To be clear, a fully functioning brain is not what’s grown in the lab. Rather, what results is a culture of neurons behaving like they would in the brain. The process begins with human embryonic stem cells, which can transform into any cell within the body. Researchers grew the stem cells in an electrically charged mixture of chemicals and turned them into neurons. Then, they genetically engineered the neurons to express mutations associated with Alzheimer’s disease. Specifically, the neurons produced high levels of proteins called beta amyloids, which cause plaques and coils known as tangles to form — telltale signs of Alzheimer’s. Researchers placed their homemade neurons into a petri dish filled with a gel. Within six weeks the neurons took root and grew into 3-D interconnecting webs like you’d find in the brain. More importantly, the cells formed plaques and tangles like someone with Alzheimer’s. Researchers published their findings this week in the journal Nature. Taking on Alzheimer’s Data and observations gleaned from the lab-grown neurons gave credence to a debated theory that the accumulation of beta amyloids gives Alzheimer’s its start. Researchers believe inhibiting enzyme that triggers production of beta amyloids could be a therapeutic target. Secondly, producing petri dish brains serves as a safe and ethical way to test experimental drugs on human brain cells. More via Discover Magazine.com.