FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2932868296> ?p ?o ?g. }

• W2932868296 endingPage "101983" @default.
• W2932868296 startingPage "101983" @default.
• W2932868296 abstract "In this paper we show that conjugation of magnetic nanoparticles (MNPs) with Gemcitabine and/or NucAnt (N6L) fostered their internalization into pancreatic tumor cells and that the coupling procedure did not alter the cytotoxic potential of the drugs. By treating tumor cells (BxPC3 and PANC-1) with the conjugated MNPs and magnetic hyperthermia (43 °C, 60 min), cell death was observed. The two pancreatic tumor cell lines showed different reactions against the combined therapy according to their intrinsic sensitivity against Gemcitabine (cell death, ROS production, ability to activate ERK 1/2 and JNK). Finally, tumors (e.g. 3 mL) could be effectively treated by using almost 4.2 × 105 times lower Gemcitabine doses compared to conventional therapies. Our data show that this combinatorial therapy might well play an important role in certain cell phenotypes with low readiness of ROS production. This would be of great significance in distinctly optimizing local pancreatic tumor treatments." @default.
• W2932868296 created "2019-04-11" @default.
• W2932868296 creator A5006724505 @default.
• W2932868296 creator A5008464293 @default.
• W2932868296 creator A5013545427 @default.
• W2932868296 creator A5016034707 @default.
• W2932868296 creator A5028373735 @default.
• W2932868296 creator A5030283020 @default.
• W2932868296 creator A5031199420 @default.
• W2932868296 creator A5043403393 @default.
• W2932868296 creator A5047587969 @default.
• W2932868296 creator A5058757303 @default.
• W2932868296 creator A5060572157 @default.
• W2932868296 creator A5064573109 @default.
• W2932868296 creator A5074889888 @default.
• W2932868296 creator A5076274329 @default.
• W2932868296 date "2019-08-01" @default.
• W2932868296 modified "2023-10-02" @default.
• W2932868296 title "The phenotype of target pancreatic cancer cells influences cell death by magnetic hyperthermia with nanoparticles carrying gemicitabine and the pseudo-peptide NucAnt" @default.
• W2932868296 cites W1539163284 @default.
• W2932868296 cites W1597713268 @default.
• W2932868296 cites W1942214720 @default.
• W2932868296 cites W1968242916 @default.
• W2932868296 cites W1971280995 @default.
• W2932868296 cites W1976986479 @default.
• W2932868296 cites W1986347816 @default.
• W2932868296 cites W1992550766 @default.
• W2932868296 cites W1993049577 @default.
• W2932868296 cites W1995225085 @default.
• W2932868296 cites W2001675597 @default.
• W2932868296 cites W2003601710 @default.
• W2932868296 cites W2009974957 @default.
• W2932868296 cites W2013110428 @default.
• W2932868296 cites W2017402027 @default.
• W2932868296 cites W2019592377 @default.
• W2932868296 cites W2024468216 @default.
• W2932868296 cites W2027684468 @default.
• W2932868296 cites W2027876233 @default.
• W2932868296 cites W2029566500 @default.
• W2932868296 cites W2038691872 @default.
• W2932868296 cites W2040353449 @default.
• W2932868296 cites W2041105700 @default.
• W2932868296 cites W2045246542 @default.
• W2932868296 cites W2048553024 @default.
• W2932868296 cites W2048629962 @default.
• W2932868296 cites W2055498907 @default.
• W2932868296 cites W2065273908 @default.
• W2932868296 cites W2078532650 @default.
• W2932868296 cites W2098158472 @default.
• W2932868296 cites W2100631929 @default.
• W2932868296 cites W2102777391 @default.
• W2932868296 cites W2106487824 @default.
• W2932868296 cites W2113985157 @default.
• W2932868296 cites W2114111268 @default.
• W2932868296 cites W2114616372 @default.
• W2932868296 cites W2115362310 @default.
• W2932868296 cites W2118971021 @default.
• W2932868296 cites W2119829982 @default.
• W2932868296 cites W2121882295 @default.
• W2932868296 cites W2133669258 @default.
• W2932868296 cites W2140306334 @default.
• W2932868296 cites W2144144571 @default.
• W2932868296 cites W2145413684 @default.
• W2932868296 cites W2158734599 @default.
• W2932868296 cites W2160501852 @default.
• W2932868296 cites W2289016838 @default.
• W2932868296 cites W2290264682 @default.
• W2932868296 cites W2331561938 @default.
• W2932868296 cites W2332264347 @default.
• W2932868296 cites W2539381937 @default.
• W2932868296 cites W2586535174 @default.
• W2932868296 cites W2752925284 @default.
• W2932868296 doi "https://doi.org/10.1016/j.nano.2018.12.019" @default.
• W2932868296 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/30940505" @default.
• W2932868296 hasPublicationYear "2019" @default.
• W2932868296 type Work @default.
• W2932868296 sameAs 2932868296 @default.
• W2932868296 citedByCount "27" @default.
• W2932868296 countsByYear W29328682962019 @default.
• W2932868296 countsByYear W29328682962020 @default.
• W2932868296 countsByYear W29328682962021 @default.
• W2932868296 countsByYear W29328682962022 @default.
• W2932868296 countsByYear W29328682962023 @default.
• W2932868296 crossrefType "journal-article" @default.
• W2932868296 hasAuthorship W2932868296A5006724505 @default.
• W2932868296 hasAuthorship W2932868296A5008464293 @default.
• W2932868296 hasAuthorship W2932868296A5013545427 @default.
• W2932868296 hasAuthorship W2932868296A5016034707 @default.
• W2932868296 hasAuthorship W2932868296A5028373735 @default.
• W2932868296 hasAuthorship W2932868296A5030283020 @default.
• W2932868296 hasAuthorship W2932868296A5031199420 @default.
• W2932868296 hasAuthorship W2932868296A5043403393 @default.
• W2932868296 hasAuthorship W2932868296A5047587969 @default.
• W2932868296 hasAuthorship W2932868296A5058757303 @default.
• W2932868296 hasAuthorship W2932868296A5060572157 @default.
• W2932868296 hasAuthorship W2932868296A5064573109 @default.
• W2932868296 hasAuthorship W2932868296A5074889888 @default.
• W2932868296 hasAuthorship W2932868296A5076274329 @default.

• next