Abstract
Mouse functional MRI (fMRI) has been of great interest due to the abundance of transgenic models. Due to a mouse's small size, spontaneous breathing has often been used. Because the vascular physiology affecting fMRI might not be controlled normally, its effects on functional responses were investigated with optical intrinsic signal (OIS) imaging and 9.4 T BOLD fMRI. Three conditions were tested in C57BL/6 mice: spontaneous breathing under ketamine and xylazine anesthesia (KX), mechanical ventilation under KX, and mechanical ventilation under isoflurane. Spontaneous breathing under KX induced an average pCO2 of 83 mmHg, whereas a mechanical ventilation condition achieved a pCO2 of 37‐41 mmHg within a physiological range. The baseline diameter of arterial and venous vessels was only 7%‐9% larger with spontaneous breathing than with mechanical ventilation under KX, but it was much smaller than that in normocapnic isoflurane‐anesthetized mice. Three major functional studies were performed. First, CBV‐weighted OIS and arterial dilations to 4‐second forepaw stimulation were rapid and larger at normocapnia than hypercapnia under KX, but very small under isoflurane. Second, CBV‐weighted OIS and arterial dilations by vasodilator acetazolamide were measured for investigating vascular reactivity and were larger in the normocapnic condition than in the hypercapnic condition under KX. Third, evoked OIS and BOLD fMRI responses in the contralateral mouse somatosensory cortex to 20‐second forepaw stimulation were faster and larger in the mechanical ventilation than spontaneous breathing. BOLD fMRI peaked at the end of the 20‐second stimulation under hypercapnic spontaneous breathing, and at ~9 seconds under mechanical ventilation. The peak amplitude of BOLD fMRI was 2.2% at hypercapnia and ~3.4% at normocapnia. Overall, spontaneous breathing induces sluggish reduced hemodynamic and fMRI responses, but it is still viable for KX anesthesia due to its simplicity, noninvasiveness, and well‐localized BOLD activity in the somatosensory cortex.
Highlights
Blood oxygenation level-dependent (BOLD) functional MRI in rodents has been used to understand the biophysics and neural sources of fMRI signals and to investigate brain functions
The mean arterial blood pressure and cardiac pulsation rate were averaged from the 1-hour arterial blood pressure data, excluding values exceeding two standard deviations from the mean, and the two blood gas measurements were averaged
Each stimulus trial consisted of a 5-second prestimulus, 4-second forepaw stimulus, and a 51-second poststimulus period that was repeated 15 times; (ii) because BOLD fMRI studies used long stimulation duration due to a limited temporal resolution, 20-second forepaw stimulation was used in the two ketamine and xylazine anesthesia (KX) conditions (n = 6 in the KX-spontaneous breathing (SB) condition used for 4-second stimulation, and n = 5 for KX-mechanical ventilation (MV)) for comparison with BOLD fMRI data
Summary
Blood oxygenation level-dependent (BOLD) functional MRI (fMRI) in rodents has been used to understand the biophysics and neural sources of fMRI signals and to investigate brain functions. BOLD fMRI of anesthetized mice has been of particular interest due to the abundance of transgenic models, easy manipulation of genomes, and cost efficiency, but the literature findings are inconsistent.[1,2,3,4,5,6,7] Because fMRI measures relative changes in hemodynamics, it is highly affected by the baseline condition, which is sensitive to anesthetics, drugs, hormones and physiological factors.[8,9,10] most anesthetized rat fMRI studies determine the baseline physiological conditions using blood pressure and gas analyses and control them using mechanical ventilation with intubation. When a mean arterial blood pressure level ranges about between 50 and 160 mmHg, cerebral blood flow (CBF) is regulated at a constant level.[11,12,13,14] Since CBF is highly related to arterial CO2 pressure (pCO2), pCO2 is maintained at 30-45 mmHg.[15,16,17] As a result, fMRI studies carried out in various laboratories can produce consistent results.[18,19,20,21,22]
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