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Multi-modal Micro Electrode Fluidic Array (MEFA) Shells for Brain Organoids

NINDS - National Institute of Neurological Disorders and Stroke

open
OpenLast verified: 2026-07-05

About This Grant

Abstract Brain organoids (BOs) derived from human stem cells bridge the gap between monolayer cell culture studies and animal models, which have well-documented limitations. Monolayer cell culture models fail to accurately replicate the 3D interconnectivity in the brain; animal models, while helpful, are limited due to interspecies differences, with most research focusing on rather phenotypical rather than mechanistic aspects. Concurrent with the advancement of BO models is the urgent need to develop 3D micro instrumentation supporting these organoids to investigate brain development and disease in their accurate physiological environment. Conventional microelectrode arrays (MEAs) used for neuronal cell culture studies are planar, which limits recording access to a small fraction of cells on the bottom side of the organoid. Also, conventional microfluidics is inherently planar, and while recent advances in 3D MEAs and 3D microfluidics have enabled electrical and chemical interrogation in 3D, combining both features with tunability and precision to allow independent and simultaneous control is challenging. Recently, we reported new 3D micro instrumentation in the form of 3D shell MEAs and demonstrated its applicability for electrical recording from BOs. They feature lithographically patterned and chip-integrated electrodes and self-folding polymer shells that can be triggered to wrap around BOs to measure electrical activity from the entire organoid surface. The 3D MEA shell system is modeled on and resembles a miniaturized electroencephalography (EEG) cap; the process used to make them is size-scalable, chip-integrated, and mass- producible. In the research, we aim to develop and validate 3D Micro Electrode Fluidic Array (MEFA) shells with multi-modal electrical recording and biochemical control capabilities, offering high spatiotemporal resolution, tunability, and scalability. Since 3D spatiotemporal patterns of neurochemicals play a critical role in molecular and cellular events of neural development and disease, we propose to apply and validate the MEFA shells in two studies that mimic neurodevelopment and monitor the spatiotemporal effects in neurological disorders and their treatments in vitro. We anticipate that the proposed 3D MEFAs would revolutionize brain sciences by permitting real-time, in-situ studies of electrical and chemical stimulation and interrogation of BOs in a high- throughput manner. The proposed 3D scalable, reproducible, and tunable 3D micro instrumentation for BOs has broad relevance to understanding brain development in utero and the development of anatomically accurate drug and toxicity screening platforms for brain sciences and neurological disorders.

Grant Summary

Multi-modal Micro Electrode Fluidic Array (MEFA) Shells for Brain Organoids is a NINDS - National Institute of Neurological Disorders and Stroke grant providing up to $428K for university, nonprofit, healthcare org. Applications are due 2028-05-31 (open). Check eligibility and apply with FindGrants.

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Focus Areas

health research

Eligibility

universitynonprofithealthcare org

How to Apply

Funding Range

Up to $428K

Deadline

2028-05-31

Complexity
Medium
  1. 1Confirm your organization is eligible for Multi-modal Micro Electrode Fluidic Array (MEFA) Shells for Brain Organoids from NINDS - National Institute of Neurological Disorders and Stroke, checking organization type, location, and any population or project requirements.
  2. 2Gather the required documents and information, including your organization details, project plan, and budget figures.
  3. 3Draft your application narrative and budget addressing the funder's priorities and review criteria. FindGrants can draft each section for you to review and edit.
  4. 4Review every section against the requirements checklist, then export a submission-ready application pack and submit it to NINDS - National Institute of Neurological Disorders and Stroke before the deadline.
This record is a past award, contract, or funder profile — useful for research, but not an open grant application. Check the original source for current opportunities from this funder.

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Multi-modal Micro Electrode Fluidic Array (MEFA) Shells for Brain Organoids: Frequently Asked Questions

Who is eligible for the Multi-modal Micro Electrode Fluidic Array (MEFA) Shells for Brain Organoids?

Multi-modal Micro Electrode Fluidic Array (MEFA) Shells for Brain Organoids is offered by NINDS - National Institute of Neurological Disorders and Stroke and is generally open to university, nonprofit, healthcare org. It is open to organizations nationwide unless the funder specifies otherwise. Review the specific eligibility terms before applying, since funders set their own requirements around organization type, location, and the population or project being served.

How much funding does the Multi-modal Micro Electrode Fluidic Array (MEFA) Shells for Brain Organoids provide?

Multi-modal Micro Electrode Fluidic Array (MEFA) Shells for Brain Organoids provides up to $428K per award from NINDS - National Institute of Neurological Disorders and Stroke. Actual award sizes depend on the scope of your project, available program funds, and the number of applicants, so build a budget that reflects realistic, allowable costs rather than the maximum figure.

When is the Multi-modal Micro Electrode Fluidic Array (MEFA) Shells for Brain Organoids deadline?

Applications for Multi-modal Micro Electrode Fluidic Array (MEFA) Shells for Brain Organoids are due 2028-05-31 (open). Because deadlines can change, verify the date with the funder, NINDS - National Institute of Neurological Disorders and Stroke, and give yourself enough time to prepare a complete, competitive application before the close date.

How do you apply for the Multi-modal Micro Electrode Fluidic Array (MEFA) Shells for Brain Organoids?

To apply for Multi-modal Micro Electrode Fluidic Array (MEFA) Shells for Brain Organoids, confirm your eligibility, gather the required documents, and prepare a narrative and budget that address the funder's priorities. FindGrants guides you step by step and can draft each section, then exports a submission-ready application pack for this grant from NINDS - National Institute of Neurological Disorders and Stroke.