RT @lauradata: excited to share our paper w/ 1st author Nina Fultz: Sleep is important for brain health, but why? We discovered CSF waves d…
RT @Neuro_psych: "...sleeping brain exhibits waves of CSF flow on a macroscopic scale, and these CSF dynamics are interlinked with neural a…
Really cool study on how our brain is cleansed while we sleep https://t.co/dBS6xt3dgr
RT @lauradata: excited to share our paper w/ 1st author Nina Fultz: Sleep is important for brain health, but why? We discovered CSF waves d…
RT @profgeraintrees: Coupled electrophysiological, hemodynamic, and cerebrospinal fluid oscillations in human sleep https://t.co/TLOR1DmeUA
more evidence for non-REM sleep (SWS) to do brainwashing (: https://t.co/EmVK8QlTUh
RT @evantthompson: Coupled electrophysiological, hemodynamic, and cerebrospinal fluid oscillations in human sleep https://t.co/2kGIuu87Xl
Coupled electrophysiological, hemodynamic, and cerebrospinal fluid oscillations in human sleep https://t.co/Vri1xlQQ4s @Sciencemagazine
RT @lauradata: excited to share our paper w/ 1st author Nina Fultz: Sleep is important for brain health, but why? We discovered CSF waves d…
RT @evantthompson: Coupled electrophysiological, hemodynamic, and cerebrospinal fluid oscillations in human sleep https://t.co/2kGIuu87Xl
Coupled electrophysiological, hemodynamic, and cerebrospinal fluid oscillations in human sleep | Science https://t.co/3BPr8oGxqv
Coupled electrophysiological, hemodynamic, and cerebrospinal fluid oscillations in human sleep https://t.co/Z3mmP2q9xP
RT @lauradata: excited to share our paper w/ 1st author Nina Fultz: Sleep is important for brain health, but why? We discovered CSF waves d…
RT @lauradata: excited to share our paper w/ 1st author Nina Fultz: Sleep is important for brain health, but why? We discovered CSF waves d…
@ninaelise9 @lauradata Link to Dr Lewis @lauradata Tweet for Link to the article at Science. https://t.co/iKJxqDjaYC
Astonishing paper from the @lauradata group at Boston, coupling brain activity to waves of fluid washing the brain during sleep https://t.co/MR91h0NCMh
Coupled electrophysiological, hemodynamic, and cerebrospinal fluid oscillations in human sleep https://t.co/I55wgA9u7V
RT @lauradata: excited to share our paper w/ 1st author Nina Fultz: Sleep is important for brain health, but why? We discovered CSF waves d…
RT @lauradata: excited to share our paper w/ 1st author Nina Fultz: Sleep is important for brain health, but why? We discovered CSF waves d…
RT @lauradata: excited to share our paper w/ 1st author Nina Fultz: Sleep is important for brain health, but why? We discovered CSF waves d…
RT @lauradata: excited to share our paper w/ 1st author Nina Fultz: Sleep is important for brain health, but why? We discovered CSF waves d…
RT @evantthompson: Coupled electrophysiological, hemodynamic, and cerebrospinal fluid oscillations in human sleep https://t.co/2kGIuu87Xl
Coupled electrophysiological, hemodynamic, and cerebrospinal fluid oscillations in human sleep https://t.co/2kGIuu87Xl
RT @lauradata: excited to share our paper w/ 1st author Nina Fultz: Sleep is important for brain health, but why? We discovered CSF waves d…
Coupled electrophysiological, hemodynamic, and cerebrospinal fluid oscillations in human sleep https://t.co/jzfG93RrIS
#stream of consciousness. #Sleep and CSF Blood flow. A nightly #garbage day. Coupled electrophysiological, hemodynamic, and cerebrospinal fluid oscillations in human sleep https://t.co/mwhE34ki2D
RT @mwhaskell: When you’re casually driving home from work and hear your old labmate on NPR talking about her group’s new paper... so cool!…
Coupled electrophysiological, hemodynamic, and cerebrospinal fluid oscillations in human sleep https://t.co/HquJ6k8jcl
Fantastic study! A big step forward in understanding why we #sleep
RT @lauradata: excited to share our paper w/ 1st author Nina Fultz: Sleep is important for brain health, but why? We discovered CSF waves d…
RT @rebeccasrobbins: Brand new finding: oscillations during non-REM #sleep operate in a wave-like fashion washing over the brain and removi…
RT @lauradata: excited to share our paper w/ 1st author Nina Fultz: Sleep is important for brain health, but why? We discovered CSF waves d…
Time to go to sleep...a nice dose of non–rapid eye movement sleep 🛌
RT @lauradata: excited to share our paper w/ 1st author Nina Fultz: Sleep is important for brain health, but why? We discovered CSF waves d…
RT @lauradata: excited to share our paper w/ 1st author Nina Fultz: Sleep is important for brain health, but why? We discovered CSF waves d…
Brand new finding: oscillations during non-REM #sleep operate in a wave-like fashion washing over the brain and removing potentially harmful debris. A good kind of “brainwashing” 😂#Sleep #Neuroscience #💤 https://t.co/vKX6xI6bEF
RT @lauradata: excited to share our paper w/ 1st author Nina Fultz: Sleep is important for brain health, but why? We discovered CSF waves d…
Coupled electrophysiological, hemodynamic, and cerebrospinal fluid oscillations in human sleep https://t.co/D0TtUfgbmo Slow oscillatory neuronal activity thus leads to oscillations in blood volume, drawing cerebrospinal fluid into and out of the brain.
RT @L_Genzel: waves of CSF flow on a macroscopic scale during NREM , and these CSF dynamics are interlinked with neural (slow wave oscillat…
RT @lauradata: excited to share our paper w/ 1st author Nina Fultz: Sleep is important for brain health, but why? We discovered CSF waves d…
RT @SRBR_Outreach: Evidence for a homeostatic function of slow-wave #sleep (SWS): During SWS, cerebral blood volume is reduced by ~10%, ena…
Wow. Exciting study just out in @sciencemagazine showing sequential low-frequency coupling between slow wave activity, blood flow and CSF dynamics during sleep. https://t.co/stAWZ2xdvy
Coupled electrophysiological, hemodynamic, and cerebrospinal fluid oscillations in human sleep | Science https://t.co/tr7OWTBL3Z
RT @SRBR_Outreach: Evidence for a homeostatic function of slow-wave #sleep (SWS): During SWS, cerebral blood volume is reduced by ~10%, ena…
RT @Neuro_psych: "...sleeping brain exhibits waves of CSF flow on a macroscopic scale, and these CSF dynamics are interlinked with neural a…
Coupled electrophysiological, hemodynamic, and cerebrospinal fluid oscillations in human sleep https://t.co/XPRMsXoM3H
RT @lauradata: excited to share our paper w/ 1st author Nina Fultz: Sleep is important for brain health, but why? We discovered CSF waves d…
RT @Neuro_psych: "...sleeping brain exhibits waves of CSF flow on a macroscopic scale, and these CSF dynamics are interlinked with neural a…
When you’re casually driving home from work and hear your old labmate on NPR talking about her group’s new paper... so cool! Congrats @ninaelise9 @lauradata and the whole team on this work!
RT @royesal: Coupled electrophysiological, hemodynamic, and cerebrospinal fluid oscillations in human sleep https://t.co/ZBwO2HAyBL
RT @SRBR_Outreach: Evidence for a homeostatic function of slow-wave #sleep (SWS): During SWS, cerebral blood volume is reduced by ~10%, ena…
RT @lauradata: excited to share our paper w/ 1st author Nina Fultz: Sleep is important for brain health, but why? We discovered CSF waves d…
RT @lauradata: excited to share our paper w/ 1st author Nina Fultz: Sleep is important for brain health, but why? We discovered CSF waves d…
Amazing study showing how brain electrical activity during NREM sleep creates waves of cerebrospinal fluid and clears out toxins that accumulated during wake https://t.co/JOAhYk2aQq
RT @lauradata: excited to share our paper w/ 1st author Nina Fultz: Sleep is important for brain health, but why? We discovered CSF waves d…
RT @lauradata: excited to share our paper w/ 1st author Nina Fultz: Sleep is important for brain health, but why? We discovered CSF waves d…
RT @lauradata: excited to share our paper w/ 1st author Nina Fultz: Sleep is important for brain health, but why? We discovered CSF waves d…
RT @lauradata: excited to share our paper w/ 1st author Nina Fultz: Sleep is important for brain health, but why? We discovered CSF waves d…
RT @L_Genzel: waves of CSF flow on a macroscopic scale during NREM , and these CSF dynamics are interlinked with neural (slow wave oscillat…
RT @Neuro_psych: "...sleeping brain exhibits waves of CSF flow on a macroscopic scale, and these CSF dynamics are interlinked with neural a…
RT @royesal: Coupled electrophysiological, hemodynamic, and cerebrospinal fluid oscillations in human sleep https://t.co/ZBwO2HAyBL
RT @lauradata: excited to share our paper w/ 1st author Nina Fultz: Sleep is important for brain health, but why? We discovered CSF waves d…
RT @lauradata: excited to share our paper w/ 1st author Nina Fultz: Sleep is important for brain health, but why? We discovered CSF waves d…
RT @lauradata: excited to share our paper w/ 1st author Nina Fultz: Sleep is important for brain health, but why? We discovered CSF waves d…
Slow wave sleep > Blood flow > CSF flow > glymphatic clearance during sleep? https://t.co/FT5zDRwLv0
WOW! Coupled electrophysiological, hemodynamic, and CSF oscillations in human sleep - the sleeping brain exhibits waves of CSF flow on a macroscopic scale, and these CSF dynamics are interlinked with neural and hemodynamic rhythms. https://t.co/incqj1dm2
RT @bellesilab: Coupled electrophysiological, hemodynamic, and cerebrospinal fluid oscillations in human sleep https://t.co/illCYmQify
RT @lauradata: excited to share our paper w/ 1st author Nina Fultz: Sleep is important for brain health, but why? We discovered CSF waves d…
RT @lauradata: excited to share our paper w/ 1st author Nina Fultz: Sleep is important for brain health, but why? We discovered CSF waves d…
RT @Neuro_psych: "...sleeping brain exhibits waves of CSF flow on a macroscopic scale, and these CSF dynamics are interlinked with neural a…
RT @profgeraintrees: Coupled electrophysiological, hemodynamic, and cerebrospinal fluid oscillations in human sleep https://t.co/TLOR1DmeUA
Great study by @lauradata and Nina Fultz. Not only does it confirm slow waves may be important for CSF and the regulation of waste products, it makes a strong link between neural activity->BOLD->CSF flow.
Science doesn’t get much more exciting than this.
waves of CSF flow on a macroscopic scale during NREM , and these CSF dynamics are interlinked with neural (slow wave oscillations) and hemodynamic rhythms. https://t.co/UeQZ1OAWB7
"...sleeping brain exhibits waves of CSF flow on a macroscopic scale, and these CSF dynamics are interlinked with neural and hemodynamic rhythms." 🧠 https://t.co/IVHjYEnot3
Coupled electrophysiological, hemodynamic, and cerebrospinal fluid oscillations in human sleep https://t.co/ZBwO2HAyBL
Coupled electrophysiological, hemodynamic, and cerebrospinal fluid oscillations in human sleep https://t.co/TLOR1DmeUA
This study published in Science today is the first to tell us how exactly sleep can play such a fundamental role in our performance and wellbeing. I had the privilege of working with one of the authors, Robert (Bob) Stickgold and…https://t.co/XdU5KX1Iy7 h
RT @lauradata: excited to share our paper w/ 1st author Nina Fultz: Sleep is important for brain health, but why? We discovered CSF waves d…
RT @lauradata: excited to share our paper w/ 1st author Nina Fultz: Sleep is important for brain health, but why? We discovered CSF waves d…
RT @lauradata: excited to share our paper w/ 1st author Nina Fultz: Sleep is important for brain health, but why? We discovered CSF waves d…
RT @SRBR_Outreach: Evidence for a homeostatic function of slow-wave #sleep (SWS): During SWS, cerebral blood volume is reduced by ~10%, ena…
Evidence for a homeostatic function of slow-wave #sleep (SWS): During SWS, cerebral blood volume is reduced by ~10%, enabling inflow of cerebrospinal fluid (#CSF) to the ventricles, possibly facilitating waste clearance of metabolites. @sciencemagazine ht
Evidence for a homeostatic function of slow-wave #sleep (SWS): During SWS, cerebral blood volume is reduced by ~10%, enabling inflow of cerebrospinal fluid (#CSF) to the ventricles, possibly facilitating waste clearance of metabolites. @sciencemagazine ht
Coupled electrophysiological, hemodynamic, and cerebrospinal fluid oscillations in human sleep https://t.co/illCYmQify
Listen to the waves of #sleep Coupled electrophysiological, hemodynamic, and cerebrospinal fluid oscillations in human sleep https://t.co/k6FLZ58nK5
RT @lauradata: excited to share our paper w/ 1st author Nina Fultz: Sleep is important for brain health, but why? We discovered CSF waves d…
RT @lauradata: excited to share our paper w/ 1st author Nina Fultz: Sleep is important for brain health, but why? We discovered CSF waves d…
RT @lauradata: excited to share our paper w/ 1st author Nina Fultz: Sleep is important for brain health, but why? We discovered CSF waves d…
excited to share our paper w/ 1st author Nina Fultz: Sleep is important for brain health, but why? We discovered CSF waves during sleep, locked to slow neural rhythms. Comp. model suggests neural activity can lead to CSF flow through hemodynamic coupling.
Deep sleep drives brain fluid oscillations https://t.co/ZKXfibBnw7 Coupled electrophysiological, hemodynamic, and cerebrospinal fluid oscillations in human sleep https://t.co/ygmtZQlef4 https://t.co/4AsauVJQdq
RT @sleep_advocate: Wow!!! https://t.co/eu57WnX5Ch @Witte1Veronica
Wow!!! https://t.co/eu57WnX5Ch @Witte1Veronica
This is a realy supprising finding but it makes sense https://t.co/DENgzIFLd0
How fantastic is this? Sleep coupling ephys, hemodynamic, and CSF oscillations. https://t.co/dVqDgn1aHP