BACKGROUND AND PURPOSE: The shape and exact size of lacunar infarcts have been investigated only postmortem. Recent imaging techniques based on triangulation and connectivity can now be used for 3D segmentation of cerebral lesions. The shape and size of lacunar infarcts was investigated using these techniques in 10 cerebral autosomal dominant arteriopathy with subcortical infarcts and leukoencephalopathy (CADASIL) patients. METHODS: We segmented 102 lacunar infarcts on T1-weighted images. The surface of the corresponding set of voxels was computed as a mesh of triangles. Thereafter, the shape of each lesion in 3D was visually analyzed by 2 investigators. RESULTS: The volume of lesions ranged from 10.5 to 1146 mm, with 93% of them having a volume <500 mm; 83% lacunar infarcts had a spheroid or ovoid shape, but 17% presented as sticks, slabs, or with a complex shape. Lesions with multiple components appeared larger than the others, and a tail extension was noticed in 13 of 102 lesions. CONCLUSIONS: These results suggest the following: (1) most lacunar infarcts in CADASIL have a volume far below one third of that of a sphere of 15 mm in diameter, the upper limit currently used for their identification on 2D imaging; (2) a significant proportion of lacunar infarcts have a shape distinct from the spheroid-ovoid morphology; and (3) lesions with a complex shape may result from the involvement of the largest small arteries, confluence of ischemic lesions, or secondary tissue degeneration. The segmentation of lacunar infarcts appears promising to better understand the pathophysiology of tissue lesions secondary to small vessel diseases.
BACKGROUND AND PURPOSE: The shape and exact size of lacunar infarcts have been investigated only postmortem. Recent imaging techniques based on triangulation and connectivity can now be used for 3D segmentation of cerebral lesions. The shape and size of lacunar infarcts was investigated using these techniques in 10 cerebral autosomal dominant arteriopathy with subcortical infarcts and leukoencephalopathy (CADASIL) patients. METHODS: We segmented 102 lacunar infarcts on T1-weighted images. The surface of the corresponding set of voxels was computed as a mesh of triangles. Thereafter, the shape of each lesion in 3D was visually analyzed by 2 investigators. RESULTS: The volume of lesions ranged from 10.5 to 1146 mm, with 93% of them having a volume <500 mm; 83% lacunar infarcts had a spheroid or ovoid shape, but 17% presented as sticks, slabs, or with a complex shape. Lesions with multiple components appeared larger than the others, and a tail extension was noticed in 13 of 102 lesions. CONCLUSIONS: These results suggest the following: (1) most lacunar infarcts in CADASIL have a volume far below one third of that of a sphere of 15 mm in diameter, the upper limit currently used for their identification on 2D imaging; (2) a significant proportion of lacunar infarcts have a shape distinct from the spheroid-ovoid morphology; and (3) lesions with a complex shape may result from the involvement of the largest small arteries, confluence of ischemic lesions, or secondary tissue degeneration. The segmentation of lacunar infarcts appears promising to better understand the pathophysiology of tissue lesions secondary to small vessel diseases.
Authors: Anouk G W van Norden; Karlijn F de Laat; Ilma Fick; Inge W M van Uden; Lucas J B van Oudheusden; Rob A R Gons; David G Norris; Marcel P Zwiers; Roy P C Kessels; Frank-Erik de Leeuw Journal: Hum Brain Mapp Date: 2011-03-09 Impact factor: 5.038
Authors: Alessandra Del Bene; Stephen D J Makin; Fergus N Doubal; Domenico Inzitari; Joanna M Wardlaw Journal: Stroke Date: 2013-09-05 Impact factor: 7.914
Authors: Ali S Saber Tehrani; Jorge C Kattah; Georgios Mantokoudis; John H Pula; Deepak Nair; Ari Blitz; Sarah Ying; Daniel F Hanley; David S Zee; David E Newman-Toker Journal: Neurology Date: 2014-06-11 Impact factor: 9.910
Authors: S Rudilosso; X Urra; L San Román; C Laredo; A López-Rueda; S Amaro; L Oleaga; Á Chamorro Journal: AJNR Am J Neuroradiol Date: 2015-04-16 Impact factor: 3.825
Authors: Negar Asdaghi; Lesly A Pearce; Makoto Nakajima; Thalia S Field; Carlos Bazan; Franco Cermeno; Leslie A McClure; David C Anderson; Robert G Hart; Oscar R Benavente Journal: Stroke Date: 2014-09-04 Impact factor: 7.914
Authors: J R Sims; L Rezai Gharai; P W Schaefer; M Vangel; E S Rosenthal; M H Lev; L H Schwamm Journal: Neurology Date: 2009-06-16 Impact factor: 9.910
Authors: Fiona C Moreton; Marco Düring; Thanh Phan; Velandai Srikanth; Richard Beare; Xuya Huang; Eric Jouvent; Hugues Chabriat; Martin Dichgans; Keith W Muir Journal: Eur Stroke J Date: 2017-07-07
Authors: Annemieke M Peters van Ton; Harmke B Duindam; Julia van Tuijl; Wilson Wl Li; Hendrik-Jan Dieker; Niels P Riksen; Fj Anton Meijer; Roy Pc Kessels; Nils Kohn; Johannes G van der Hoeven; Peter Pickkers; Mark Rijpkema; Wilson F Abdo Journal: BMJ Open Date: 2021-05-11 Impact factor: 2.692