top of page

Imaging, Biomarkers and Digital Pathomics for the Early Detection of Premetastatic Cancer and Precancerous Lesions Associated with Lethal Phenotypes (R01 Clinical Trial Optional)

HHS-NIH11

Status:

Active

April 12, 2022

Posted:

Deadline: 

September 7, 2025

Funding

Program:

Award Floor:

Ceiling:

Match Required?

No

Eligibility

All

States:

Entity Types:

State governments, County governments, City or township governments, Special district governments, Independent school districts, Public & State controlled institutions of higher education, Native American tribal governments (Federally recognized), Public housing authorities, Native American tribal organizations, Nonprofits (with 501(c)(3) status), Nonprofits (without 501(c)(3) status)

Other Eligible Applicants include the following: Alaska Native and Native Hawaiian Serving Institutions; Asian American Native American Pacific Islander Serving Institutions (AANAPISISs); Eligible Agencies of the Federal Government; Faith-based or Community-based Organizations; Hispanic-serving Institutions; Historically Black Colleges and Universities (HBCUs); Indian/Native American Tribal Governments (Other than Federally Recognized); Non-domestic (non-U.S.) Entities (Foreign Organizations); Regional Organizations; Tribally Controlled Colleges and Universities (TCCUs) ; U.S. Territory or Possession.

This Funding Opportunity Announcement (FOA) will support the development of state-of-the-art projects that integrate imaging, biomarkers, digital pathomics, glycomics, metabolomics, other omic information and/or meta data obtained from platforms including but not limited to lower resolution diagnostic acquisitions and systemic biomarker results to high resolution single-cell analytics / imaging applied to the characterization of heterogeneous cell populations within tumor for improving current approaches for: (1) the early detection of organ confined premetastatic aggressive cancer, and, (2) identifying precancerous lesions associated with a subsequent lethal phenotype. This FOA specifically attempts to address and improve diagnostic uncertainty in clinical decisions by improving detection sensitivity and specificity of integrated multiparametric platforms. For example, N-dimensional co-registered, cross-correlated imaging data integrated with multiplexed biomarker results and/or digital pathomics or glycomic, or metabolomic imaging using analytic strategies such as artificial intelligence or virtual reality visualization techniques. The projects supported by this FOA will collectively participate in the existing Consortium for Imaging and Biomarkers (CIB) Research Program. The goals of the CIB are to: (1) improve diagnostic performance by developing methodology for the early identification of potentially lethal cancer versus non-lethal disease, (2) to minimize/better manage overdiagnosis and (3) to reduce false positives and false negatives.

Contact

Email:

Phone:

Source Type:

Federal

Tired of searching for grants? Consider a Scouting Report.

bottom of page