OBJECT
Despite the increased detection of incidental or small meningiomas, the lesion's natural history is largely unknown.
METHODS
One year or longer of follow-up was conducted in 244 patients with 273 meningiomas managed conservatively by a single surgeon between 2003 and 2008. Data were stratified according to age, sex, tumor location, symptoms, initial tumor diameter, calcification, MR imaging intensity, and edema. Linear tumor growth was defined as a 2-mm or larger increase in the maximum diameter in any direction of the tumor. Volumetric analysis (ImageJ version 1.43) was also conducted in 154 of 273 meningiomas for which complete radiological data were available in the form of DICOM files throughout the follow-up period. A volume increase greater than 8.2% was regarded as significant because the preliminary volumetry based on 20 randomly selected meningiomas showed that the average SD was 4.1%.
RESULTS
Linear growth was observed in 120 tumors (44.0%) with a mean follow-up of 3.8 years. Factors related to tumor growth were age of 60 or younger (p = 0.0004), absence of calcification (p = 0.027), MR imaging T2 signal hyperintensity (p = 0.021), and edema (p = 0.018). Kaplan-Meier analysis and Cox proportional hazards regression analysis revealed that age 60 or younger (hazard ratio [HR] 1.54, 95% CI 1.05-2.30, p = 0.026), initial tumor diameter greater than 25 mm (HR 2.23, 95% CI 1.44-3.38, p = 0.0004), and the absence of calcification (HR 4.57, 95% CI 2.69-8.20, p < 0.0001) were factors associated with a short time to progression. Volumetric growth was seen in 74.0% of the cases. Factors associated with a higher annual growth rate were male sex (p = 0.0002), initial tumor diameter greater than 25 mm (p < 0.0001), MR imaging T2 signal hyperintensity (p = 0.0001), presence of symptoms (p = 0.037), and edema (p < 0.0001).
CONCLUSIONS
Although the authors could obtain variable results depending on the measurement method, the data demonstrate patients younger than 60 years of age and those with meningiomas characterized by hyperintensity on T2-weighted MR imaging, no calcification, diameter greater than 25 mm, and edema need to be observed more closely. Volumetry was more sensitive to detecting tumor growth than measuring the linear diameter.
[1]
Naoki Kagawa,et al.
Serial volumetric assessment of the natural history and growth pattern of incidentally discovered meningiomas.
,
2009,
Journal of neurosurgery.
[2]
N. Vick,et al.
Growth rate of non-operated meningiomas
,
2008,
Journal of Neurology.
[3]
J. Kuratsu,et al.
Indications for surgery in patients with asymptomatic meningiomas based on an extensive experience.
,
2006,
Journal of neurosurgery.
[4]
Madjid Samii,et al.
The Natural History of Incidental Meningiomas
,
2003,
Neurosurgery.
[5]
J. Kuratsu,et al.
Incidence and clinical features of asymptomatic meningiomas.
,
2000,
Journal of neurosurgery.
[6]
Y. Fujii,et al.
Growth of Incidental Meningiomas
,
2000,
Acta Neurochirurgica.
[7]
J. Kuratsu,et al.
Natural history of elderly patients with asymptomatic meningiomas
,
2000,
Journal of neurology, neurosurgery, and psychiatry.
[8]
R. Mccomb,et al.
Pathology and Genetics of Tumours of the Nervous System
,
1998
.
[9]
W. Olivero,et al.
The natural history and growth rate of asymptomatic meningiomas: a review of 60 patients.
,
1995,
Journal of neurosurgery.
[10]
R. Firsching,et al.
Growth rate of incidental meningiomas.
,
1990,
Journal of neurosurgery.