SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2006562024> ?p ?o ?g. }

Showing items 1 to 100 of ±163 with 100 items per page.

W2006562024 endingPage "298" @default.
W2006562024 startingPage "283" @default.
W2006562024 abstract "Ongoing research on malignant and normal cell biology has substantially enhanced the understanding of the biology of cancer and carcinogenesis. This has led to the development of methods to image the evolution of cancer, target specific biological molecules, and study the anti-tumour effects of novel therapeutic agents. At the same time, there has been a paradigm shift in the field of oncological imaging from purely structural or functional imaging to combined multimodal structure–function approaches that enable the assessment of malignancy from all aspects (including molecular and functional level) in a single examination. The evolving molecular functional imaging using specific molecular targets (especially with combined positron-emission tomography [PET] computed tomography [CT] using 2- [18F]-fluoro-2-deoxy-d-glucose [FDG] and other novel PET tracers) has great potential in translational research, giving specific quantitative information with regard to tumour activity, and has been of pivotal importance in diagnoses and therapy tailoring. Furthermore, molecular functional imaging has taken a key place in the present era of translational cancer research, producing an important tool to study and evolve newer receptor-targeted therapies, gene therapies, and in cancer stem cell research, which could form the basis to translate these agents into clinical practice, popularly termed “theranostics”. Targeted molecular imaging needs to be developed in close association with biotechnology, information technology, and basic translational scientists for its best utility. This article reviews the current role of molecular functional imaging as one of the main pillars of translational research." @default.
W2006562024 created "2016-06-24" @default.
W2006562024 creator A5000545244 @default.
W2006562024 creator A5005257616 @default.
W2006562024 creator A5045386624 @default.
W2006562024 creator A5081571713 @default.
W2006562024 date "2004-05-01" @default.
W2006562024 modified "2023-09-25" @default.
W2006562024 title "Targeted ultrasound imaging using microbubbles" @default.
W2006562024 cites W1497009115 @default.
W2006562024 cites W1501982791 @default.
W2006562024 cites W1533677481 @default.
W2006562024 cites W1551592047 @default.
W2006562024 cites W1589415602 @default.
W2006562024 cites W165853039 @default.
W2006562024 cites W1966980125 @default.
W2006562024 cites W1967271515 @default.
W2006562024 cites W1970101659 @default.
W2006562024 cites W1970369408 @default.
W2006562024 cites W1971686124 @default.
W2006562024 cites W1973076309 @default.
W2006562024 cites W1974012221 @default.
W2006562024 cites W1983519571 @default.
W2006562024 cites W1986971822 @default.
W2006562024 cites W1993509416 @default.
W2006562024 cites W1995727373 @default.
W2006562024 cites W1998430791 @default.
W2006562024 cites W2002718660 @default.
W2006562024 cites W2004465432 @default.
W2006562024 cites W2009082552 @default.
W2006562024 cites W2010234990 @default.
W2006562024 cites W2013889793 @default.
W2006562024 cites W2015047225 @default.
W2006562024 cites W2016223403 @default.
W2006562024 cites W2019790121 @default.
W2006562024 cites W2023890635 @default.
W2006562024 cites W2025462691 @default.
W2006562024 cites W2026077214 @default.
W2006562024 cites W2027758728 @default.
W2006562024 cites W2029033870 @default.
W2006562024 cites W2029773366 @default.
W2006562024 cites W2033269131 @default.
W2006562024 cites W2034373812 @default.
W2006562024 cites W2034735739 @default.
W2006562024 cites W2037253046 @default.
W2006562024 cites W2039317622 @default.
W2006562024 cites W2039551119 @default.
W2006562024 cites W2040881020 @default.
W2006562024 cites W2050602061 @default.
W2006562024 cites W2051752312 @default.
W2006562024 cites W2052853635 @default.
W2006562024 cites W2058280102 @default.
W2006562024 cites W2060835359 @default.
W2006562024 cites W2061011789 @default.
W2006562024 cites W2062115019 @default.
W2006562024 cites W2062437832 @default.
W2006562024 cites W2065867548 @default.
W2006562024 cites W2067879263 @default.
W2006562024 cites W2073407670 @default.
W2006562024 cites W2075026931 @default.
W2006562024 cites W2076396596 @default.
W2006562024 cites W2076733414 @default.
W2006562024 cites W2077978729 @default.
W2006562024 cites W2083217753 @default.
W2006562024 cites W2083453052 @default.
W2006562024 cites W2086190592 @default.
W2006562024 cites W2086323767 @default.
W2006562024 cites W2088639163 @default.
W2006562024 cites W2099781987 @default.
W2006562024 cites W2113082835 @default.
W2006562024 cites W2115160119 @default.
W2006562024 cites W2122226633 @default.
W2006562024 cites W2125542444 @default.
W2006562024 cites W2132689499 @default.
W2006562024 cites W2133190533 @default.
W2006562024 cites W2133902682 @default.
W2006562024 cites W2144870723 @default.
W2006562024 cites W2147204790 @default.
W2006562024 cites W2150518784 @default.
W2006562024 cites W2156749399 @default.
W2006562024 cites W2159087408 @default.
W2006562024 cites W2159653257 @default.
W2006562024 cites W2162934638 @default.
W2006562024 cites W2166291746 @default.
W2006562024 cites W2168955249 @default.
W2006562024 cites W2322219793 @default.
W2006562024 cites W2322779027 @default.
W2006562024 cites W2410521232 @default.
W2006562024 cites W2460789319 @default.
W2006562024 doi "https://doi.org/10.1016/j.ccl.2004.02.008" @default.
W2006562024 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/15158940" @default.
W2006562024 hasPublicationYear "2004" @default.
W2006562024 type Work @default.
W2006562024 sameAs 2006562024 @default.
W2006562024 citedByCount "42" @default.
W2006562024 countsByYear W20065620242012 @default.
W2006562024 countsByYear W20065620242014 @default.
W2006562024 countsByYear W20065620242015 @default.