TY - JOUR
T1 - Abnormalities of the diaphragm and adjacent structures
T2 - Findings on multiplanar spiral CT scans
AU - Brink, J. A.
AU - Heiken, J. P.
AU - Semenkovich, J.
AU - Teefey, S. A.
AU - McClennan, B. L.
AU - Sagel, S. S.
PY - 1994
Y1 - 1994
N2 - Abnormalities of the diaphragm and surrounding tissues have been notoriously difficult to image with conventional axial CT. During the past 10 years, the multiplanar imaging capabilities of MR have been used to clarify the organ of origin of masses near the diaphragm. Spiral CT now offers a similar capability. With spiral CT, the peridiaphragmatic region can be scanned in a single breath-hold, minimizing motion artifacts and virtually eliminating respiratory misregistration. Axial images of closely spaced, overlapping sections are reconstructed retrospectively from the volumetric spiral CT projection data set [1,2]. From these images, one can generate high-detail multiplanar reformations through the diaphragm and adjacent abnormalities [3-6]. As the CT attenuation values inherent to the chest and abdomen cover a wide range, three-dimensional reformations are not expected to depict this anatomy better than two-dimensional reformations can. This is because three-dimensional images generally render structures at the extremes of CT attenuation, or within a narrow window of CT attenuation values. This pictorial essay illustrates the importance of two-dimensional sagittal and coronal reformations of spiral CT scans in evaluating the peridiaphragmatic area. With these reformations, peridiaphragmatic abnormalities seen on axial images are localized to the lung, pleura, pericardium, cardiophrenic space, or intraabdominal viscera.
AB - Abnormalities of the diaphragm and surrounding tissues have been notoriously difficult to image with conventional axial CT. During the past 10 years, the multiplanar imaging capabilities of MR have been used to clarify the organ of origin of masses near the diaphragm. Spiral CT now offers a similar capability. With spiral CT, the peridiaphragmatic region can be scanned in a single breath-hold, minimizing motion artifacts and virtually eliminating respiratory misregistration. Axial images of closely spaced, overlapping sections are reconstructed retrospectively from the volumetric spiral CT projection data set [1,2]. From these images, one can generate high-detail multiplanar reformations through the diaphragm and adjacent abnormalities [3-6]. As the CT attenuation values inherent to the chest and abdomen cover a wide range, three-dimensional reformations are not expected to depict this anatomy better than two-dimensional reformations can. This is because three-dimensional images generally render structures at the extremes of CT attenuation, or within a narrow window of CT attenuation values. This pictorial essay illustrates the importance of two-dimensional sagittal and coronal reformations of spiral CT scans in evaluating the peridiaphragmatic area. With these reformations, peridiaphragmatic abnormalities seen on axial images are localized to the lung, pleura, pericardium, cardiophrenic space, or intraabdominal viscera.
UR - http://www.scopus.com/inward/record.url?scp=0027991918&partnerID=8YFLogxK
U2 - 10.2214/ajr.163.2.8037020
DO - 10.2214/ajr.163.2.8037020
M3 - Review article
C2 - 8037020
AN - SCOPUS:0027991918
SN - 0361-803X
VL - 163
SP - 307
EP - 310
JO - American Journal of Roentgenology
JF - American Journal of Roentgenology
IS - 2
ER -