Scientific Applications & Use Cases

MBF Bioscience >  Blog > Scientific Applications & Use Cases (Page 7)

Each year, nearly ninety thousand children are born extremely premature in the United States – that is, before 28 weeks gestation. Most of them survive, but about half the survivors suffer from severe health problems throughout their childhood and into adulthood, including learning and behavioral disorders such as ADHD.   “Treatment options are clearly urgently required to prevent the brain damage and associated memory deficits that follow...

Read More

When it comes to health, kidneys are critical. From regulating blood composition to maintaining calcium levels, the pair of bean-shaped organs perform several essential tasks. Needless to say, interruption to kidney function can be disastrous.   Working with scientists in South Korea, researchers at the University of Virginia found a surprisingly simple treatment for renal ischemia-reperfusion injury (IRI) in mice, which is a model of acute kidney...

Read More

A new optical clearing agent developed by scientists in Japan clears brain tissue samples with greater transparency and less time than other clearing agents, according to a paper published in Nature Neuroscience.   “Combined with two-photon microscopy, SeeDB allowed us to image fixed mouse brains at the millimeter-scale level,” say the authors, who after clearing the brain tissue with SeeDB, captured images with a multiphoton Olympus microscope,...

Read More

Researchers at the Stanford University School of Medicine have found that formoterol ̶  an FDA-approved drug for treating asthma and similar respiratory disorders ̶  improves cognitive function in mice genetically altered to exhibit symptoms of Down syndrome including cognitive disability.   Formoterol was chosen for the study because it activates β2 adrenergic receptors (β2ARs) on neurons, a task also carried out by norepinephrine, a neurotransmitter with a...

Read More

In spring, days grow long, and the white-footed mouse looks for a mate. For some mammals, day length prompts behaviors like breeding or camouflaging, and scientists say it's not just the arc of the sun that kicks off these seasonal events; substances in the brain also play a part.   One important element is melatonin, a hormone that the mammalian brain secretes at night. According to a...

Read More

Drugs affect different people in different ways. Take cocaine for example. Not only does the drug have a stronger impact on the behavior of individuals with a particular genetic makeup, it also  initiates more profound changes in their brains.   Researchers at the University of Michigan are studying brain plasticity in cocaine-treated rats after a period of abstinence. They're studying how abstinence from the drug affects different...

Read More

Sensory stimuli are all around us. Street traffic zooms by. A neighbor waves “hello.” A co-worker taps away at his keyboard. Each sight, sound, and motion ignite action within our brains. But even without all these stimuli, the brain is always active.   Known as “spontaneous activity,” the activity happening inside the brain in the absence of direct stimuli follows a pattern of up and down states...

Read More

Life's little pleasures often elude those suffering from depression, including rats, who show little interest in sugar water after experiencing stress. This behavior leads scientists to speculate that the illness might be characterized by a defect in the brain's neural reward circuit.   Recent research focuses on a key element of this circuit – the nucleus accumbens (NAc), part of the brain region known as the ventral...

Read More

  Scientists hypothesize that seizures occur because brain cells fire in places they're not supposed to. Dentate granule cells (DGCs), a type of neuron born throughout adulthood, sometimes migrate into a different region of the dentate gyrus, a part of the hippocampus. These abnormal newborn cells sprout axons called “mossy fibers” that form connections with neighboring DGCs in the inner molecular layer, causing synaptic changes that...

Read More

The placenta delivers nutrients from a mother's blood to a developing fetus. It also produces hormones that help the baby grow during its forty or so weeks in utero. But the placenta's powerhouse abilities don't end there. The organ provides a wealth of information about the infant's future health, allowing doctors to make predictions about whether or not the child will develop autism or, later...

Read More