viernes, 18 de diciembre de 2015

Scientists manipulate consciousness in rats | National Institutes of Health (NIH)

Scientists manipulate consciousness in rats | National Institutes of Health (NIH)

National Institutes of Health (NIH) - Turning Discovery into Health

Scientists manipulate consciousness in rats

NIH-funded study may guide deep brain stimulation therapies used for neurological disorders.
Scientists showed that they could alter brain activity of rats and either wake them up or put them in an unconscious state by changing the firing rates of neurons in the central thalamus, a region known to regulate arousal. The study, published in eLIFE, was partially funded by the National Institutes of Health.
“Our results suggest the central thalamus works like a radio dial that tunes the brain to different states of activity and arousal,” said Jin Hyung Lee, Ph.D., assistant professor of neurology, neurosurgery and bioengineering at Stanford University, and a senior author of the study.
Located deep inside the brain the thalamus acts as a relay station sending neural signals from the body to the cortex. Damage to neurons in the central part of the thalamus may lead to problems with sleep, attention, and memory. Previous studies suggested that stimulation of thalamic neurons may awaken patients who have suffered a traumatic brain injury from minimally conscious states.
Dr. Lee’s team flashed laser pulses onto light sensitive central thalamic neurons of sleeping rats, which caused the cells to fire. High frequency stimulation of 40 or 100 pulses per second woke the rats. In contrast, low frequency stimulation of 10 pulses per second sent the rats into a state reminiscent of absence seizures that caused them to stiffen and stare before returning to sleep.
“This study takes a big step towards understanding the brain circuitry that controls sleep and arousal,” Yejun (Janet) He, Ph.D., program director at NIH’s National Institute of Neurological Disorders and Stroke (NINDS).
When the scientists used functional magnetic resonance imaging (fMRI) to scan brain activity, they saw that high and low frequency stimulation put the rats in completely different states of activity. Cortical brain areas where activity was elevated during high frequency stimulation became inhibited with low frequency stimulation. Electrical recordings confirmed the results. Neurons in the somatosensory cortex fired more during high frequency stimulation of the central thalamus and less during low frequency stimulation.
“Dr. Lee’s innovative work demonstrates the power of using imaging technologies to study the brain at work,” said Guoying Liu, Ph.D., a program director at the NIH’s National Institute of Biomedical Imaging and Bioengineering (NIBIB).
How can changing the firing rate of the same neurons in one region lead to different effects on the rest of the brain?
Further experiments suggested the different effects may be due to a unique firing pattern by inhibitory neurons in a neighboring brain region, the zona incerta, during low frequency stimulation. Cells in this brain region have been shown to send inhibitory signals to cells in the sensory cortex.
Electrical recordings showed that during low frequency stimulation of the central thalamus, zona incerta neurons fired in a spindle pattern that often occurs during sleep. In contrast, sleep spindles did not occur during high frequency stimulation. Moreover, when the scientists blocked the firing of the zona incerta neurons during low frequency stimulation of the central thalamus, the average activity of sensory cortex cells increased.
Although deep brain stimulation of the thalamus has shown promise as a treatment for traumatic brain injury, patients who have decreased levels of consciousness show slow progress through these treatments.
“We showed how the circuits of the brain can regulate arousal states,” said Dr. Lee. “We hope to use this knowledge to develop better treatments for brain injuries and other neurological disorders.”
This work was supported by grants from the NIH (NS087159, EB008738, MH087988); the National Science Foundation (CAREER Award, 1056008); the Okawa Foundation for Information and Telecommunications; the Alfred P. Sloan Foundation: the Mathers Charitable Foundation; Stanford Bio-X; James and Carrie Anderson Fund for Epilepsy Research; Littlefield Funds.
The NINDS is the nation’s leading funder of research on the brain and nervous system. The mission of NINDS is to seek fundamental knowledge about the brain and nervous system and to use that knowledge to reduce the burden of neurological disease.
About the National Institute of Biomedical Imaging and Bioengineering: NIBIB’s mission is to improve health by leading the development and accelerating the application of biomedical technologies. The Institute is committed to integrating the physical and engineering sciences with the life sciences to advance basic research and medical care. NIBIB supports emerging technology research and development within its internal laboratories and through grants, collaborations, and training. More information is available at the NIBIB website: http://www.nibib.nih.gov.
About the National Institute of Mental Health (NIMH): The mission of the NIMH is to transform the understanding and treatment of mental illnesses through basic and clinical research, paving the way for prevention, recovery and cure. For more information, visit the NIMH website.
About the National Institutes of Health (NIH): NIH, the nation's medical research agency, includes 27 Institutes and Centers and is a component of the U.S. Department of Health and Human Services. NIH is the primary federal agency conducting and supporting basic, clinical, and translational medical research, and is investigating the causes, treatments, and cures for both common and rare diseases. For more information about NIH and its programs, visit www.nih.gov.
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References

Liu et al. “Frequency-selective control of cortical and subcortical networks by central thalamus,” eLIFE, December 10, 2015. DOI: dx.doi.org/10.7554/eLife.09215

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