The aim of the present study is to compare contralateral oblique view with the lateral view for fluoroscopic guided mid-thoracic epidural assess.
A thoracic epidural assess (block or catheter insertion) is a widely used intervention to reduce pain in patients with postherpetic neuralgia or who underwent chest and upper abdominal surgery. In order to achieve the correct procedure, accurate access to the thoracic epidural space is needed. However, a thoracic epidural assess is a relatively more difficult procedure than procedures used in other regions, because the spinous process of the thoracic vertebra is longer than that of the lumbar vertebra, and the area through which the needle can approach the epidural space is relatively smaller due to an acute angle and larger distance between the skin and the epidural space. The midthoracic region (T4-8) is the most difficult area when performing this procedure. To overcome this issue, a method of approaching the thoracic epidural space through the contralateral oblique view (CLO view) has been introduced, however, unlike the cervical or lumbar spine, advantages of the CLO view over the lateral view or the optimal angle of the CLO view have not yet been studied. Therefore, we planned this study to investigate the advantages of the CLO view compared with the lateral view and to determine the optimal angles of the CLO view when fluoroscopic guided mid-thoracic epidural assess.
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
DIAGNOSTIC
Masking
NONE
Enrollment
30
When performing a fluoroscopic-guided thoracic epidural block (TEB), an 18-gauge Tuohy needle will be used for interlaminar epidural access. If the epidural space was accessed under fluoroscopic guidance and using the loss of resistance technique with air. All procedures will be performed with a paramedian approach under the true AP and lateral view at first, If the interlaminar space is not visible, the CLO view will be used. If the needle is deemed to be in the epidural space when the loss occurred, six fluoroscopic views will be obtained: true AP, CLO at 40 degrees, 50 degrees, 60 degrees, CLO measured, and lateral. The CLO measured angle will be determined by measuring the angle between the superior lamina and spinous process on the midsagittal plane on thoracic MRI or CT.
Asan medical center
Seoul, South Korea
Seong-Soo Choi
Seoul, South Korea
Distance between the tip of epidural needle and the baseline (CLO view - ventral interlaminar line, lateral view - spinolaminar line) at each view (CLO view at 40 degrees, 50 degrees, 60 degrees, CLO measured view, and lateral view)
Location of the needle tip was defined as being significantly before the baseline (-2), just before the baseline (-1), on the baseline (0), just after the baseline (+1), or significantly after the baseline (+2).
Time frame: One day after the procedure
The quality of needle tip visualization at each view (CLO view at 40 degrees, 50 degrees, 60 degrees, CLO measured view, and lateral view)
The clarity of the needle tip was subjectively graded as 1 (clearly visualized without ambiguity), 2 (poorly visualized or visualized with effort), or 3 (not visualized).
Time frame: One day after the procedure
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