In vivo study of experimental pneumococcal meningitis using magnetic resonance imaging.

Christian T Brandt; Helle Simonsen; Matthew Liptrot; Lise V Søgaard; Jens D Lundgren; Christian Ostergaard; Niels Frimodt-Møller; Ian J Rowland

doi:10.1186/1471-2342-8-1

In vivo study of experimental pneumococcal meningitis using magnetic resonance imaging.

Christian T Brandt, Helle Simonsen, Matthew Liptrot, Lise V Søgaard, Jens D Lundgren, Christian Ostergaard, Niels Frimodt-Møller, Ian J Rowland

Department of Clinical Medicine

17 Citations (Scopus)

Abstract

BACKGROUND: Magnetic Resonance Imaging (MRI) methods were evaluated as a tool for the study of experimental meningitis. The identification and characterisation of pathophysiological parameters that vary during the course of the disease could be used as markers for future studies of new treatment strategies. METHODS: Rats infected intracisternally with S. pneumoniae (n = 29) or saline (n = 13) were randomized for imaging at 6, 12, 24, 30, 36, 42 or 48 hours after infection. T1W, T2W, quantitative diffusion, and post contrast T1W images were acquired at 4.7 T. Dynamic MRI (dMRI) was used to evaluate blood-brain-barrier (BBB) permeability and to obtain a measure of cerebral and muscle perfusion. Clinical- and motor scores, bacterial counts in CSF and blood, and WBC counts in CSF were measured. RESULTS: MR images and dMRI revealed the development of a highly significant increase in BBB permeability (P < 0.002) and ventricle size (P < 0.0001) among infected rats. Clinical disease severity was closely related to ventricle expansion (P = 0.024).Changes in brain water distribution, assessed by ADC, and categorization of brain 'perfusion' by cortex DeltaSI(bolus) were subject to increased inter-rat variation as the disease progressed, but without overall differences compared to uninfected rats (P > 0.05). Areas of well-'perfused' muscle decreased with the progression of infection indicative of septicaemia (P = 0.05). CONCLUSION: The evolution of bacterial meningitis was successfully followed in-vivo with MRI. Increasing BBB-breakdown and ventricle size was observed in rats with meningitis whereas changes in brain water distribution were heterogeneous. MRI will be a valuable technique for future studies aiming at evaluating or optimizing adjunctive treatments.
Udgivelsesdato: 14. januar

Original language	English
Journal	BMC Medical Imaging
Volume	8
Pages (from-to)	1
ISSN	1471-2342
DOIs	https://doi.org/10.1186/1471-2342-8-1 https://doi.org/10.1186/1471-2342-8-1
Publication status	Published - 2008

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@article{aa360a70ff3911ddb219000ea68e967b,

title = "In vivo study of experimental pneumococcal meningitis using magnetic resonance imaging.",

abstract = "BACKGROUND: Magnetic Resonance Imaging (MRI) methods were evaluated as a tool for the study of experimental meningitis. The identification and characterisation of pathophysiological parameters that vary during the course of the disease could be used as markers for future studies of new treatment strategies. METHODS: Rats infected intracisternally with S. pneumoniae (n = 29) or saline (n = 13) were randomized for imaging at 6, 12, 24, 30, 36, 42 or 48 hours after infection. T1W, T2W, quantitative diffusion, and post contrast T1W images were acquired at 4.7 T. Dynamic MRI (dMRI) was used to evaluate blood-brain-barrier (BBB) permeability and to obtain a measure of cerebral and muscle perfusion. Clinical- and motor scores, bacterial counts in CSF and blood, and WBC counts in CSF were measured. RESULTS: MR images and dMRI revealed the development of a highly significant increase in BBB permeability (P < 0.002) and ventricle size (P < 0.0001) among infected rats. Clinical disease severity was closely related to ventricle expansion (P = 0.024).Changes in brain water distribution, assessed by ADC, and categorization of brain 'perfusion' by cortex DeltaSI(bolus) were subject to increased inter-rat variation as the disease progressed, but without overall differences compared to uninfected rats (P > 0.05). Areas of well-'perfused' muscle decreased with the progression of infection indicative of septicaemia (P = 0.05). CONCLUSION: The evolution of bacterial meningitis was successfully followed in-vivo with MRI. Increasing BBB-breakdown and ventricle size was observed in rats with meningitis whereas changes in brain water distribution were heterogeneous. MRI will be a valuable technique for future studies aiming at evaluating or optimizing adjunctive treatments. Udgivelsesdato: 14. januar",

author = "Brandt, {Christian T} and Helle Simonsen and Matthew Liptrot and S{\o}gaard, {Lise V} and Lundgren, {Jens D} and Christian Ostergaard and Niels Frimodt-M{\o}ller and Rowland, {Ian J}",

note = "Keywords: Animals; Blood-Brain Barrier; Cerebral Ventricles; Image Enhancement; Magnetic Resonance Imaging; Male; Meningitis, Pneumococcal; Rats; Rats, Wistar",

year = "2008",

doi = "10.1186/1471-2342-8-1",

language = "English",

volume = "8",

pages = "1",

journal = "BMC Medical Imaging",

issn = "1471-2342",

publisher = "BioMed Central Ltd.",

}

TY - JOUR

T1 - In vivo study of experimental pneumococcal meningitis using magnetic resonance imaging.

AU - Brandt, Christian T

AU - Simonsen, Helle

AU - Liptrot, Matthew

AU - Søgaard, Lise V

AU - Lundgren, Jens D

AU - Ostergaard, Christian

AU - Frimodt-Møller, Niels

AU - Rowland, Ian J

N1 - Keywords: Animals; Blood-Brain Barrier; Cerebral Ventricles; Image Enhancement; Magnetic Resonance Imaging; Male; Meningitis, Pneumococcal; Rats; Rats, Wistar

PY - 2008

Y1 - 2008

N2 - BACKGROUND: Magnetic Resonance Imaging (MRI) methods were evaluated as a tool for the study of experimental meningitis. The identification and characterisation of pathophysiological parameters that vary during the course of the disease could be used as markers for future studies of new treatment strategies. METHODS: Rats infected intracisternally with S. pneumoniae (n = 29) or saline (n = 13) were randomized for imaging at 6, 12, 24, 30, 36, 42 or 48 hours after infection. T1W, T2W, quantitative diffusion, and post contrast T1W images were acquired at 4.7 T. Dynamic MRI (dMRI) was used to evaluate blood-brain-barrier (BBB) permeability and to obtain a measure of cerebral and muscle perfusion. Clinical- and motor scores, bacterial counts in CSF and blood, and WBC counts in CSF were measured. RESULTS: MR images and dMRI revealed the development of a highly significant increase in BBB permeability (P < 0.002) and ventricle size (P < 0.0001) among infected rats. Clinical disease severity was closely related to ventricle expansion (P = 0.024).Changes in brain water distribution, assessed by ADC, and categorization of brain 'perfusion' by cortex DeltaSI(bolus) were subject to increased inter-rat variation as the disease progressed, but without overall differences compared to uninfected rats (P > 0.05). Areas of well-'perfused' muscle decreased with the progression of infection indicative of septicaemia (P = 0.05). CONCLUSION: The evolution of bacterial meningitis was successfully followed in-vivo with MRI. Increasing BBB-breakdown and ventricle size was observed in rats with meningitis whereas changes in brain water distribution were heterogeneous. MRI will be a valuable technique for future studies aiming at evaluating or optimizing adjunctive treatments. Udgivelsesdato: 14. januar

AB - BACKGROUND: Magnetic Resonance Imaging (MRI) methods were evaluated as a tool for the study of experimental meningitis. The identification and characterisation of pathophysiological parameters that vary during the course of the disease could be used as markers for future studies of new treatment strategies. METHODS: Rats infected intracisternally with S. pneumoniae (n = 29) or saline (n = 13) were randomized for imaging at 6, 12, 24, 30, 36, 42 or 48 hours after infection. T1W, T2W, quantitative diffusion, and post contrast T1W images were acquired at 4.7 T. Dynamic MRI (dMRI) was used to evaluate blood-brain-barrier (BBB) permeability and to obtain a measure of cerebral and muscle perfusion. Clinical- and motor scores, bacterial counts in CSF and blood, and WBC counts in CSF were measured. RESULTS: MR images and dMRI revealed the development of a highly significant increase in BBB permeability (P < 0.002) and ventricle size (P < 0.0001) among infected rats. Clinical disease severity was closely related to ventricle expansion (P = 0.024).Changes in brain water distribution, assessed by ADC, and categorization of brain 'perfusion' by cortex DeltaSI(bolus) were subject to increased inter-rat variation as the disease progressed, but without overall differences compared to uninfected rats (P > 0.05). Areas of well-'perfused' muscle decreased with the progression of infection indicative of septicaemia (P = 0.05). CONCLUSION: The evolution of bacterial meningitis was successfully followed in-vivo with MRI. Increasing BBB-breakdown and ventricle size was observed in rats with meningitis whereas changes in brain water distribution were heterogeneous. MRI will be a valuable technique for future studies aiming at evaluating or optimizing adjunctive treatments. Udgivelsesdato: 14. januar

U2 - 10.1186/1471-2342-8-1

DO - 10.1186/1471-2342-8-1

M3 - Journal article

C2 - 18194516

SN - 1471-2342

VL - 8

SP - 1

JO - BMC Medical Imaging

JF - BMC Medical Imaging

ER -