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TRANSRECTAL ULTRASOUND GUIDED PROSTATE BIOPSY

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TRANSRECTAL ULTRASOUND GUIDED

PROSTATE BIOPSY

Peter Carroll, MD and Katsuto Shinohara, MD

Indications for the initial biopsy

TRUS alone should not be used as a fi rst-line screening study as it lacks acceptable specifi city, is relatively expensive when compared with digital rectal examination (DRE) and prostate specifi c antigen (PSA) testing and adds little information to that already gained by the use of serum PSA and digital rectal examination. The most important role for TRUS is to provide visual guidance for biopsy

In general, most agree that TRUS guided prostate needle biopsy should be performed in men with an abnormal DRE, an elevated PSA (>4.0 ng/ml) or PSA velocity (rate of PSA change) >0.4 to 0.75ng/ml/yr. Also, men who were diagnosed with high-grade prostatic intraepithelial neoplasia (PIN) or atypia on a previous prostate needle biopsy should undergo a repeat biopsy 3 to 12 months later. Less commonly agreed upon recommendations for TRUS guided prostate needle biopsy include, age-specifi c PSA elevation, low percentage free PSA (< 22% to 25%), and prostate specifi c antigen density (PSAD) > 0.15, which is a measure of the amount of PSA relative to the overall prostatic volume (PSA ÷ Prostate Volume in cubic centimeters).

In patients previously treated with curative intent for prostate cancer (i.e. radical prostatectomy, radiation therapy, and cryotherapy) relative indications for TRUS guided prostate needle biopsy includes a palpable abnormality on digital rectal examination or a rising PSA suggestive of local, rather than distant, recurrence.

Technique

Patient preparation Patient preparation

At our institution, we routinely use a three-day course of an oral fl uoroquinolone starting before the biopsy is performed. We instruct the patient to give a self-administered cleansing enema (sodium phosphate and dibasic sodium phosphate) prior to the biopsy to eliminate gas and remove feces. We also recommend that aspirin and non-steroidal anti-infl ammatory (NSAIDS) be discontinued for seven and three days respectively prior to the scheduled prostate needle biopsy. Patients on anticoagulation therapy are not biopsied until the anticoagulant dosage is adjusted or held to allow the coagulation status to normalize.

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Transrectal ultrasound procedure Transrectal ultrasound procedure

The patient is positioned in either the right or left lateral decubitus position (lying on left side). This allows for easier insertion of the rectal probe. A topical anesthetic ointment is applied to the index fi nger prior to performing the DRE. A 5.0 to 7.5mHz transducer is used for transrectal imaging of the prostate. The probe is gently advanced into the rectum, to the base of the bladder until the seminal vesicles are visualized. Transverse images are then obtained as the probe is moved back from the prostate base to the prostate apex. Hard copy images are made at the level of the seminal vesicles, base, mid-prostate and apex. With the transducer at the largest cross-sectional image in the transverse plane and in the mid-sagittal plane, prostate volume can be calculated. A simple prorated ellipsoid formula is commonly used to calculate prostate volume: (anterior-posterior diameter) x (transverse diameter) x (superior-infereior diameter) x Π/6 (approximately 0.52) is accurate and reproducible.

Transrectal ultrasound fi ndings Transrectal ultrasound fi ndings

The most common appearance for cancer is a hypoechoic lesion (dark compared to normal tissue) in the peripheral zone. With PSA based screening and earlier cancer detection, fewer overt abnormal sonographic fi ndings are being detected at the time of transrectal ultrasound guided biopsy.

The sonographic fi nding of the classic hypoechoic peripheral zone lesion has a sensitivity of cancer detection of 85.5%, specifi city of 28.4%, positive predictive value of 29%, negative predictive value of 85.2% and overall accuracy of 43%. The prevalence of isoechoic or nearly invisible prostate cancers on TRUS to ranges from 25 to 42%. To date, no biologic differences have been noted between isoechoic and hypoechoic prostate cancers.

Figure 1

Transrectal ultrasonography.

Top image, solid white arrow depicts hypoechoic lesion within the peripheral zone concerning for prostate cancer.

Lower image depicts hypervascular area seen with color Doppler imaging, yellow and red area

corresponds to the hypoechoic area seen on the grayscale ultrasonography above.

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Prostate biopsy technique Prostate biopsy technique

An 18-gauge biopsy needle loaded in a spring-action automatic biopsy device is commonly used to procure multiple 1.5cm prostate biopsy specimens (Figures 2,3). When a biopsy is directed at a suspicious lesion, it is important for the needle tip to be placed precisely at the boundary of the lesion before activating the biopsy gun. This technical point can improve sampling accuracy. If the prostate capsule is “tented up” by the needle tip, tissue may be taken too deep inside the gland and a tumor located in the peripheral zone may be missed. The excursion of the needle tip during a biopsy is approximately 2.5cm and the biopsy notch, which procures the tissue, is approximately 1.5cm. These parameters should be taken into account when performing a prostate needle biopsy.

Local anesthesia and prostate needle biopsy Local anesthesia and prostate needle biopsy

Systematic sextant TRUS-guided prostate biopsies have traditionally been done with no form of anesthesia and have been relatively well tolerated. Recent studies have reported that 65% to 95% of men report some level of discomfort during transrectal ultrasound guided prostate needle biopsy. Specifi cally 10% to 25% of patients undergoing sextant biopsy experience moderate to severe pain. Pain during a transrectal ultrasound guided prostate biopsy predominantly occurs when the needle penetrates the prostatic capsule and stroma, which has a rich supply of autonomic nerve fi bers.

However, men who receive a local injection of 1% lidocaine (5ml) have signifi cantly less pain. At our institution, we apply a topical anesthetic Hurricaine® gel as lubricant at the time of the digital rectal examination. After the prostate gland has been completely imaged (transaxial and sagital planes) and the prostate volume has been calculated, 10ml of 1% lidocaine is injected into the prostate gland at the lateral edge of the gland on each side from the base to the apex.

Complications Complications

Modern TRUS guided prostate needle biopsy is associated with frequent minor (range 60% to 79%) and rare major (range 0.4% to 4.3%) complications and the need for hospitalization ranges from 0.4% to 3.4%. Persistent blood

Figure 3 Histology. Prostate cancer in the core needle biopsy stained with Hematoxylin and Eosin (low power). Figure 2

18-gauge prostate needle biopsy core specimen.

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in the urine (hematuria) is the most common complication. The persistent hematuria occurs in 47.1% of patients and typically lasts 3 to 7 days following the biopsy. Immediate complications of TRUS guided prostate needle biopsy included a vasovagal episodes (feeling faiint) (5.3%), rectal bleeding (8.3%) and hematuria (70.8%). Delayed complications of TRUS guided prostate needle biopsy at 3 to 7 days post biopsy included dysuria (pain with urination) (9.1%), vague pelvic discomfort (13.2%), persistent hematuria (47.1%), hematochezia (rectal bleeding) (9.1%) and hematospermia (blood in the semen) (9.1%).

Strategies to optomize prostate biopsy templates

Clinically, the sampling error of the sextant biopsy template has been evident by the 20% to 30% cancer detection rate in men undergoing a repeat transrectal ultrasound guided biopsy. This has lead investigators to question the sampling adequacy of the standard sextant (6 – core) prostate biopsy template and to propose alternate “extended pattern” biopsy schemes to improve prostate cancer detection. The alternate prostate biopsy templates aim to improve sampling of the prostate by either increasing the number of core biopsies taken and/or by directing the biopsies more laterally to better sample the anterior horn (the far lateral regions of the peripheral zone).

Some of the pitfalls in terms of cancer detection by biopsy site can be explained by the prostatic zonal anatomy. For example, at the prostate base lateral biopsies will sample the peripheral zone, while medially directed biopsies are more likely to sample the central zone, a zone that rarely develops prostate cancer. In the mid gland, especially in patients with signifi cant benign prostatic hypertrophy, a medially directed biopsy in this area can traverse the peripheral zone and predominantly sample the transition zone. If biopsies in this area are directed laterally, the so called anterior horns of the peripheral zone are more likely to be sampled as they wrap around the transition zone in this area. Biopsies directed at the prostatic apex have a higher detection rate for prostate cancer as this area is comprised entirely of peripheral zone. Carefully, directed apical biopsies can also sample the distal aspect of the transition zone. Three popularized methods for optimizing the number and location prostate needle biopsies are the fi ve-region, eight systematic core

template and the 11-multisite biopsy protocol (Figure 4).

Figure 4

Cross-sectional view of commonly biopsied zones.

TZ-transition zone, Mid PZ-mid peripheral zone, Lat PZ-lateral peripheral zone, AH-anterior horn,

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Indications for a second biopsy

It is important for physicians and patients to understand that a prostate biopsy is not a perfect technique and it may miss prostate cancer that exists. Usually, these are limited, organ – contained cancers. However, on occasion, due to sampling error, larger cancers can be missed. The overall cancer detection rates for patients undergoing repeat prostate needle biopsy with various biopsy templates ranges from 10% - 38%.

Although the majority of prostate cancer arises in the peripheral zone, approximately 24 percent of prostate carcinomas originate in the transition zone (TZ). The overall increase in cancer detection using TZ biopsies ranges from 0.9 to 4.3%. Therefore, there is little data supporting the routine use of TZ biopsies in the initial prostate biopsy template. The highest yield in prostate cancer detection was in men with persistently elevated PSA undergoing repeat prostate needle biopsy. Thus, TZ biopsies may be benefi cial in this subgroup of patients. Indications for a repeat prostate biopsy include the following:

1) A highly suspicious DRE (digital rectal examination) 2) A persistently rising serum PSA (> 0.4 – 0.75 ng/ml/yr.) 3) A low free PSA (certainly < 10%, maybe < 22% - 25%) 4) Presence of PIN or atypia on prior biopsy

Figure 5

Popular biopsy strategies to optimize prostate cancer detection.

Contemporary sextant biopsy template, fi ve-region

biopsy template, eight-biopsy systematic template, and the eleven-core biopsy multi-site directed template.

FL-far lateral peripheral zone, L-lateral peripheral zone,

Mid-peripheral zone, RTZ-right transition zone, LTZ- left transition zone.

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Selected references

Chang, J.J., Shinohara, K., Hovey, R.M., Montgomery, C. and Presti, J.C., Jr. (1998) Prospective evaluation of systematic sextant transition zone biopsies in large prostates for cancer detection. Urology, 52, 89-93.

Downs, T.M., Grossfeld, G.G., Shinohara, K., and Carroll, P.R. (2003) Transrectal ultrasound guided prostate biopsy. Image-Guided Cancer Detection and Treatment. Humana Press Inc. Totowa, New Jersey, In Press-Publication date August 2003)

Grossfeld, G. and Carroll, P. (2001) Prostate Cancer Early Detection: a Clinical Perspective. Epidemiologic Reviews, 23, 173-180.

Nash, P.A., Bruce, J.E., Indudhara, R. and Shinohara, K. (1996) Transrectal ultrasound guided prostatic nerve blockade eases systematic needle biopsy of the prostate. J Urol, 155, 607-9.

Park, S., Shinohara, K., Grossfeld, G. and Carroll, P. (2001) Prostate cancer detection in men with prior high grade prostatic intraepithelial neoplasia or atypical prostate biopsy. J. Urol, 165, 1409-1414.

Presti, J., Chang, J., Bhargava, V. and Shinohara, K. (2000) The optimal systematic prostate biopsy scheme should include 8 rather than 6 biopsies: Results of a prospective clinical trial. J. Urol, 163, 163-167.

Shinohara, K., Wheeler, T. and Scardino, P. (1989) The appearance of prostate cancer on transrectal ultrasonography: correlation of imaging and pathological examinations. J. Urol, 142, 76.

References

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