radiopharmaceutical preparation, to the administration of therapy and subsequent monitoring. Attention must be paid to staffing, scheduling, and resource allocation to ensure smooth and efficient operation. A dedicated team comprised of trained technologists, radiopharmacists, nurses, and specialists in nuclear medicine is crucial for the effective execution of the theranostics process. State-of-the-art imaging technologies, such as PET/CT and SPECT/CT, along with the latest advancements in radiopharmaceuticals, are essential for maximizing the precision and effectiveness of treatments.
Depending on the existing infrastructure and the presence of a nuclear medicine or radiation oncology department, implementing theranostics usually requires investments in technology and infrastructure. Providers need to equip their facilities – also mentioned before –with advanced imaging and therapeutic equipment, which are critical for the application of radionuclides and radiopharmaceuticals.
3. Conduct financial planning and cost-benefit analysis
Comprehensive financial planning and cost-benefit analysis is necessary for the successful and sustainable implementation of theranostics. This includes developing a robust financial model with detailed projections for costs, revenues, and potential savings from more efficient treatment pathways. Initial investments in technology and infrastructure upgrades must be balanced with long-term financial sustainability. A thorough analysis should encompass not only the upfront investments but also the ongoing costs of technology maintenance, operations, staff training, and waste management.
4. Explore reimbursement possibilities
Theranostics faces unique reimbursement challenges requiring simultaneous approval for both components but offers additional revenue opportunities as reimbursement extends to therapeutic aspects. Various jurisdictions handle these issues differently, making effective management essential for hospitals. In the U.S., reimbursement involves both Medicare and private insurers, with intricate processes for concurrent approvals. Insurance claims can be denied if incorrect criteria are applied.
Optimistically, reimbursement frameworks are expected to evolve, supporting early-stage cancer diagnosis and treatment. This evolution addresses ethical considerations in socially funded health insurance systems, ensuring fair resource allocation. In Europe, for example, broader applications and early-stage interventions are expected to lead to more accessible pricing and clearer reimbursement pathways. Australia’s smoother reimbursement processes, facilitated by private insurers, showcase a model where theranostics thrives without significant financial barriers.
5. Implement training and development programs
Effective training, development, and recruitment programs are essential for the successful implementation of theranostics. Existing staff may require ongoing training programs and new specialists may need to be recruited, as needed. Training programs should cover all aspects of theranostics, from patient selection and diagnostic imaging to the preparation and administration of radiopharmaceuticals.
With the right team in place, patient outcomes can be enhanced and hospitals can ensure that they remain at the forefront of innovative cancer care.
6. Ensure regulatory and ethical compliance
Ensuring regulatory and ethical compliance is critical for implementing theranostics. This involves adhering to the specific regulations on handling and disposing of radioactive materials and meeting local, national, and international standards. A dedicated compliance team may be necessary to monitor and adapt to ongoing regulatory changes. Robust internal regulatory and ethical processes are also important for hospitals to mitigate risks, enhance patient trust, and deliver safe, effective theranostic treatments.
Ethical considerations include obtaining informed consent, ensuring patient privacy, and addressing dilemmas that arise during treatment. Patients must fully understand the nature, risks, benefits, and outcomes of theranostics to make informed decisions.
Hospitals should also balance the focus on early-stage versus late-stage cancers to ensure fair resource allocation. Equitable access is essential, as theranostics can be expensive and resource-intensive. Ensuring all patients, regardless of socio-economic status, have access to these treatments should be a priority, particularly in publicly funded systems.
7. Explore opportunities for strategic partnerships and collaboration
Entering into strategic partnerships and collaborations to cover gaps can be essential for driving theranostic applications. Partnerships with biotech firms, pharmaceutical companies, and academic institutions can provide hospitals with the latest advancements in theranostic technologies and treatments. Collaborating with industry leaders and engaging in joint research projects and clinical trials can also be of value. Such collaborations can facilitate the exchange of knowledge and best practices, enhancing the overall quality of care provided to patients. By fostering a collaborative ecosystem, hospitals can accelerate the development and implementation of theranostic solutions.
8. Develop effective marketing strategies
9. Ensure continuous evaluation and adaptation
Implementing a system for ongoing evaluation of clinical outcomes, patient satisfaction, and financial performance allows hospitals to monitor the success of their theranostic treatments, while data analytics can provide valuable insights into the effectiveness of different treatment protocols and identify areas for improvement. This iterative process of evaluation and adaptation supports the continuous improvement of theranostic services, leading to better patient outcomes and operational efficiencies.
What is theranostics?
Theranostics is an advanced, integrative approach to healthcare that combines diagnostics and therapeutics to enhance personalized and precise medical care.
Theranostics has transformed the way we provide medical care and has revolutionized the way we think about personalized medicine, especially cancer treatment. In the last 10 years, theranostics has emerged as an innovative, new approach to tailored disease management. Since 2014, more than 20,000 articles on theranostics have beenpublished.1 But, what exactly is theranostics? How is it being used today? And what issues must be addressed to unlock its full potential in the years ahead?
This paper evaluates the strategic importance of theranostics and discusses how it can be deployed in healthcare systems today. It also assesses its potential in terms of improving patient outcomes, operational efficiency, and patient care standards. In order to make effective use of theranostics, healthcare leaders can gain a competitive advantage by having a clear understanding of how to integrate it into their services. This paper provides a 9-step guide that enables establishing a theranostics program.
Strategic relevance
Identifying and selecting suitable patients, often
involving genetic testing or imaging studies to identify
targets that theranostic agents can address, is essential.
Other criteria used to identify patients include the type
of cancer, the presence of certain biomarkers, and a
patient’s previous treatment history.
Once suitable patients have been identified, advanced
pre-therapy diagnostic imaging is required to plan the
therapeutic strategy. This usually involves advanced
imaging technologies like PET and SPECT, enhanced by
AI-driven algorithms, to facilitate detailed, non-invasive
tumor assessments. A radiolabeled diagnostic agent is
administered to the patient. This agent is designed to
bind specifically to cancer cells or other disease markers.
After allowing time for the agent to circulate and bind to
target cells, imaging is performed using techniques like
PET or SPECT. These images provide detailed information
about the location and extent of disease, and more
importantly, confirm the presence of the target
biomarker. At this point, patients undergo further
evaluation and preparation which includes clinical
assessment and baseline imaging to confirm the
suitability for theranostic procedures.
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