|
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Immunocompatible electronic polymers and devices for implantable sensors and stimulators that resist foreign-body responses |
| 1DP2EB034563-01 |
|
NIBIB |
2022 |
|
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Novel nanoscale approaches to whole tissue reprogramming |
| 3DP2EB028110-01S1 |
|
NIBIB |
2022 |
|
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Immulogical Niches and Non-invasive Biosensors for Autoimmune Monitoring |
| 4R00EB028840-03 |
|
NIBIB |
2022 |
|
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Flexible and Wireless Bioelectronics for Continuous Monitoring of Intracranial Pressure |
| 4R00EB031178-03 |
|
NIBIB |
2022 |
|
|
Flexible and Wireless Bioelectronics for Continuous Monitoring of Intracranial Pressure |
| 5K99EB031178-02 |
|
NIBIB |
2022 |
|
|
Injectable Hydrogels to Protect Transplanted Cells from Hypoxia |
| 5R01EB027666-04 |
|
NIBIB |
2022 |
|
|
An optogenetic-based control paradigm for neuromodulation of bladder function following spinal cord injury |
| 5R21EB031249-02 |
|
NIBIB |
2022 |
|
|
Flexible and Wireless Bioelectronics for Continuous Monitoring of Intracranial Pressure |
| 1 K99 EB031178-01 |
KHALIFEHZADEH, LAYLA |
NIBIB |
2021 |
|
|
Augmenting Implanted Neuroprosthetics with Targeted Health Monitoring for Spinal Cord Injury - the LIFELINE |
| 1 R01 EB031911-01 |
KILGORE, KEVIN L |
NIBIB |
2021 |
|
|
iPPSIS: implanted Passive Pressure Sensor Interrogated with (ultra)-Sound |
| 1 R21 EB031545-01 |
MYERS, DAVID RICHARD |
NIBIB |
2021 |
