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Zachary C Danziger

Duke University

$6,100,247
Attributed
$6,100,247
Total exposure
4
Grants
4
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. They are the sole PI on all grants (the two match).

Funding over time

peak $1.4M · FY201325
$2M$1.5M$1M$500K$0
'13
'14
'15
'16
'17
'18
'19
'20
'21
'22
'23
'24
'25

Funding mix

By agency

NIH$6,100,247 · 4

By mechanism

R01$4,095,822 · 2
OT2$1,897,141 · 1
F32$107,284 · 1

Top collaborators

No co-investigators on record.

Most similar at Duke University

Same institution · by research overlap

Others in their field

Top investigators on “Design

Research focus

DesignTrainingData SetAnimalsEnsureInsightLearningSeriesPersonsWeightCostCohortStructureValidationInventionRelating To Nervous SystemCommunitiesRecurrent Neural NetworkReflex ControlReportingNeuronsOperative Surgical ProceduresBladderNerve

Grant awards (14)

A new hybrid modeling framework combining biophysics and deep learning to predict and optimize peripheral neuromodulation outcomes in lower urinary tract disease$605,981
R01 · FY2025 · DK · contact PI
A new hybrid modeling framework combining biophysics and deep learning to predict and optimize peripheral neuromodulation outcomes in lower urinary tract disease$634,078
R01 · FY2024 · DK · contact PI
A new hybrid modeling framework combining biophysics and deep learning to predict and optimize peripheral neuromodulation outcomes in lower urinary tract disease$602,938
R01 · FY2023 · DK · contact PI
An Intracortical Brain-Computer Interface Model for High Efficiency Development of Closed-Loop Neural Decoding Algorithms$142,591
R01 · FY2023 · NS · contact PI
An Intracortical Brain-Computer Interface Model for High Efficiency Development of Closed-Loop Neural Decoding Algorithms$111,941
R01 · FY2023 · NS · contact PI
A new hybrid modeling framework combining biophysics and deep learning to predict and optimize peripheral neuromodulation outcomes in lower urinary tract disease$660,336
R01 · FY2022 · DK · contact PI
An Intracortical Brain-Computer Interface Model for High Efficiency Development of Closed-Loop Neural Decoding Algorithms$308,752
R01 · FY2022 · NS · contact PI
A New Paradigm for Systems Physiology Modeling: Biomechanistic Learning Augmentation with Deep Differential Equation Representations (BLADDER)$872,000
OT2 · FY2021 · OD · contact PI
An Intracortical Brain-Computer Interface Model for High Efficiency Development of Closed-Loop Neural Decoding Algorithms$334,572
R01 · FY2021 · NS · contact PI
A New Paradigm for Systems Physiology Modeling: Biomechanistic Learning Augmentation with Deep Differential Equation Representations (BLADDER)$1,025,141
OT2 · FY2020 · OD · contact PI
An Intracortical Brain-Computer Interface Model for High Efficiency Development of Closed-Loop Neural Decoding Algorithms$327,626
R01 · FY2020 · NS · contact PI
An Intracortical Brain-Computer Interface Model for High Efficiency Development of Closed-Loop Neural Decoding Algorithms$367,007
R01 · FY2019 · NS · contact PI
Stimulation mediated sensory enhancement of the urethral afferents$55,094
F32 · FY2014 · DK · contact PI
Stimulation mediated sensory enhancement of the urethral afferents$52,190
F32 · FY2013 · DK · contact PI