Individualized Treatment Planning in Oncology: Role of PET and Radiolabelled Anticancer Drugs in Predicting Tumour Resistance

Autor:	Mark Lubberink, Adriaan A. Lammertsma, Astrid A.M. van der Veldt, Gert Luurtsema, N. Harry Hendrikse
Přispěvatelé:	Internal medicine, Radiology and nuclear medicine, Clinical pharmacology and pharmacy, CCA - Disease profiling
Rok vydání:	2008
Předmět:	Drug media_common.quotation_subject Antineoplastic Agents Drug resistance Pharmacology Drug Delivery Systems Neoplasms Drug Discovery Animals Humans Distribution (pharmacology) Medicine media_common Radioisotopes business.industry Bioavailability Drug development Drug Resistance Neoplasm Isotope Labeling Positron-Emission Tomography Drug delivery Verapamil Efflux Radiopharmaceuticals business medicine.drug
Zdroj:	van der Veldt, A A M, Luurtsema, G, Lubberink, J M, Lammertsma, A A & Hendrikse, N H 2008, ' Individualized Treatment Planning in Oncology: Role of PET and Radiolabelled Anticancer Drugs in Predicting Tumour Resistance ', Current Pharmaceutical Design, vol. 14, no. 28, pp. 2914-2931 . https://doi.org/10.2174/138161208786404344 Current Pharmaceutical Design, 14(28), 2914-2931. Bentham Science Publishers B.V.
ISSN:	1381-6128
Popis:	Tumour resistance to anticancer agents remains a challenge in oncological practice, because it results in exposure to toxicities, unnecessary costs and, most importantly, delay of a potentially more effective treatment. Drug uptake by tumours may be impaired by several resistance pathways. Reasons for primary resistance may be that the drug is not delivered to the tumour or that its uptake by the tumour is not sufficient. Drug delivery depends on its distribution within the body, its bioavailability in the circulation and its transport to the tumour. Binding of drugs to circulating cells and proteins, formation of inactive metabolites as well as a rapid drug clearance may limit bioavailability. Furthermore, drug delivery to tumours is regulated by tumour vascularisation. Finally, tumour targets such as hormone receptors and efflux pumps also influence drug uptake by tumours. The use of specific PET tracers such as radiolabelled anticancer drugs (e.g. [(18)F]fluoropaclitaxel and [(18)F]5-fluorouracil) provide a unique means for individualized treatment planning and drug development. Combining these specific tracers with other less specific tracers, such as tracers for blood flow (e.g. [(15)O]H(2)O) and efflux (e.g. [(11)C]verapamil), may provide additional information on drug resistance mechanisms. Furthermore, radiolabelled anticancer agents may be valuable to evaluate the optimal timing of combination therapies. This review will focus on how PET can reveal different mechanisms of tumour resistance and thus may play a role in drug development and prediction of tumour response.
Databáze:	OpenAIRE
Externí odkaz:	https://explore.openaire.eu/search/publication?articleId=doi_dedup___::54ce8b1eaf1c150d6d2165c11b2dbef1 https://doi.org/10.2174/138161208786404344 Zobrazit plný text záznamu