Researchers at the University of Maryland School of Medicine (UMSOM) have identified an innovation in stem cell therapy to regenerate neural cells in the brain after cardiac arrest in an animal model.

In a bid to better understand, and potentially treat, a host of conditions that affect early cognition, neurodevelopment, and ...

Researchers at the University of Maryland School of Medicine (UMSOM) have identified an innovation in stem cell therapy to regenerate neural cells in the brain after cardiac arrest in an animal model.

Researchers have developed a model that rapidly converts stem cells to brain cells with protein structures characteristic of Parkinson's disease (PD), enabling the study of the condition's unique and ...

Human Organoid Data Supports the Therapeutic Rationale for INM-901 Program Ahead of Human Clinical TrialsConsistent Anti-Inflammatory Effects Demonstrate Translation from Animal Models to ...

In a landmark discovery, researchers from QIMR Berghofer in collaboration with the Francis Crick Institute, have unlocked the secrets of how brain stem cells enter and exit a resting state called ...

When someone has a stroke—a leading worldwide cause of death and disability—time is of the essence. Almost nine out of 10 cases are ischemic strokes, caused by restricted blood flow in the brain, and ...

Like the seeds of a forest, a few cells in embryos eventually sprout into an ecosystem of brain cells. Neurons get the most recognition for their computing power. But a host of other cells provides ...

Neurons from grafted stem cells contain intrinsic codes for navigating and forming connections, which may improve cell therapy for a brain short-circuited by stroke. Some parts of our bodies bounce ...

Illustration showing a transplanted nerve cell (gold) using its internal compass (code) to find its partner nerve cells in the brain and spinal cord (green). Some parts of our bodies bounce back from ...