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Patrick Griffin
Harvard Medical School
$300,720
Attributed
$300,720
Total exposure
2
Grants
2
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 $75.5K · FY2021–25$100K$75K$50K$25K$0
'21
'22
'23
'24
'25
Funding mix
By agency
NIH$300,720 · 2
By mechanism
K00$225,154 · 1
F99$75,566 · 1
Top collaborators
No co-investigators on record.
Most similar at Harvard Medical School
Same institution · by research overlap
- Alice E Kane$1,249,537
- Radhika Mathur$229,184
- Norbert Perrimon$95,273,017
- Sheida Nabavi$1,065,756
- Christophe O Benoist$53,813,482
Others in their field
Other Emerging Leaders on “Frailty”
- Robyn Lorraine Woods · Hennepin Healthcare Research Institute$19,215,638
- Bradley G Hammill · Duke University$15,773,864
- Barbara Halina Braffett · George Washington University$14,825,594
- Ionut Bebu · George Washington University$14,825,594
- Jeremy James Martinson · University Of Pittsburgh At Pittsburgh$14,058,562
- Joshua K Lin · Brigham And Women'S Hospital$12,116,982
Research focus
FrailtyExperimental StudyDevelopmental GeneDna MethylationEpigenetic ProcessEpigenomicsAutomobile DrivingAgingBindingAge RelatedDna Methylation ProfilingBiological AgingBiological MarkersBiologyBlood SpecimenCaloric RestrictionCategoriesChronologyClinical TrialsCohortCostCost EffectiveCytosineFunctional Disorder
Grant awards (5)
A novel method to identify regulators of biological aging â©based on high-throughput sequencing of epigenetic clocks.$75,550
K00 · FY2025 · AG · contact PI
A novel method to identify regulators of biological aging â©based on high-throughput sequencing of epigenetic clocks.$75,046
K00 · FY2024 · AG · contact PI
A novel method to identify regulators of biological aging â©based on high-throughput sequencing of epigenetic clocks.$74,558
K00 · FY2023 · AG · contact PI
A novel method to identify regulators of biological aging â©based on high-throughput sequencing of epigenetic clocks.$34,515
F99 · FY2022 · AG · contact PI
A novel method to identify regulators of biological aging â©based on high-throughput sequencing of epigenetic clocks.$41,051
F99 · FY2021 · AG · contact PI