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W2040221503 abstract "The administration of exogenous stem cells offers promise to regenerate many damaged organs. However, failures of these cellular therapies could be related to many issues, such as the type of stem cell, the dose of cellular therapeutic, dosing regime, and mode of delivery. The recent ability to directly label stem cells with magnetic resonance (MR) contrast agents provides a simple, straight-forward manner to monitor accurate cell delivery and track stem cells non-invasively in a serial manner. Provided here is an overview of the currently available MR-labeling methods, including direct non-specific labeling with contrast agents, indirect specific labeling with contrast agents, labeling with MRI reporter genes, and fluorine hot spot labeling. Several of these approaches have now been applied successfully in preclinical animal models of cardiovascular disease. Once properly implemented, future clinical trials may benefit greatly from imaging stem cells with MRI." @default.
W2040221503 created "2016-06-24" @default.
W2040221503 creator A5028758394 @default.
W2040221503 creator A5039014364 @default.
W2040221503 date "2008-03-01" @default.
W2040221503 modified "2023-10-09" @default.
W2040221503 title "Imaging of stem cells using MRI" @default.
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W2040221503 cites W1964058577 @default.
W2040221503 cites W1970116978 @default.
W2040221503 cites W1976062460 @default.
W2040221503 cites W1979055414 @default.
W2040221503 cites W1981864771 @default.
W2040221503 cites W1987150170 @default.
W2040221503 cites W1995844056 @default.
W2040221503 cites W1999314528 @default.
W2040221503 cites W2004730560 @default.
W2040221503 cites W2006224145 @default.
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W2040221503 cites W2017769923 @default.
W2040221503 cites W2020441274 @default.
W2040221503 cites W2024792631 @default.
W2040221503 cites W2026101545 @default.
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W2040221503 doi "https://doi.org/10.1007/s00395-008-0704-5" @default.
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