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European Radiology
Published in: European Radiology 7/2004

01-07-2004 | Physics

Stereological estimation of total intracranial volume on CT images

Authors: Michael Mazonakis, Spyros Karampekios, John Damilakis, Argyro Voloudaki, Nicholas Gourtsoyiannis

Published in: European Radiology | Issue 7/2004

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Abstract

This study aims to investigate the possibility of generating stereological estimations of total intracranial volume (TIV) on CT scans. The study group included 16 consecutive patients referred for a cranial CT examination. The TIV was estimated using the stereological point counting technique. Volume measurements were optimized by systematically sampling CT sections and by defining an optimum spacing between test points of the grid. The intraobserver and interobserver variability of the optimized volumetric technique was determined. Stereological TIV estimations were compared with the respective planimetric measurements. The application of a test grid with a point spacing of 2.4 cm on 6–8 systematically sampled CT sections provided TIV estimations with a coefficient of error of less than 5%. The intraobserver and interobserver coefficient of variation values were found to be 2.4 and 4.0%, respectively. The 95% limits of agreement between stereological and planimetric TIV measurements were equal to −91.4 and 103.4 cm3. The mean time (±SD) needed to obtain stereological TIV estimations was 2.9±0.6 min. The application of the optimized stereological technique on CT scans enables the efficient estimation of TIV.
Literature
1.
Davis PJM, Wright EA (1977) A new method for measuring cranial cavity volume and its application to the assessment of cerebral atrophy at autopsy. Neuropathol Appl Neurobiol 3:341–358
2.
Jenkins R, Fox NC, Rossor AM, Harvey RJ, Rossor MN (2000) Intracranial volume and Alzheimer disease: evidence against the cerebral reverse hypothesis. Arch Neurol 57:220–224PubMed
3.
Mori E, Hirono N, Yamashita H, Imamura T, Ikejiri Y, Ikeda M, Kitagaki H, Shimomura T, Yoneda Y (1997) Premorbid brain size as a determinant of reserve capacity against intellectual decline in Alzheimer’s disease. Am J Psychiat 154:18–24PubMed
4.
Schofield PW, Mosesson RE, Stern Y, Mayeux R (1995) The age at onset of Alzheimer’s disease and an intracranial area measurement: a relationship. Arch Neurol 52:95–98PubMed
5.
Bigler ED, Tate DF (2001) Brain volume, intracranial volume, and dementia. Invest Radiol 36:539–546PubMed
6.
Mathalon DH, Sullivan EV, Rawles JM, Pfefferbaum A (1993) Correction for head size in brain-imaging measurements. Psychiat Res 50:121–139
7.
Whitwell JL, Crum WR, Watt HC, Fox NC (2001) Normalization of cerebral volumes by use of intracranial volume: implications for longitudinal quantitative MR imaging. Am J Neuroradiol 22:1483–1489PubMed
8.
MacKinnon IL, Kennedy JA, Davies TV (1956) The estimation of skull capacity from roentgenologic measurements. Am J Roentgenol 76:303–310
9.
Breiman RS, Beck JW, Korobkin M, Glenny R, Akwari OE, Heaston DK, Moore AV, Ram PC (1982) Volume determinations using computed tomography. Am J Roentgenol 138:329–333PubMed
10.
Tng TT, Chan TC, Hagg U, Cooke MS (1994) Validity of cephalometric landmarks. An experimental study on human skulls. Eur J Orthod 16:110–120PubMed
11.
Gault D, Brunelle F, Renier D, Marchac D (1988) The calculation of intracranial volume using CT scans. Childs Nerv Syst 4:271–273PubMed
12.
Sgouros S, Goldin JH, Hockley AD, Wake MJC, Natarajan K (1999) Intracranial volume change in childhood. J Neurosurg 91:610–616PubMed
13.
Demaerel P (2002) From X-rays to radiofrequency waves or the changing practice of diagnostic neuroradiology: imaging, health care and economical aspects. Verh K Acad Geneeskd Belg 64:339–359PubMed
14.
Laughlin S, Montanera W (1998) Central nervous system imaging. When is CT more appropriate than MRI? Postgrad Med 104:73–91PubMed
15.
Korbo L, Praestholm J, Skot J (2002) Early brain atrophy in HIV infection: a radiological-stereological study. Neuroradiology 44:308–313PubMed
16.
Lyden PD, Zweifler R, Mahdavi Z, Lonzo L (1994) A rapid, reliable, and valid method for measuring infarct and brain compartment volumes from computed tomographic scans. Stroke 25:2421–2428PubMed
17.
Mazonakis M, Damilakis J, Varveris H (1998) Bladder and rectum volume estimations using CT and stereology. Comp Med Imag Graph 22:195–201
18.
Pache JC, Roberts N, Vock P, Zimmermann A, Cruz-Orive LM (1993) Vertical LM sectioning and parallel CT scanning designs for stereology: application to human lung. J Microsc 170:9–24PubMed
19.
Pakkenberg B, Boesen J, Albeck M, Gjerris F (1989) Unbiased and efficient estimation of total ventricular volume of the brain obtained from CT-scans by a stereological method. Neuroradiology 31:413–417PubMed
20.
Van Roost D, Solymosi L, Funke K (1995) A characteristic ventricular shape in myelomeningocele-associated hydrocephalus? A CT stereology study. Neuroradiology 37:412–417PubMed
21.
Van der Worp HB, Claus SP, Bar PR, Ramos LMP, Algra A, Van Gijn J, Kappelle LJ (2001) Reproducibility of measurements of cerebral infarct volume on CT scans. Stroke 32:424–430PubMed
22.
Sanvik A, Bliddal H, Nyengaard JR, Thomsen HS (2002) MRI of the arthritic finger joints: synovial membrane volume determination, a manual vs a stereologic method. Eur Radiol 12:94–98PubMed
23.
Cruz-Orive LM (1993) Systematic sampling in stereology. Bull Int Stat Inst 55:451–468
24.
Bland JM, Altman DG (1986) Statistical methods for assessing agreement between two methods of clinical measurement. Lancet 1:307–310PubMed
25.
Gundersen HJG, Jensen EB (1987) The efficiency of systematic sampling in stereology and its prediction. J Microsc 147:229–263PubMed
26.
Abbott AH, Netherway DJ, Niemann DB, Clark B, Yamamoto M, Cole J, Hanieh A, Moore MH, David DJ (2000) CT-determined intracranial volume for a normal population. J Craniofac Surg 11:211–213PubMed
27.
Forstl H, Zerfab R, Geiger-Kabisch C, Sattel H, Besthorn C, Hentschel F (1995) Brain atrophy in normal ageing and Alzheimer’s disease. Volumetric discrimination and clinical correlations. Br J Psychiat 167:739–746
28.
Gosain AK, McCarthy JG, Glatt P, Staffenberg D, Hoffmann RG (1995) A study of intracranial volume in Apert syndrome. Plast Reconstr Surg 95:284–295PubMed
29.
Wanifuchi H, Shimizu T, Maruyama T (2002) Age-related changes in the proportion of intracranial cerebrospinal fluid space measured using volumetric computerized tomography scanning. J Neurosurg 97:607–610
30.
Posnick JC, Bite U, Nakano P, Davis J, Armstrong D (1992) Indirect intracranial volume measurements using CT scans: clinical applications for craniosysnostosis. Plast Reconstr Surg 89:34–45PubMed
31.
Sgouros S, Hockley AD, Goldin JH, Wake MJC, Natarajan K (1999) Intracranial volume change in craniosynostosis. J Neurosurg 91:617–625PubMed
32.
Dufrense CR, McCarthy JG, Cutting CB, Epstein FJ, Hoffman WY (1987) Volumetric quantification of intracranial and ventricular volume following cranial vault remodeling: a preliminary report. Plast Reconstr Surg 79:24–32PubMed
33.
Mazonakis M, Damilakis J, Maris T, Prassopoulos P, Gourtsoyiannis N (2000) Estimation of spleen volume using MR imaging and a random marking technique. Eur Radiol 10:1899–1903CrossRefPubMed
34.
Mazonakis M, Damilakis J, Maris T, Prassopoulos P, Gourtsoyiannis N (2002) Comparison of two volumetric techniques for estimating liver volume using magnetic resonance imaging. J Magn Reson Imaging 15:557–563CrossRefPubMed
Metadata
Title
Stereological estimation of total intracranial volume on CT images
Authors
Michael Mazonakis
Spyros Karampekios
John Damilakis
Argyro Voloudaki
Nicholas Gourtsoyiannis
Publication date
01-07-2004
Publisher
Springer-Verlag
Published in
European Radiology / Issue 7/2004
Print ISSN: 0938-7994
Electronic ISSN: 1432-1084
DOI
https://doi.org/10.1007/s00330-004-2253-0

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