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Kristyn S Masters
University Of Wisconsin-Madison
$7,918,155
Attributed
$10,861,814
Total exposure
12
Grants
8
Lead (contact PI)
Attributed= this PI's even-split share of every grant they're on (the fair, additive number). Exposure = full size of all those grants.
Funding over time
peak $1.3M · FY2006–25$2M$1.5M$1M$500K$0
'06
'07
'08
'09
'10
'11
'12
'13
'14
'15
'16
'17
'18
'19
'20
'21
'22
'23
'24
'25
Funding mix
By agency
NIH$10,861,814 · 12
By mechanism
R01$8,886,409 · 7
R21$1,975,405 · 5
Top collaborators
- Pamela K Kreeger12 shared
- Paul J. Campagnola6 shared
- Samuel H. Gellman2 shared
- Angela L F Gibson1 shared
- Xudong Wang1 shared
Most similar at University Of Wisconsin-Madison
Same institution · by research overlap
- Pamela K Kreeger$8,176,069
- Lindsay Robyn Kalan$1,933,171
- Filiz Yesilkoy$1,353,184
- Meghan Brennan$2,143,319
- Matthew W Conklin$1,734,808
Others in their field
Top investigators on “Environment”
- David Divins · Consortium For Ocean Leadership, Inc$609,772,544
- Mitchell J Malone · Texas A&M Research Foundation$344,583,004
- Gary D Acton · University Of California-Davis$320,373,312
- Steven E Reis · University Of Pittsburgh At Pittsburgh$247,744,348
- Everette D Joseph · Howard University$244,517,972
- Eric J Barron · Pennsylvania State Univ University Park$244,517,972
Research focus
EnvironmentEngineeringIn VitroTissuesCellsExtracellular MatrixDesignTissue EngineeringBaseInvestigationElements3-DimensionalPhenotypeResponseScaffoldIn Vitro ModelInnovationCell BehaviorBiologicalExperimental StudyPropertyStimulusStructureCell Physiology
Grant awards (35)
Engineered models of age-related biochemical, biophysical, and hormonal changes to elucidate mechanisms of aortic valve disease onset$487,896
R01 · FY2025 · HL · contact PI
Enhanced Wound Healing Through Nanogenerator-Driven Self-Activated Electrical Stimulation$469,766
R01 · FY2025 · AR
Deciphering mechanisms that drive collective cell migration$328,708
R01 · FY2025 · GM
Engineered models of age-related biochemical, biophysical, and hormonal changes to elucidate mechanisms of aortic valve disease onset$422,401
R01 · FY2024 · HL · contact PI
Deciphering mechanisms that drive collective cell migration$328,708
R01 · FY2024 · GM
Deciphering mechanisms that drive collective cell migration$328,724
R01 · FY2023 · GM
Engineered ECM platforms to analyze progression in high grade serous ovarian cancer$543,106
R01 · FY2022 · CA
Deciphering mechanisms that drive collective cell migration$328,724
R01 · FY2022 · GM
Engineered ECM platforms to analyze progression in high grade serous ovarian cancer$57,513
R01 · FY2022 · CA
Engineered ECM platforms to analyze progression in high grade serous ovarian cancer$425,419
R01 · FY2021 · CA
Engineered Models of Diseased Heart Valves to Study Sex Bias in Disease Progression$343,345
R01 · FY2021 · HL · contact PI
Engineered ECM platforms to analyze progression in high grade serous ovarian cancer$491,592
R01 · FY2020 · CA
Engineered Models of Diseased Heart Valves to Study Sex Bias in Disease Progression$380,900
R01 · FY2020 · HL · contact PI
Engineered ECM platforms to analyze progression in high grade serous ovarian cancer$436,446
R01 · FY2019 · CA
Engineered Models of Diseased Heart Valves to Study Sex Bias in Disease Progression$378,520
R01 · FY2019 · HL · contact PI
Engineered ECM platforms to analyze progression in high grade serous ovarian cancer$436,391
R01 · FY2018 · CA
Impact of soluble and physical stimuli on tumor angiogenesis and drug sensitivity$199,665
R21 · FY2017 · CA
Identification of novel therapeutic targets for age-related macular degeneration via a combined tissue engineering and systems biology approach$191,250
R21 · FY2017 · EY · contact PI
Identification of novel therapeutic targets for age-related macular degeneration via a combined tissue engineering and systems biology approach$242,900
R21 · FY2016 · EY · contact PI
Development of Complex Culture Systems to Study Valvular Dysfunction$221,020
R21 · FY2016 · EB · contact PI
Impact of soluble and physical stimuli on tumor angiogenesis and drug sensitivity$166,388
R21 · FY2016 · CA
Development of Complex Culture Systems to Study Valvular Dysfunction$182,770
R21 · FY2015 · EB · contact PI
Combinatorial analysis of migration stimuli for enhanced wound healing$276,300
R01 · FY2014 · GM · contact PI
Creating Engineered Models of Valvular Disease to Study Anti-Calcific Therapies$243,323
R01 · FY2014 · HL · contact PI
Creating Engineered Models of Valvular Disease to Study Anti-Calcific Therapies$341,964
R01 · FY2013 · HL · contact PI
Combinatorial analysis of migration stimuli for enhanced wound healing$266,817
R01 · FY2013 · GM · contact PI
Combinatorial analysis of migration stimuli for enhanced wound healing$253,896
R01 · FY2012 · GM · contact PI
Nylon-3 Copolymers as Synthetic Cell-Adhesive Moieties for Tissue Engineering$183,964
R21 · FY2012 · EB · contact PI
Creating Engineered Models of Valvular Disease to Study Anti-Calcific Therapies$368,060
R01 · FY2011 · HL · contact PI
Combinatorial analysis of migration stimuli for enhanced wound healing$259,775
R01 · FY2011 · GM · contact PI
Nylon-3 Copolymers as Synthetic Cell-Adhesive Moieties for Tissue Engineering$208,793
R21 · FY2011 · EB · contact PI
Creating Engineered Models of Valvular Disease to Study Anti-Calcific Therapies$370,700
R01 · FY2010 · HL · contact PI
Creating Engineered Models of Valvular Disease to Study Anti-Calcific Therapies$317,415
R01 · FY2009 · HL · contact PI
Micropatterned EGF of Accelerated Wound Healing$174,163
R21 · FY2007 · EB · contact PI
Micropatterned EGF of Accelerated Wound Healing$204,492
R21 · FY2006 · EB · contact PI