1156 Improved anti-ovarian cancer effectiveness of HER2-directing ADC via engineering with a super-hydrophilic PMPC polymer

Bibliographic Details
Main Authors:	Jie Ren, Masakazu Kamata, Chloe E Jepson, Stella U Azolibe, Charles J Kuhlmann, Madison T Blucas, Yoshiko N Kamata
Format:	Article
Language:	English
Published:	BMJ Publishing Group 2023-11-01
Series:	Journal for ImmunoTherapy of Cancer

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author	Jie Ren Masakazu Kamata Chloe E Jepson Stella U Azolibe Charles J Kuhlmann Madison T Blucas Yoshiko N Kamata
author_facet	Jie Ren Masakazu Kamata Chloe E Jepson Stella U Azolibe Charles J Kuhlmann Madison T Blucas Yoshiko N Kamata
author_sort	Jie Ren
collection	DOAJ
first_indexed	2024-03-11T12:54:44Z
format	Article
id	doaj.art-a8601dd74bc0427fbadc5f16c07ff960
institution	Directory Open Access Journal
issn	2051-1426
language	English
last_indexed	2024-03-11T12:54:44Z
publishDate	2023-11-01
publisher	BMJ Publishing Group
record_format	Article
series	Journal for ImmunoTherapy of Cancer
spelling	doaj.art-a8601dd74bc0427fbadc5f16c07ff9602023-11-03T17:30:08ZengBMJ Publishing GroupJournal for ImmunoTherapy of Cancer2051-14262023-11-0111Suppl 110.1136/jitc-2023-SITC2023.11561156 Improved anti-ovarian cancer effectiveness of HER2-directing ADC via engineering with a super-hydrophilic PMPC polymerJie Ren0Masakazu Kamata1Chloe E Jepson2Stella U Azolibe3Charles J Kuhlmann4Madison T Blucas5Yoshiko N Kamata6University of Alabama at Birmingham, Birmingham, AL, USAUniversity of Alabama at Birmingham, Birmingham, AL, USAUniversity of Alabama at Birmingham, Birmingham, AL, USAUniversity of Alabama at Birmingham, Birmingham, AL, USAUniversity of Alabama at Birmingham, Birmingham, AL, USAUniversity of Alabama at Birmingham, Birmingham, AL, USAUniversity of Alabama at Birmingham, Birmingham, AL, USA
spellingShingle	Jie Ren Masakazu Kamata Chloe E Jepson Stella U Azolibe Charles J Kuhlmann Madison T Blucas Yoshiko N Kamata 1156 Improved anti-ovarian cancer effectiveness of HER2-directing ADC via engineering with a super-hydrophilic PMPC polymer Journal for ImmunoTherapy of Cancer
title	1156 Improved anti-ovarian cancer effectiveness of HER2-directing ADC via engineering with a super-hydrophilic PMPC polymer
title_full	1156 Improved anti-ovarian cancer effectiveness of HER2-directing ADC via engineering with a super-hydrophilic PMPC polymer
title_fullStr	1156 Improved anti-ovarian cancer effectiveness of HER2-directing ADC via engineering with a super-hydrophilic PMPC polymer
title_full_unstemmed	1156 Improved anti-ovarian cancer effectiveness of HER2-directing ADC via engineering with a super-hydrophilic PMPC polymer
title_short	1156 Improved anti-ovarian cancer effectiveness of HER2-directing ADC via engineering with a super-hydrophilic PMPC polymer
title_sort	1156 improved anti ovarian cancer effectiveness of her2 directing adc via engineering with a super hydrophilic pmpc polymer
work_keys_str_mv	AT jieren 1156improvedantiovariancancereffectivenessofher2directingadcviaengineeringwithasuperhydrophilicpmpcpolymer AT masakazukamata 1156improvedantiovariancancereffectivenessofher2directingadcviaengineeringwithasuperhydrophilicpmpcpolymer AT chloeejepson 1156improvedantiovariancancereffectivenessofher2directingadcviaengineeringwithasuperhydrophilicpmpcpolymer AT stellauazolibe 1156improvedantiovariancancereffectivenessofher2directingadcviaengineeringwithasuperhydrophilicpmpcpolymer AT charlesjkuhlmann 1156improvedantiovariancancereffectivenessofher2directingadcviaengineeringwithasuperhydrophilicpmpcpolymer AT madisontblucas 1156improvedantiovariancancereffectivenessofher2directingadcviaengineeringwithasuperhydrophilicpmpcpolymer AT yoshikonkamata 1156improvedantiovariancancereffectivenessofher2directingadcviaengineeringwithasuperhydrophilicpmpcpolymer

1156 Improved anti-ovarian cancer effectiveness of HER2-directing ADC via engineering with a super-hydrophilic PMPC polymer

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