Credit: Blood Journal (2026). DOI: 10.1182/blood.2025031826
A freeze-dried blood product that could be stored for years on ambulances or in remote emergency departments is showing promise at treating traumatic brain injuries. The news comes from a mouse study done by researchers at UC San Francisco. If it pans out in people, it could answer a huge unmet need for therapies that treat these injuries, which are the leading cause of death in people under 44 years old. A research paper on this topic is published in the Blood Journal.
In addition to the immediate bleeding, traumatic brain injury (TBI) also causes dangerous brain swelling days later, as blood vessels begin to leak. Even if a person is rushed to the hospital, doctors have few options, aside from surgery, to stop the bleeding or the brain swelling.
“In some cases, surgeons will remove part of the skull to relieve the pressure—but there’s no drug that effectively treats swelling, or cerebral edema, directly,” said Shibani Pati, MD, Ph.D., director of the UCSF Center for Research Transfusion Medicine and Cell Therapies and senior author of the paper. “We were excited to see how readily this product reinforced damaged blood vessels in the brain.”
Credit: Blood Journal (2026). DOI: 10.1182/blood.2025031826
The product, called thrombosomes, was originally developed to control bleeding in battlefield settings. It is derived from platelets that have been freeze-dried with a sugar called trehalose, which helps preserve some of their beneficial contents. It has a shelf life of up to five years—far longer than the seven-day shelf life of fresh platelets from human blood donors.
Fresh platelets, which must be stored in refrigerators, are used to treat hemorrhage and some cancer patients and to prevent bleeding during surgery. But they have not been shown to be effective against TBI.
Scientists have only learned how to preserve platelets in the last 30 years, hoping to address an ongoing global shortage of fresh platelets, but no preserved platelet product has been approved for human use, let alone TBI.
The team tested thrombosomes on the blood vessel cells in petri dishes and in 3D organoid models of blood vessels. The product made both the cell layers and vessels resilient to damage.
Mice that received the product either an hour or a day after a brain injury had less hemorrhage and their blood vessels were not as leaky. They also had less brain inflammation, which can lead to swelling.
The scientists found that the product contained high amounts of a protein that activates a receptor on blood vessel cells, helping to stabilize them. This may explain how the product makes them less leaky.
So far, that protein is the first of what the researchers say could be a cocktail of beneficial molecules.
“Platelets carry many potent factors that go beyond clotting,” Pati said. “In our mouse model of TBI, we saw hints that this product concentrates these factors, making it more effective than platelets themselves.”
The product is in Phase II clinical trials for bleeding disorders, which means it has already been shown to be safe for people. This could hasten trials that test it for TBI.
Publication details
Alpa Trivedi et al, A Dried Platelet-Derived Biologic for Blood-Brain Barrier Repair and Hemorrhage Control Following TBI in Mice, Blood Journal (2026). DOI: 10.1182/blood.2025031826
Journal information:
Blood
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