Below is a brief summary. Please check the full solicitation before applying (link in resources section).

Executive Summary:

On February 17, 2026, the Department of Defense Congressionally Directed Medical Research Programs (CDMRP) released the Spinal Cord Injury Research Program (SCIRP) anticipated funding opportunities for Fiscal Year 2026 (FY26), providing researchers with key priorities and award mechanisms to plan applications ahead of full Funding Opportunity Announcements. This pre-announcement outlines the SCIRP’s research goals and award structures, including a strong emphasis on clinical, translational, and investigator-initiated research in spinal cord injury. Final Funding Opportunity Announcements with deadlines will be posted on Grants.gov once available.

How much funding would I receive?

The pre-announcement specifies award maximums for each mechanism (total costs, including direct and indirect):

• Clinical Trial Award

  • Single PI: up to $4.8M over 4 years

  • Early-Career Partnership Option: up to $4.96M over 4 years

• Clinical Translation Research Award

  • Single PI: up to $2.0M over 3 years

  • Early-Career Partnership: up to $2.16M over 3 years

• Translational Research Award

  • Single PI: up to $2.0M over 3 years

  • Early-Career Partnership: up to $2.16M over 3 years

• Investigator-Initiated Research Award

  • Single PI: up to $800,000 over 3 years

  • Early-Career Partnership: up to $960,000 over 3 years

What could I use the funding for?

Funding supports research that advances spinal cord injury (SCI) understanding, treatment, and care across four major areas:

• Acute Injury Intervention

  • Develop and test interventions to protect spinal cord tissue after injury with measurable neurological benefit.

• Secondary Health Effects

  • Research interventions addressing long-term consequences of SCI across the lifespan.

• Psychosocial Issues

  • Test strategies for promoting psychosocial well-being tailored to people with SCI and their families/care partners.

• Rehabilitation and Regeneration

  • Advance rehabilitation strategies and regenerative/neuroplastic approaches for improved functional recovery.

Are there any additional benefits I would receive?

FY26 SCIRP includes an Early-Career Partnership Option across all award mechanisms, designed to:

• Encourage collaboration between established and emerging investigators.

• Provide two individual awards under a single project with separate budgets.

• Support career development while increasing research capacity.

What is the timeline to apply and when would I receive funding?

Pre-Announcement (released): February 17, 2026.

Next Steps:

• Full Funding Opportunity Announcements (FOAs) will be posted on Grants.gov and contain specific pre-application and application deadlines.

• Applicants must submit a pre-application (via eBRAP) prior to the full application.

• Funding awards start after review and final selection dates in the FOAs. (Exact dates not yet published.)

Where does this funding come from?

SCIRP is part of the CDMRP, a Department of Defense research portfolio funded through the Defense Appropriations Act. For FY26, the CDMRP received appropriations to fund 34 research programs including SCIRP.

Who is eligible to apply?

Eligibility varies by award mechanism, but in general:

• Independent investigators at all career levels are eligible for single PI awards.

• Early-Career Partnership Option requires one early-career investigator meeting defined experience criteria.

Specific eligibility criteria and organizational requirements will be detailed in the FOAs. al relevance.

What companies and projects are likely to win?

Projects most competitive will:

• Directly address one or more SCIRP priority research areas.

• Demonstrate scientific impact, innovation, and relevance to SCI outcomes.

• Include clear paths to clinical or translational impact (as specified by mechanism).

• (For Early-Career Partnership) show strong mentorship and collaborative planning.

Are there any restrictions I should know about?

• Pre-applications are required before full applications.

• All research must conform to final FOA requirements once released.

• Funding opportunity terms, budgets, eligible costs, and indirect cost policies will be specified in FOAs.

How long will it take me to prepare an application?

Preparation time depends on research maturity and team readiness, but investigators should factor in:

• Time to align research with SCIRP priorities.

• Drafting a competitive pre-application (often weeks before FOA deadlines).

• Preparing full application (including budgets, human subjects, partnerships).
  (SCIRP pre-announcement is intended to give applicants advance planning time.)

How can BW&CO help?

If you need assistance with strategy, positioning against SCIRP priorities, or full proposal writing support, BW&CO can:

• Align your research aims to SCIRP’s priority areas.

• Draft compelling abstracts and narratives tailored to CDMRP review criteria.

• Provide budget and compliance support based on CDMRP rules.

How much would BW&CO Charge?

We have both fractional engagements ($250 an hour) and full engagements ($13,000 + 5%) available.

Additional Resources

Review the solicitation here.

Below is a brief summary. Please check the full solicitation before applying (link in resources section).

Executive Summary:

The CDMRP’s FY26 Lupus Research Program (LRP) pre-announcement signals anticipated funding opportunities supporting innovative, high-impact lupus research aimed at understanding, preventing, diagnosing, and treating lupus, as well as improving the quality of life for individuals living with lupus. This pre-announcement does not include application deadlines or guarantee funding — the official Funding Opportunity Announcements (FOAs) will be posted on Grants.gov with formal deadlines and requirements. Investigators should begin planning now to align with expected FY26 mechanisms and program goals.

How much funding would I receive?

The pre-announcement outlines multiple award mechanisms with specified maximum total costs:

• Idea Award – up to $300,000 (2 years)

• Impact Award – up to $1,000,000 (4 years)

• Transformative Vision Development Award – up to $250,000 (2 years)

• Transformative Vision Award – up to $2,000,000 (4 years)

What could I use the funding for?

Funding must support research aligned with one or more LRP focus areas:

Biological & Clinical Research

• Mechanisms of lupus disease and pathobiology

• Genetic, epigenetic, and gene–environment interaction studies

• Disease heterogeneity, presentations, and outcomes
  Applies to Idea & Impact Awards

Quality of Life & Intervention Studies

• Addressing social determinants of health

• Nutrition, symptom control, comparative effectiveness

• Outcomes research and patient-reported outcomes
  Applies to Impact, Transformative Vision Development, and Transformative Vision Awards

Innovative Health Care Delivery Models

• Models improving lupus outcomes
  Applies to Impact, Transformative Vision Development, and Transformative Vision Awards

Are there any additional benefits I would receive?

• Mechanism clarity ahead of FOAs allows early planning.

• Subscribe to email updates through eBRAP for timely notifications when FOAs are released.

• Being positioned early can improve competitiveness.

What is the timeline to apply and when would I receive funding?

• Pre-announcement released: February 11, 2026.

• Formal FOAs — will be posted on Grants.gov with official pre-application and full application deadlines.

• Investigators must submit a pre-application through eBRAP prior to the pre-application deadline specified in the FOAs.

Where does this funding come from?

Funding is provided through the FY26 Defense Appropriations Act appropriated to the Congressionally Directed Medical Research Programs (CDMRP) and managed by the Defense Health Agency Research & Development and Medical Research and Development Command (DHA R&D-MRDC).

Who is eligible to apply?

Eligibility is defined by mechanism:

• Idea Award: Investigators at or above postdoctoral level.

• Impact & Transformative Awards: Investigators at or above Assistant Professor (or equivalent).

• Team Requirements: Transformative mechanisms must include at least one lupus consumer advocate as part of the research team.

What companies and projects are likely to win?

Projects that:

• Align tightly with the specified focus areas.

• Demonstrate high innovation and impact potential.

• Involve strong preliminary data (as required for Transformative Vision Award).

• Include meaningful involvement of lupus consumer advocates (for transformative mechanisms).

Are there any restrictions I should know about?

• This pre-announcement is not a funding commitment; only the FOAs establish requirements and obligations.

• Applications cannot support clinical trials in Idea or Impact Awards; Transformative Vision Awards may support clinical trials but not animal studies.

• Transformative Vision Development Awards cannot support clinical trials or animal studies.

How long will it take me to prepare an application?

Preparation time depends on mechanism and complexity, but begin planning now — especially for pilot data and consumer engagement for transformative mechanisms. Historically, competitive CDMRP applications often require several weeks to months of focused preparation.

How can BW&CO help?

BW&CO can:

• Develop alignment narratives tied to LRP focus areas.

• Assist with preliminary data framing and research strategy articulation.

• Craft strong consumer advocacy integration plans.

• Ensure conformity with CDMRP review criteria once FOAs are released.

How much would BW&CO Charge?

We have both fractional engagements ($250 an hour) and full engagements ($13,000 + 5%) available.

Additional Resources

Review the solicitation here.

Below is a brief summary. Please check the full solicitation before applying (link in resources section).

Executive Summary:

The NIH BRAIN Initiative: Theories, Models and Methods for Analysis of Complex Data from the Brain (RFA-DA-27-004) is a competitive R01 research grant supporting the development of innovative theories, computational models, and analytical tools to advance understanding of brain function from complex neuroscience data. This funding is part of the NIH BRAIN Initiative, aiming to transform neuroscience through quantitative, predictive frameworks. Applications are due as soon as October 6th, 2026.

How much funding would I receive?

Application budgets are not limited, but NIH expects direct costs of approximately $150,000 – $350,000 per year.

Awards are for up to 3 years of support.

NIH anticipates funding multiple awards each cycle, depending on score and available appropriations.

What could I use the funding for?

Theories of brain function

Development of predictive, mathematically-grounded theories explaining how behavior arises from neural structure, circuit dynamics, computation, cognition, and environmental variables. Examples include:

• Theories of embodied computation that anchor the neural representation of sensory, cognitive, and motor variables to an individual/animal’s ongoing interactions with the environment through dynamic, moment-to-moment, circular, and iterative processes.

• Theories that bridge multiple scales of spatial organization (e.g., molecular, synaptic, cellular, circuit, systems) and/or temporal dynamics (e.g., milliseconds to lifetimes) to generate testable predictions of brain-behavior links or cognitive function.

• Theories linking circuit dynamics and function to specific properties of cell types or anatomical connections, identifying general rules, scaling principles, and contributions of specific circuit motifs to computation.

• Theories elucidating fundamental computational principles employed by biological neural networks, potentially drawing inspiration from or contrasting with artificial networks, but firmly grounded in biological constraints (e.g., neuronal/synaptic dynamics, connectivity patterns, metabolic limits, specific cell-type properties, learning rules).

Computational models of neural and behavioral dynamics

Development and validation of quantitative models that are mechanistically grounded, interpretable, predictive, and rigorously tested against neural and behavioral data. Examples include:

• Mechanistic, interpretable, and/or predictive models of neural dynamics, circuit function, or brain-behavior links that integrate biological details with computational principles.

• Models that integrate knowledge across multiple levels (e.g., linking behavior to neural population activity and cellular/circuit properties).

• Models of cognitive processing (e.g., sensory coding, decision-making, motor control, learning, memory) that are mechanistically grounded in identified circuit elements and dynamics, make quantitative predictions, and are rigorously tested against neural and behavioral data, potentially under ecologically relevant or challenging conditions (e.g., limited information, dynamic environments).

• Development and analysis of neural-inspired computational architectures or artificial intelligence/machine learning systems explicitly designed to gain novel insights into brain function.

Methods for complex data analysis

Development of novel computational, statistical, and analytical techniques designed to extract key insights from complex, large-scale neuroscience datasets. Examples include:

• Development of innovative and scalable computational/statistical methods for dimensionality reduction, identifying latent structure, disentangling contributing factors (e.g., sensory, motor, cognitive, state variables), extracting key dynamical features, or characterizing information flow within large, complex neural and behavioral datasets.

• Novel approaches for principled data fusion and assimilation to quantitatively integrate heterogeneous datasets (e.g., linking behavior with multi-regional activity, anatomical connectivity, and cell-type information) to infer new theories of brain function, or to constrain and validate multi-scale computational models.

• Novel statistical/signal processing methods (e.g., component analysis, graphical models, compressed sensing) to track structure in neural data and link to biophysical signals for mechanistic insights across scales.

Are there any additional benefits I would receive?

• Collaboration with NIH program staff and participation in the broader BRAIN Initiative network.

• Tools developed are expected to be shared with the neuroscience community, enhancing visibility and impact.

What is the timeline to apply and when would I receive funding?

Application Due Dates (all by 5:00 PM local time):

• Cycle 2: October 6, 2026

• Cycle 3: October 6, 2027

Expiration of this NOFO: November 9, 2027

Following review, awards generally begin in March–July of the year after submission.

Where does this funding come from?

This funding is provided by the National Institutes of Health (NIH) through multiple participating Institutes and Centers under the NIH BRAIN Initiative, including NIDA, NEI, NIA, NIAAA, NIBIB, NICHD, NIDCD, NIMH, NINDS, and NCCIH.

Who is eligible to apply?

Eligible applicant organizations include:

• Higher Education Institutions

• Nonprofit organizations

• For-profit organizations (including small businesses)

• Local/state governments and tribal governments

• Foreign organizations (with restrictions on foreign subawards)

• Other research or non-profit entities

Eligible individuals are those qualified to lead the proposed research.

What companies and projects are likely to win?

Strong applicants typically:

• Propose novel and rigorous theoretical or computational frameworks.

• Demonstrate deep expertise in neuroscience, modeling, or computational analysis.

• Have clear plans to validate and share tools with the research community.

• Show relevance to BRAIN Initiative goals and the integration of complex datasets.

Are there any restrictions I should know about?

• Clinical trials are not allowed—only research on theory/model/method development.

• Proposed work must go beyond simple data collection and focus on quantitative theories or analytical tools.

• Foreign subawards are not permitted; collaborations must be unfunded or through other compliant mechanisms.

How long will it take me to prepare an application?

Plan 4-5 months minimum for:

• Concept development

• Budget preparation

• Letters of support and team coordination

• Registering with Grants.gov and eRA Commons (if not already completed)

NIH registration processes can take 6+ weeks, so start early.

How can BW&CO help?

BW&CO can assist with:

• Translating your science aims into NIH-ready specific aims.

• Coordinating NIH format and submission requirements.

• Aligning proposal with BRAIN Initiative priorities.

How much would BW&CO Charge?

We have both fractional engagements ($250 an hour) and full engagements ($13,000 + 5%) available.

Additional Resources

Review the solicitation here.