Public Plans
Public plans are plans created using the DMP Tool service and shared publicly by their owners. They are not vetted for quality, completeness, or adherence to funder guidelines.
Plans (105)
NIH Data Management and Sharing Plan - University of Georgia
Melt Electro-writing of Biopolymer with Multi-material, Multilayered, and Multicomponent Architectures for Cardiovascular
Libin Yang, University of Georgia (uga.edu)
NIH DMS Plan Format 2023 Version (Allowed for due dates prior to May 25th, 2026)
Gray Divorce (Post-Age-50) and the Challenging 30s and 40s: A National Cohort-Sequential Longitudinal Study
Alan Reifman, Texas Tech University (ttu.edu)
NIH DMS Plan Format 2023 Version (Allowed for due dates prior to May 25th, 2026)
Machine learning-driven Rickettsia vaccination
Sean Riley, University of Maryland, College Park (umd.edu)
NIH-NIMH: The National Institute of Mental Health (DEPRECATED - use 2026 NIH format)
Thyroid hormone regulation of developmental neurogenesis and cortical formation
Federico Salas-lucia, University of Chicago (uchicago.edu)
NIH DMS Plan Format 2023 Version (Allowed for due dates prior to May 25th, 2026)
Delayed Third-Party Bone Marrow Transplantation for the Induction of Transplant Tolerance: A Potential Solution for All
Hong Xu, Northwestern University
NIH-Default DMSP
Increasing Trial Enrollment of Rural Residents in ARDS Clinical Trials
Dustin Krutsinger, University of Nebraska Medical Center (unmc.edu)
NIH-Default DMSP
Interaction of maternal immune activation and risk genes in ASD-related learning diabilities
First Last, University of Delaware (udel.edu)
NIH-Default DMSP
Computational methods for benchmarking and development of best practices for virus discovery and characterization in the HVP consortium
Daniel Park, Broad Institute (broadinstitute.org)
NIH DMS Plan Format 2023 Version (Allowed for due dates prior to May 25th, 2026)
Alzheimer’s Collaborative Creating CDEs using CDM (A4C)
Christopher Chute, Johns Hopkins University (jhu.edu)
NIH DMS Plan Format 2023 Version (Allowed for due dates prior to May 25th, 2026)
A minimally invasive, wireless stent for the treatment of hypertension using neural stimulation.
Jonathan Viventi, Duke University (duke.edu)
