1. Sign our petition calling on Cochrane to withdraw their review of Exercise Therapy for CFS here.
    Dismiss Notice
  2. Guest, the 'News in Brief' for the week beginning 18th March 2024 is here.
    Dismiss Notice
  3. Welcome! To read the Core Purpose and Values of our forum, click here.
    Dismiss Notice

A daily temperature rhythm in the human brain predicts survival after brain injury , 2022, Rzechorzek et al

Discussion in 'Other health news and research' started by Mij, Jun 13, 2022.

  1. Mij

    Mij Senior Member (Voting Rights)

    Messages:
    8,204
    Dr Nina Rzechorzek, MRC Clinician Scientist Fellow from the MRC Laboratory for Molecular Biology who led the study, said:

    “Using the most comprehensive exploration to date of normal human brain temperature, we’ve established ‘HEATWAVE’ – a 4D temperature map of the brain. This map provides an urgently-needed reference resource against which patient data can be compared, and could transform our understanding of how the brain works. That a daily brain temperature rhythm correlates so strongly with survival after TBI suggests that round-the-clock brain temperature measurement holds great clinical value.”

    “Our work also opens a door for future research into whether disruption of daily brain temperature rhythms can be used as an early biomarker for several chronic brain disorders, including dementia.”


    Abstract

    A daily temperature rhythm in the human brain predicts survival after brain injury

    Patients undergo interventions to achieve a ‘normal’ brain temperature; a parameter that remains undefined for humans. The profound sensitivity of neuronal function to temperature implies the brain should be isothermal, but observations from patients and non-human primates suggest significant spatiotemporal variation.

    We aimed to determine the clinical relevance of brain temperature in patients by establishing how much it varies in healthy adults.

    We retrospectively screened data for all patients recruited to the Collaborative European NeuroTrauma Effectiveness Research in Traumatic Brain Injury (CENTER-TBI) High Resolution Intensive Care Unit Sub-Study. Only patients with direct brain temperature measurements and without targeted temperature management were included.

    To interpret patient analyses, we prospectively recruited 40 healthy adults (20 males, 20 females, 20–40 years) for brain thermometry using magnetic resonance spectroscopy. Participants were scanned in the morning, afternoon, and late evening of a single day.

    In patients (n = 114), brain temperature ranged from 32.6 to 42.3°C and mean brain temperature (38.5 ± 0.8°C) exceeded body temperature (37.5 ± 0.5°C, P < 0.0001). Of 100 patients eligible for brain temperature rhythm analysis, 25 displayed a daily rhythm, and the brain temperature range decreased in older patients (P = 0.018). In healthy participants, brain temperature ranged from 36.1 to 40.9°C; mean brain temperature (38.5 ± 0.4°C) exceeded oral temperature (36.0 ± 0.5°C) and was 0.36°C higher in luteal females relative to follicular females and males (P = 0.0006 and P < 0.0001, respectively). Temperature increased with age, most notably in deep brain regions (0.6°C over 20 years, P = 0.0002), and varied spatially by 2.41 ± 0.46°C with highest temperatures in the thalamus. Brain temperature varied by time of day, especially in deep regions (0.86°C, P = 0.0001), and was lowest at night. From the healthy data we built HEATWAVE—a 4D map of human brain temperature.

    Testing the clinical relevance of HEATWAVE in patients, we found that lack of a daily brain temperature rhythm increased the odds of death in intensive care 21-fold (P = 0.016), whilst absolute temperature maxima or minima did not predict outcome. A warmer mean brain temperature was associated with survival (P = 0.035), however, and ageing by 10 years increased the odds of death 11-fold (P = 0.0002).

    Human brain temperature is higher and varies more than previously assumed—by age, sex, menstrual cycle, brain region, and time of day. This has major implications for temperature monitoring and management, with daily brain temperature rhythmicity emerging as one of the strongest single predictors of survival after brain injury.

    We conclude that daily rhythmic brain temperature variation—not absolute brain temperature—is one way in which human brain physiology may be distinguished from pathophysiology.

    https://neurosciencenews.com/brain-termperature-20816/
    https://academic.oup.com/brain/article/145/6/2031/6604351?login=false
     
    Last edited by a moderator: Aug 11, 2022
  2. Hutan

    Hutan Moderator Staff Member

    Messages:
    26,522
    Location:
    Aotearoa New Zealand
    This is interesting in itself, but also really important for studies of brain temperature in people with ME/CFS.

    I think we've seen evidence of daily (and for women, fertility-related) cycles in all sorts of things that have been measured in ME/CFS studies. Researchers need to control for these factors. Time of day seems really important. No doubt controlling for it is complicated by the delayed or disrupted sleep cycles common in people with ME/CFS.

    Situations like 50% of your ME/CFS sample typically waking up after 9 am and all of your control sample typically getting up before 7 am to get to work and/or get the children off to school could be making a big difference to all sorts of brain imaging results.
     
  3. rvallee

    rvallee Senior Member (Voting Rights)

    Messages:
    12,296
    Location:
    Canada
    Interesting. Makes sense, averages aren't very useful for individual cases. Deviation from personal norm is obviously far more useful, but a problem with this is the lack of baselines. It would be striking seeing the effect on IQ or other intelligence tests and the massive drop in performance from brain fog, but we don't have that to compare to, we rely on normalized averages.

    Hopefully this is a start for thinking this way, because it's been lacking for a long time.
     
    Hutan, Peter Trewhitt and Mij like this.

Share This Page