BACKGROUND AND PURPOSE: Visualization of the intracranial internal carotid artery (ICA) with transcranial color-coded sonography (TCCS) by using the transtemporal coronal plane has been described previously. Because this approach is limited to the vertical running ICA segments, we investigated the feasibility of using TCCS to visualize all intracranial ICA segments by adding the transtemporal axial approach to the coronal plane. MATERIALS AND METHODS: Subjects with excellent transtemporal acoustic windows were examined by TCCS by using standardized axial and coronal planes. Identification rate, flow velocities, pulsatility and resistance indices, and length (as visible in color-coded power mode) were determined. RESULTS: A total of 120 intracranial ICAs from 60 subjects were investigated. By switching between the axial and coronal insonation planes, all intracranial segments of the ICA could be investigated in 100% of subjects-with the exception of the horizontal part of the petrosal ICA, which was identified in 96.7% of subjects. CONCLUSIONS: TCCS becomes a reliable tool in investigating all parts of the intracranial ICA by adding the transtemporal axial approach to the coronal plane.
BACKGROUND AND PURPOSE: Visualization of the intracranial internal carotid artery (ICA) with transcranial color-coded sonography (TCCS) by using the transtemporal coronal plane has been described previously. Because this approach is limited to the vertical running ICA segments, we investigated the feasibility of using TCCS to visualize all intracranial ICA segments by adding the transtemporal axial approach to the coronal plane. MATERIALS AND METHODS: Subjects with excellent transtemporal acoustic windows were examined by TCCS by using standardized axial and coronal planes. Identification rate, flow velocities, pulsatility and resistance indices, and length (as visible in color-coded power mode) were determined. RESULTS: A total of 120 intracranial ICAs from 60 subjects were investigated. By switching between the axial and coronal insonation planes, all intracranial segments of the ICA could be investigated in 100% of subjects-with the exception of the horizontal part of the petrosal ICA, which was identified in 96.7% of subjects. CONCLUSIONS: TCCS becomes a reliable tool in investigating all parts of the intracranial ICA by adding the transtemporal axial approach to the coronal plane.
Authors: David Fiorella; Elad I Levy; Aquilla S Turk; Felipe C Albuquerque; David B Niemann; Beverly Aagaard-Kienitz; Ricardo A Hanel; Henry Woo; Peter A Rasmussen; L Nelson Hopkins; Thomas J Masaryk; Cameron G McDougall Journal: Stroke Date: 2007-02-08 Impact factor: 7.914
Authors: Jaroslaw Krejza; Maciej Swiat; Mikolaj A Pawlak; Grzegorz Oszkinis; John Weigele; Robert W Hurst; Scott Kasner Journal: J Neuroimaging Date: 2007-10 Impact factor: 2.486
Authors: J Valaikiene; G Schuierer; B Ziemus; J Dietrich; U Bogdahn; F Schlachetzki Journal: AJNR Am J Neuroradiol Date: 2007-11-16 Impact factor: 3.825
Authors: Juan Carlos Perazzo; Silvina Tallis; Amalia Delfante; Pablo Andrés Souto; Abraham Lemberg; Francisco Xavier Eizayaga; Salvador Romay Journal: World J Hepatol Date: 2012-03-27