Literature DB >> 16840581

How the body controls brain temperature: the temperature shielding effect of cerebral blood flow.

Mingming Zhu1, Joseph J H Ackerman, Alexander L Sukstanskii, Dmitriy A Yablonskiy.   

Abstract

Normal brain functioning largely depends on maintaining brain temperature. However, the mechanisms protecting brain against a cooler environment are poorly understood. Reported herein is the first detailed measurement of the brain-temperature profile. It is found to be exponential, defined by a characteristic temperature shielding length, with cooler peripheral areas and a warmer brain core approaching body temperature. Direct cerebral blood flow (CBF) measurements with microspheres show that the characteristic temperature shielding length is inversely proportional to the square root of CBF in excellent agreement with a theoretical model. This "temperature shielding effect" quantifies the means by which CBF prevents "extracranial cold" from penetrating deep brain structures. The effect is crucial for research and clinical applications; the relationship between brain, body, and extracranial temperatures can now be quantitatively predicted.

Mesh:

Year:  2006        PMID: 16840581      PMCID: PMC2094117          DOI: 10.1152/japplphysiol.00319.2006

Source DB:  PubMed          Journal:  J Appl Physiol (1985)        ISSN: 0161-7567


  24 in total

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Authors:  D A Yablonskiy; J J Ackerman; M E Raichle
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3.  Effects of anesthesia on functional activation of cerebral blood flow and metabolism.

Authors:  Y Nakao; Y Itoh; T Y Kuang; M Cook; J Jehle; L Sokoloff
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Authors:  H J Nathan; G A Wells; J L Munson; D Wozny
Journal:  Circulation       Date:  2001-09-18       Impact factor: 29.690

5.  A multicenter prospective randomized controlled trial of the efficacy of mild hypothermia for severely head injured patients with low intracranial pressure. Mild Hypothermia Study Group in Japan.

Authors:  T Shiozaki; T Hayakata; M Taneda; Y Nakajima; N Hashiguchi; S Fujimi; Y Nakamori; H Tanaka; T Shimazu; H Sugimoto
Journal:  J Neurosurg       Date:  2001-01       Impact factor: 5.115

Review 6.  Existence and theoretical aspects of homomeric and heteromeric dopamine receptor complexes and their relevance for neurological diseases.

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Journal:  Neuromolecular Med       Date:  2005       Impact factor: 3.843

7.  Numerical modeling of temperature distributions within the neonatal head.

Authors:  G M Van Leeuwen; J W Hand; J J Lagendijk; D V Azzopardi; A D Edwards
Journal:  Pediatr Res       Date:  2000-09       Impact factor: 3.756

8.  Whole-body hypothermia for neonates with hypoxic-ischemic encephalopathy.

Authors:  Seetha Shankaran; Abbot R Laptook; Richard A Ehrenkranz; Jon E Tyson; Scott A McDonald; Edward F Donovan; Avroy A Fanaroff; W Kenneth Poole; Linda L Wright; Rosemary D Higgins; Neil N Finer; Waldemar A Carlo; Shahnaz Duara; William Oh; C Michael Cotten; David K Stevenson; Barbara J Stoll; James A Lemons; Ronnie Guillet; Alan H Jobe
Journal:  N Engl J Med       Date:  2005-10-13       Impact factor: 91.245

9.  Brain temperature and limits on transcranial cooling in humans: quantitative modeling results.

Authors:  D A Nelson; S A Nunneley
Journal:  Eur J Appl Physiol Occup Physiol       Date:  1998-09

10.  Regional cerebral blood flow and response to carbon dioxide during controlled hypotension with isoflurane anesthesia in the rat.

Authors:  K R Ringaert; W A Mutch
Journal:  Anesth Analg       Date:  1988-04       Impact factor: 5.108
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  27 in total

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Authors:  Christopher I Moore; Rosa Cao
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2.  Brief anesthesia, but not voluntary locomotion, significantly alters cortical temperature.

Authors:  Michael J Shirey; Jared B Smith; D'Anne E Kudlik; Bing-Xing Huo; Stephanie E Greene; Patrick J Drew
Journal:  J Neurophysiol       Date:  2015-05-13       Impact factor: 2.714

3.  Brain surface temperature under a craniotomy.

Authors:  Abigail S Kalmbach; Jack Waters
Journal:  J Neurophysiol       Date:  2012-09-12       Impact factor: 2.714

4.  Regional temperature and quantitative cerebral blood flow responses to cortical spreading depolarization in the rat.

Authors:  Chunyan Li; Raj K Narayan; Ping Wang; Jed A Hartings
Journal:  J Cereb Blood Flow Metab       Date:  2016-01-01       Impact factor: 6.200

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Review 6.  MR Thermometry in Cerebrovascular Disease: Physiologic Basis, Hemodynamic Dependence, and a New Frontier in Stroke Imaging.

Authors:  S Dehkharghani; D Qiu
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7.  Distribution of temperature changes and neurovascular coupling in rat brain following 3,4-methylenedioxymethamphetamine (MDMA, "ecstasy") exposure.

Authors:  Daniel Coman; Basavaraju G Sanganahalli; Lihong Jiang; Fahmeed Hyder; Kevin L Behar
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8.  Brain thermal inertia, but no evidence for selective brain cooling, in free-ranging western grey kangaroos (Macropus fuliginosus).

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Journal:  J Comp Physiol B       Date:  2008-09-27       Impact factor: 2.200

9.  Body and brain temperature coupling: the critical role of cerebral blood flow.

Authors:  Mingming Zhu; Joseph J H Ackerman; Dmitriy A Yablonskiy
Journal:  J Comp Physiol B       Date:  2009-03-11       Impact factor: 2.200

10.  Brain temperature and pH measured by (1)H chemical shift imaging of a thulium agent.

Authors:  Daniel Coman; Hubert K Trubel; Robert E Rycyna; Fahmeed Hyder
Journal:  NMR Biomed       Date:  2009-02       Impact factor: 4.044
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