Df. Yankelevitz et al., PERCUTANEOUS CT BIOPSY OF CHEST LESIONS - AN IN-VITRO ANALYSIS OF THEEFFECT OF PARTIAL VOLUME AVERAGING ON NEEDLE POSITIONING, American journal of roentgenology, 161(2), 1993, pp. 273-278
OBJECTIVE. Accurate needle biopsy of chest lesions requires knowledge
of both the direction of the needle and the exact location of the tip
of the needle. The purpose of this study was to analyze and illustrate
the relationships between the location of the nodule, the size of the
nodule, the CT slice thickness, and the needle length. An understandi
ng of these relationships should minimize localization errors due to p
artial volume averaging and thus increase the accuracy of biopsies. MA
TERIALS AND METHODS. Geometric principles were used to determine mathe
matical relationships between the size of the nodule, the CT slice thi
ckness, the length of the needle, and the direction of the needle. A s
tyrofoam model simulating the patient and the lesion to be sampled was
developed so that radiographs and CT scans of the model could be obta
ined with different needle placements to illustrate the phenomenon of
partial volume averaging. RESULTS. The accuracy of the CT-guided biops
y can be increased by reducing the CT slice thickness, using longer ne
edles, minimizing the distance to be traversed within the patient, and
maximizing the portion of the lesion contained in the CT section used
for needle tip localization. Mathematical equations developed from th
e in vitro model can be used to select the most appropriate CT section
and the best length and angle of the needle. CT scans of the model il
lustrate the use of these equations. CONCLUSION. We found these princi
ples helpful in improving the accuracy of CT needle biopsies, particul
arly when the lesions are very small and when an angled approach is re
quired. Ideally, the smallest possible CT slice thickness and the long
est possible needles should be used, but some practical limitations ex
ist.