Molecular imaging in drug development

Key Points Drug development is a costly, time-intensive and high-risk endeavour, with only two to three approvals for novel therapeutics in new drug classes per year eventually making it to market. New strategies are required to identify promising new drug candidates early on and, likewise, to termi...

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Published inNature reviews. Drug discovery Vol. 7; no. 7; pp. 591 - 607
Main Authors Willmann, Jürgen K., van Bruggen, Nicholas, Dinkelborg, Ludger M., Gambhir, Sanjiv S.
Format Journal Article
LanguageEnglish
Published London Nature Publishing Group UK 01.07.2008
Nature Publishing Group
Subjects
Animals
Biomarkers
Biomedical and Life Sciences
Biomedicine
Biotechnology
Cancer Research
Diagnostic Imaging
Drug Design
Drugs
Humans
Medicinal Chemistry
Methods
Molecular Medicine
Pharmacokinetics
Pharmacology/Toxicology
Product/Service Evaluations
review-article
United States
Online AccessGet full text

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Abstract Key Points Drug development is a costly, time-intensive and high-risk endeavour, with only two to three approvals for novel therapeutics in new drug classes per year eventually making it to market. New strategies are required to identify promising new drug candidates early on and, likewise, to terminate those candidates that are unlikely to be successful, thus allowing a more rapid and efficient move to pivotal trials. Molecular imaging attempts to characterize and quantify biological processes at the cellular and subcellular level in intact living subjects. It exploits specific molecular probes and intrinsic tissue characteristics as the source of image contrast, providing the potential for understanding of integrative biology, earlier detection and characterization of disease, and evaluation of treatment. As most molecular imaging techniques are routine in clinical radiology departments and have counterparts in the experimental research setting, it is possible to design preclinical experiments that not only predict clinical imaging observations but also provide a mechanistic understanding of the observed biological response. Molecular imaging has the potential to have a significant impact on different phases of drug development, including target expression, compound screening and optimization, as well as Phases I to III clinical studies. Examples are detailed in the text of the article. The option of an exploratory IND (eIND) initiated by the US Food and Drug Administration enables first-in-human molecular imaging studies to be performed with reduced preclinical support as compared to that required for a full IND. Consortia such as the Alzheimer's Disease Neuroimaging Initiative, the American College of Radiology Imaging Network and the High-Risk Plaque Initiative seek to correlate a number of imaging biomarkers with the clinical manifestations of diseases and, if successful, will greatly increase the inclusion of these imaging techniques in exploratory clinical development of novel therapeutics. Molecular imaging, which can allow the non-invasive monitoring of biological processes in living subjects, has the potential to enhance understanding of disease and drug activity in both preclinical and clinical drug studies, aiding effective translational research. Gambhir and colleagues review the applications of molecular imaging in drug development, and discuss challenges that need to be addressed to optimize its utility. Molecular imaging can allow the non-invasive assessment of biological and biochemical processes in living subjects. Such technologies therefore have the potential to enhance our understanding of disease and drug activity during preclinical and clinical drug development, which could aid decisions to select candidates that seem most likely to be successful or to halt the development of drugs that seem likely to ultimately fail. Here, with an emphasis on oncology, we review the applications of molecular imaging in drug development, highlighting successes and identifying key challenges that need to be addressed for successful integration of molecular imaging into the drug development process.
AbstractList Molecular imaging can allow the non-invasive assessment of biological and biochemical processes in living subjects. Such technologies therefore have the potential to enhance our understanding of disease and drug activity during preclinical and clinical drug development, which could aid decisions to select candidates that seem most likely to be successful or to halt the development of drugs that seem likely to ultimately fail. Here, with an emphasis on oncology, we review the applications of molecular imaging in drug development, highlighting successes and identifying key challenges that need to be addressed for successful integration of molecular imaging into the drug development process.
Key Points Drug development is a costly, time-intensive and high-risk endeavour, with only two to three approvals for novel therapeutics in new drug classes per year eventually making it to market. New strategies are required to identify promising new drug candidates early on and, likewise, to terminate those candidates that are unlikely to be successful, thus allowing a more rapid and efficient move to pivotal trials. Molecular imaging attempts to characterize and quantify biological processes at the cellular and subcellular level in intact living subjects. It exploits specific molecular probes and intrinsic tissue characteristics as the source of image contrast, providing the potential for understanding of integrative biology, earlier detection and characterization of disease, and evaluation of treatment. As most molecular imaging techniques are routine in clinical radiology departments and have counterparts in the experimental research setting, it is possible to design preclinical experiments that not only predict clinical imaging observations but also provide a mechanistic understanding of the observed biological response. Molecular imaging has the potential to have a significant impact on different phases of drug development, including target expression, compound screening and optimization, as well as Phases I to III clinical studies. Examples are detailed in the text of the article. The option of an exploratory IND (eIND) initiated by the US Food and Drug Administration enables first-in-human molecular imaging studies to be performed with reduced preclinical support as compared to that required for a full IND. Consortia such as the Alzheimer's Disease Neuroimaging Initiative, the American College of Radiology Imaging Network and the High-Risk Plaque Initiative seek to correlate a number of imaging biomarkers with the clinical manifestations of diseases and, if successful, will greatly increase the inclusion of these imaging techniques in exploratory clinical development of novel therapeutics. Molecular imaging, which can allow the non-invasive monitoring of biological processes in living subjects, has the potential to enhance understanding of disease and drug activity in both preclinical and clinical drug studies, aiding effective translational research. Gambhir and colleagues review the applications of molecular imaging in drug development, and discuss challenges that need to be addressed to optimize its utility. Molecular imaging can allow the non-invasive assessment of biological and biochemical processes in living subjects. Such technologies therefore have the potential to enhance our understanding of disease and drug activity during preclinical and clinical drug development, which could aid decisions to select candidates that seem most likely to be successful or to halt the development of drugs that seem likely to ultimately fail. Here, with an emphasis on oncology, we review the applications of molecular imaging in drug development, highlighting successes and identifying key challenges that need to be addressed for successful integration of molecular imaging into the drug development process.
Molecular imaging can allow the non-invasive assessment of biological and biochemical processes in living subjects. Such technologies therefore have the potential to enhance our understanding of disease and drug activity during preclinical and clinical drug development, which could aid decisions to select candidates that seem most likely to be successful or to halt the development of drugs that seem likely to ultimately fail. Here, with an emphasis on oncology, we review the applications of molecular imaging in drug development, highlighting successes and identifying key challenges that need to be addressed for successful integration of molecular imaging into the drug development process.Molecular imaging can allow the non-invasive assessment of biological and biochemical processes in living subjects. Such technologies therefore have the potential to enhance our understanding of disease and drug activity during preclinical and clinical drug development, which could aid decisions to select candidates that seem most likely to be successful or to halt the development of drugs that seem likely to ultimately fail. Here, with an emphasis on oncology, we review the applications of molecular imaging in drug development, highlighting successes and identifying key challenges that need to be addressed for successful integration of molecular imaging into the drug development process.
Audience Academic
Author Dinkelborg, Ludger M.
Willmann, Jürgen K.
van Bruggen, Nicholas
Gambhir, Sanjiv S.
Author_xml – sequence: 1
  givenname: Jürgen K.
  surname: Willmann
  fullname: Willmann, Jürgen K.
  organization: Department of Radiology and Bio-X Program, The Molecular Imaging Program at Stanford, Stanford University School of Medicine
– sequence: 2
  givenname: Nicholas
  surname: van Bruggen
  fullname: van Bruggen, Nicholas
  organization: Biomedical Imaging, Genentech
– sequence: 3
  givenname: Ludger M.
  surname: Dinkelborg
  fullname: Dinkelborg, Ludger M.
  organization: Global Drug Discovery, Bayer Schering Pharma
– sequence: 4
  givenname: Sanjiv S.
  surname: Gambhir
  fullname: Gambhir, Sanjiv S.
  email: sgambhir@stanford.edu
  organization: Department of Radiology and Bio-X Program, The Molecular Imaging Program at Stanford, Stanford University School of Medicine, Department of Bioengineering, Stanford University School of Medicine
BackLink https://www.ncbi.nlm.nih.gov/pubmed/18591980$$D View this record in MEDLINE/PubMed
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SecondaryResourceType review_article
Snippet Key Points Drug development is a costly, time-intensive and high-risk endeavour, with only two to three approvals for novel therapeutics in new drug classes...
Molecular imaging can allow the non-invasive assessment of biological and biochemical processes in living subjects. Such technologies therefore have the...
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SubjectTerms Animals
Biomarkers
Biomedical and Life Sciences
Biomedicine
Biotechnology
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review-article
Title Molecular imaging in drug development
URI https://link.springer.com/article/10.1038/nrd2290
https://www.ncbi.nlm.nih.gov/pubmed/18591980
https://www.proquest.com/docview/223592930
https://www.proquest.com/docview/20826174
https://www.proquest.com/docview/69283667
Volume 7
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