Abstract

Treating individual patients on the basis of specific factors, such as biomarkers, molecular signatures, phenotypes, environment, and lifestyle is what differentiates the precision medicine initiative from standard treatment regimens. Although precision medicine can be applied to almost any branch of medicine, it is perhaps most easily applied to the field of oncology. Cancer is a heterogeneous disease, meaning that even though patients may be histologically diagnosed with the same cancer type, their tumors may have different molecular characteristics, genetic mutations or tumor microenvironments that can influence prognosis or treatment response. In this review, we describe what methods are currently available to clinicians that allow them to monitor key tumor microenvironmental parameters in a way that could be used to achieve precision medicine for cancer patients. We further describe exciting novel research involving the use of implantable medical devices for precision medicine, including those developed for mapping tumor microenvironment parameters (e.g., O2, pH, and cancer biomarkers), delivering local drug treatments, assessing treatment responses, and monitoring for recurrence and metastasis. Although these research studies have predominantly focused on and were tailored to humans, the results and concepts are equally applicable to veterinary patients. While veterinary clinical studies that have adopted a precision medicine approach are still in their infancy, there have been some exciting success stories. These have included the development of a receptor tyrosine kinase inhibitor for canine mast cell tumors and the production of a PCR assay to monitor the chemotherapeutic response of canine high-grade B-cell lymphomas. Although precision medicine is an exciting area of research, it currently has failed to gain significant translation into human and veterinary healthcare practices. In order to begin to address this issue, there is increasing awareness that cross-disciplinary approaches involving human and veterinary clinicians, engineers and chemists may be needed to help advance precision medicine toward its full integration into human and veterinary clinical practices.

Highlights

  • Precision or personalized medicine endeavors to enhance patient outcomes by treating individuals based on certain factors

  • Ongoing basic and clinical research is continuing to improve our understanding of tumor heterogeneity and is providing new information on how it influences disease prognosis and treatment responses

  • Multidisciplinary projects that take on a one-health view to precision medicine, involving human and veterinary clinicians, engineers and chemists, are likely to become more important in the future if we are to advance the field of precision medicine to a stage where it can be fully integrated into clinical practices

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Summary

INTRODUCTION

Precision or personalized medicine endeavors to enhance patient outcomes by treating individuals based on certain factors. These factors can include disease biomarkers and molecular signatures at the cellular level and the phenotype, environment, and lifestyle of the individual [1]. The National Research Council in America [4] adopted the definition of precision medicine from the President’s Council of Advisors on Science and Technology in 2008 as: “The tailoring of medical treatment to the individual characteristics of each patient. The overall aim of precision medicine is to provide the most effective treatment for a patient [5], enhancing the quality of care whilst decreasing the use of unnecessary diagnostic tests and therapies, thereby reducing costs and side effects [6] Preventative or therapeutic interventions can be concentrated on those who will benefit, sparing expense and side effects for those who will not.” As the definition implies, the overall aim of precision medicine is to provide the most effective treatment for a patient [5], enhancing the quality of care whilst decreasing the use of unnecessary diagnostic tests and therapies, thereby reducing costs and side effects [6]

The Precision Medicine Initiative
The Tumor Microenvironment
Therapeutic Strategies to Target Hypoxic
Tumor Functional Assessment
Implantable Technology and Cancer
Implantable Sensors and Monitoring of Tumor
Implantable Sensors and the Clinical Monitoring of Cancer Progression
Precision Medicine in Veterinary Clinics
Current Issues Limiting the Use of Precision Medicine
CONCLUSION
Findings
AUTHOR CONTRIBUTIONS

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