Direct comparison between transrectal and transperineal extended prostate biopsy for the detection of cancer

AIM: To establish whether extended transrectal (TR) and extended transperineal (TP) biopsies are equivalent in detecting prostate cancer. METHODS: Due to an elevated prostate-specific antigen (PSA) greater than 2.5 ng/mL or abnormal digital rectal examination findings, 783 men underwent a transrectal ultrasound-guided three-dimensional 26-core biopsy, a combination of TR 12-core and TP 14-core biopsies. Using recursive partitioning, the best combination of sampling sites that gave the highest cancer detection rate at a given number of biopsy cores was selected either with a TR or a TP approach. The cancer detection rate and characteristics of detected cancers were compared between the TP 14-core and the TR 12-core biopsies and between selected subset biopsy schemes. RESULTS: Prostate cancer was detected in 283 of the 783 men (36%). There was no statistical difference in cancer detection rate or in the characteristics of detected cancers between TP 14-core and TR 12-core biopsies. As far as the best combination of sampling sites was selected, there was no statistical difference in cancer detection rates or in the characteristics of detected cancers between the TP and the TR subset biopsy schemes up to 12 cores. TP and TR biopsies performed equally, regardless of a history of negative biopsy, a digital rectal examination finding, the PSA level or the prostate volume. CONCLUSIONS: We demonstrated for the first time that extended TP biopsy is as effective as its TR counterpart in detecting cancer and the characteristics of detected cancers, as far as sampling sites are selected to maximize the cancer detection rate.     

Extensive biopsy using a combined transperineal and transrectal approach to improve prostate cancer detection

PURPOSE: Previous studies have indicated that 6-core transrectal prostate biopsy misses a considerable number of cancers. We performed an extensive biopsy protocol of 12-core sampling using both transperineal and transrectal approaches to determine the impact on the cancer detection rate. MATERIALS AND METHODS: We prospectively evaluated 402 men who underwent 6-core transperineal and 6-core transrectal biopsies simultaneously due to abnormal digital rectal examination (DRE) and/or elevated prostate-specific antigen (PSA) levels of 4.0 ng/mL or greater. Using the transperineal approach we obtained four cores from the bilateral peripheral zone targeting the lateral and parasagittal areas and two cores from the bilateral transition zone. The following transrectal biopsy was performed traditionally. We compared cancer detection rate between the extended 12-core procedure and conventional 6-core transperineal and transrectal groups in terms of total PSA and DRE findings. RESULTS: Using the extensive combined method, prostate cancer was detected in 195 cases (48.5%) and the detection rate significantly increased 7.2% and 8.5% compared to the transperineal and transrectal groups, respectively. According to PSA levels and DRE findings, the cancer detection rate by the combined method was significantly improved in patients with PSA levels of 4-10 ng/mL and negative DRE: 10.3% and 11.6% compared to the transperineal and transrectal groups, respectively. CONCLUSIONS: The extensive 12-core method significantly improved the overall cancer detection rate and was especially efficient for men with PSA levels of 4-10 ng/mL accompanied by a negative DRE finding.     

Simple and effective local anesthesia for transperineal extended prostate biopsy: Application to three-dimensional 26-core biopsy

Abstract:   We developed a local anesthetic procedure for three-dimensional 26-core prostate biopsy (3D26PBx), a combination of transperineal 14-core biopsy (TP14PBx) and transrectal 12-core biopsy (TR12PBx). At first, a periapical triangle, confined by the levator ani, the rhabdosphincter and the external anal sphincter muscle, was made visible by transrectal ultrasound. After administration of 1 mL of 1%-lidocaine into the midline perineal skin 1.5 cm above the anus, we inserted a spinal needle toward the periapical triangle for injection of 1.5–2.0 mL of 1%-lidocaine and performed the TP14PBx. After administration of the periprostatic nerve block with 10 mL of 1%-lidocaine, we performed the TR12PBx. The efficacy of the procedure was evaluated prospectively in 45 consecutive men undergoing the 3D26PBx. The 3D26PBx was completed with just local anesthesia in all patients. The pain levels, assessed by an 11-point visual analog scale, were not different between the TP14PBx and the TR12PBx.     

Diagnostic performance of initial transperineal 14-core prostate biopsy to detect significant cancer

Purpose

To investigate cancers missed by extended transperineal (TP) 14-core biopsy (TP14PBx) and examined its diagnostic performance.

Methods

We evaluated 744 men with prostate-specific antigen (PSA) levels in the range 2.5–20 ng/mL or abnormal digital rectal examination underwent three-dimensional 26-core prostate biopsy (3D26PBx), a combination of TP14PBx and transrectal 12-core biopsy (TR12PBx), at initial biopsy. Of 269 patients diagnosed with cancer, 127 subsequently underwent radical prostatectomy (RP). Cancers were grouped into TP-positive cancers (detected through TP14PBx) and TP-negative cancers (those not detected through TP14PBx but detected through TR12PBx). Clinicopathological characteristics and cancer locations of TP-negative cancers were evaluated. For cancer location analysis, the prostate was divided into apex, midprostate, and base regions.

Results

Thirty-seven (14 %) TP-negative cancers were found in 269 biopsy-positive cancers. Median number of positive cores in TP-negative cancers was significantly lower than that in TP-positive cancers (1 vs. 5, p < 0.001). TP-negative cancers had biopsy Gleason score (GS) of 7 or less in 87 % of cases and had significantly lower biopsy GS than those of TP-positive cancers (p = 0.028). Of 20 TP-negative cancers treated with RP, 70 % (14/20) were insignificant cancers (GS <4+3, volume <0.5 cc, and organ-confined disease). Of all significant cancers treated with RP, 6 % (6/99) were missed by TP14PBx. TP-negative cancers treated with RP were located more frequently in the apex than in the base (85 vs. 20 %, p < 0.001).

Conclusions

Initial TP14PBx provides sufficient detectability of significant cancers despite a small risk of missing cancers located in the prostate apex.     

Transperineal extended biopsy improves the clinically significant prostate cancer detection rate: A comparative study of 6 and 12 biopsy cores

BACKGROUND: We evaluated the improvement in the rate of prostate cancer detection when using a 12-core transperineal biopsy protocol including transitional zone biopsy. METHODS: Between April 2003 and November 2004, 247 consecutive men underwent transperineal systemic 12-core biopsy of the prostate. Six cores were obtained at the peripheral zone, four at the transitional zone and two at the apex. We examined the cancer detection rate in each of the 12 cores, and also determined the improvement of cancer detection resulting from the extensive 12-core versus standard 6-core biopsy. RESULTS: Using the extensive 12-core biopsy, prostate cancer was detected in 98 cases (39.7%). Prostate-specific antigen (PSA), PSA density, the positive rate in digital rectal examination and transrectal ultrasound findings were significantly higher in the prostate cancer group than in the non-prostate cancer group, and prostate volume was larger in non-prostate cancer group. Every site showed almost the same positive rate, between 17.8 and 21.5%. There were 20 cases which were positive in the extended biopsy, but negative in the sextant. The detection improved significantly (20.4%). The improvement of cancer detection in extended biopsy was better in men with PSA levels of 10 ng/mL or less (28.9%), PSA density 0.3 or less (25.8%), negative digital rectal examination (23.3%), and negative transrectal ultrasound (21.6%). Of these twenty patients, no cases with insignificant tumor were detected in the six prostatectomy cases. In particular, three cases of the six were transitional-zone-only cancer. CONCLUSION: Transperineal extended 12-core biopsy including 4 transitional zone cores is a more useful procedure than transperineal 6-core biopsy. Routine transitional zone biopsy, that is different from transrectal biopsy, might be useful for detecting biologically significant cancer.     

Transrectal ultrasound-guided transperineal 14-core systematic biopsy detects apico-anterior cancer foci of T1c prostate cancer

AIM: The optimal biopsy strategy for prostate cancer detection, especially in men with isolated prostate-specific antigen (PSA) elevation, remains to be defined. We evaluated diagnostic yield and safety of transrectal ultrasound (TRUS)-guided transperineal systematic 14-core biopsy and compared the spatial distribution of cancer foci detected with this technique in men with and without abnormality on digital rectal examination (DRE). METHODS: In a prospective study, 289 men aged between 50 and 87 years (median age, 70 years) underwent TRUS-guided transperineal systematic 14-core prostate biopsy because of elevated PSA and/or abnormal DRE findings. Using the fan technique, 12 cores from the peripheral zone and two cores from the transition zone were obtained systematically. To characterize the spatial distribution of cancer positive cores, site-specific overall and unique cancer detection rates were compared between stage T1c and T2 cancers. RESULTS: Prostate cancer was detected in 105 of the 289 patients (36%). Major complications requiring prolonged hospital stay or re-hospitalization during a 4-week postbiopsy period were rare (1.4%). Sixty-seven stage T1c cancers were identified. These cancers were associated with significantly lower PSA and a smaller number of cancer positive cores when compared with stage T2 cancers (n= 38). The overall cancer detection rate was highest at the anterior peripheral zone and the posterior peripheral zone in stage T1c and stage T2 cancers, respectively. The unique cancer detection rate at the anterior peripheral zone was significantly higher in stage T1c cancers than in stage T2 cancers. Therefore, when the prostate is extensively biopsied using the transperineal approach, cancer positive cores are characteristically distributed anteriorly in stage T1c cancers and posteriorly in stage T2 cancers. CONCLUSIONS: TRUS-guided transperineal systematic 14-core biopsy showed an apico-anterior distribution of cancer foci in stage T1c prostate cancers.     

Improved accuracy in predicting the presence of Gleason pattern 4/5 prostate cancer by three-dimensional 26-core systematic biopsy

OBJECTIVES: To evaluate whether three-dimensional 26-core (3D26) prostate biopsy improves the accuracy in predicting the presence of Gleason pattern 4/5 cancer compared with extended transrectal 12-core (TR12) or transperineal 14-core (TP14) biopsy schemes. METHODS: We studied 143 consecutive men in whom prostate cancer was diagnosed by the 3D26 biopsy and who underwent radical prostatectomy (RP) without neoadjuvant treatment. All histologic grading was reevaluated by a single pathologist according to the 2005 International Society of Urological Pathology Consensus Conference on Gleason Grading. Cancer grade was categorized into high grade (Gleason pattern 4/5 cancer present) and non-high grade (absent) in both biopsy and RP specimens. Since TR12 and TP14 biopsy schemes represent subsets of the 3D26 biopsy, we could compare these schemes directly in an identical patient cohort. RESULTS: There was a grade agreement between 3D26 biopsy and RP in 132 (92.3%) cancers. Grade concordance between biopsy and RP was significantly better in 3D26 biopsy than in TR12 (83.5%, p=0.025) biopsy. Risk of underestimation of cancer grade by 3D26 biopsy (26.5%) was significantly lower than that by TP14 (51.4%, p=0.034). Grade concordance between 3D26 biopsy and RP was not according to clinical variables including prostate volume, clinical stage, prostate-specific antigen (PSA), and PSA density. CONCLUSIONS: We demonstrated that the 3D26 biopsy can accurately predict the presence of Gleason pattern 4/5 cancer on RP specimens with a high concordance rate of 92.3%, a value significantly higher than that between extended TR12 biopsy and RP specimens.     

Importance of peripheral biopsies in maximising the detection of early prostate cancer in repeat 12-core biopsy protocols

OBJECTIVE: To assess cancer-detection rates in repeat 12-core biopsy protocols, as extended multicore prostate biopsy protocols have become standard when investigating men with a raised prostate-specific antigen (PSA) level, but repeat prostate biopsy protocols are still developing. PATIENTS AND METHODS: During a 4.5-year period, 241 of 590 patients with persistently high age-specific PSA levels of 2.6-10 ng/mL and an initial benign biopsy were invited for repeat transrectal ultrasonography-guided 12-core prostatic biopsy. The protocol for repeat biopsy was identical to the first biopsy, and included a periprostatic nerve block. The first six biopsies were obtained from the periphery of the gland directed more laterally at the base, mid-zone and apices. The remainder were parasagittal sextant biopsies. Pathological findings were analysed on an individual core basis. RESULTS: The mean age of the 241 men was 63.4 years; cancer was diagnosed in 40 (16.6%) on repeat biopsy. Men with cancer were older and had a higher median PSA level. The median Gleason score was 6, with a median of two cores positive for cancer. Maximum cancer detection rates were from peripheral apices (37.5%), basal biopsies had the lowest detection rates (23.8% and 16.3%), and parasagittal biopsies missed 35% of detected cancers. Patients with cancer also had significantly lower prostate volumes and higher PSA densities (both P < 0.001). CONCLUSION: A low cancer yield from both peripheral basal and parasagittal basal specimens on repeat biopsy indicates adequate sampling at initial biopsy. The maximum cancer yield in the peripheral mid-zones and apical zones suggests the necessity for concentrated sampling of these zones in repeat biopsy protocols.     

A prospective randomized comparison of diagnostic efficacy between transperineal and transrectal 12-core prostate biopsy

The aim of this study is to elucidate the diagnostic efficacy between transperineal and transrectal 12-core prostate biopsy for prostate cancer. We prospectively randomized 200 consecutive men into two groups to undergo systematic prostate biopsy. Overall positivity for cancer was similar (47% by transperineal and 53% by transrectal; P=0.480). However, in case with 'gray zone' PSA (from 4.1 to 10.0 ng/ml), significantly more cores were positive when approach was transperineal, especially among transition zone cores. Therefore, urologist preferences are sufficient for choosing an approach, except for a possible small advantage of transperineal biopsy when PSA is in gray zone.     

Biopsy Schemes with the Fewest Cores for Detecting 95% of the Prostate Cancers Detected by a 24-Core Biopsy

Background

The most efficient number and location of prostate biopsies remains a matter of debate.

Objective

To identify the combination (number and location) of sampling sites that permits the detection of 95% of the prostate cancers (PCa) detected by a 24-core biopsy (24PBx).

Design, setting, and participants

Six hundred and seventeen consecutive patients with a suspicion of PCa were prospectively enrolled.

Intervention

A transrectal ultrasound-guided systematic 24PBx was prospectively performed with local anesthesia in an outpatient setting. The 24PBx was obtained by the overlapping of medial sextant, lateral sextant, octant subcapsular, and quadrant transition cores. Before fixation, each single core was individually marked and inked according to the prostatic location sampled.

Measurements

We relied on a classification and regression tree analysis to identify four subgroups of patients with different PCa detection risk at initial biopsy, according to their clinical characteristics. Subsequently, we set the cancer-positive rate of the 24PBx at 100% and calculated PCa detection rates for 255 possible combinations of sampling sites. We selected the most advantageous biopsy scheme (defined as the combination of sampling sites that detected 95% of all the cancers with the minimal number of biopsy cores) for each patient subgroup. Finally, we internally validated the tumor detection rates by using the 10-fold cross-validation method.

Results and limitations

The 24PBx detected PCa in 289 patients (46.8%). The analysis revealed that the most advantageous schemes for patients with a negative digital rectal exam (DRE), prostate volume (PV) ≤60 cm³, and age ≤65 yr was a combination of a 16-core biopsy. For patients with a negative DRE, PV ≤60 cm³, and age >65 yr or a negative DRE and PV >60 cm³, the most advantageous scheme was two different combinations of a 14-core biopsy. Finally, the sampling that permits detection of 95% of cancers in patients with a positive DRE was a combination of a 10-core biopsy.

Conclusions

The most beneficial scheme varied according to the clinical characteristics of the patients. We propose a user-friendly flowchart to identify the most advantageous set of sampling sites according to patients’ characteristics.     

The potential impact of prostate volume in the planning of optimal number of cores in the systematic transperineal prostate biopsy

OBJECTIVES: We compared the detection rates of different transperineal prostate biopsy protocols with the aim to optimize the number of cores to sample according to prostate volume. MATERIAL AND METHODS: From October 2002 to October 2004 we evaluated 480 consecutive patients with PSA between 2.5 and 20 ng/ml undergoing the first set of prostate biopsy. All patients underwent a 14-core TRUS-guided transperineal prostate biopsy, including 12 cores in the peripheral and two in the transitional zone. The detection rate of the 14-core scheme was compared to the one of the other biopsy schemes obtained through the exclusion of pairs of cores. Data were stratified according to the different TRUS estimated prostate volumes. RESULTS: The detection rate of the standard sextant was 35.2%, while those of the 8-core schemes ranged from 37.1 to 38.8%. The 10-core schemes yielded detection rates of 39.6-40.8% and the protocol with 12 biopsies in the peripheral zone diagnosed prostate cancer in 42.1% of the patients. In patients with <30 cc prostate volume, the detection rate of the 14-core scheme was 43.8% and resulted statistically overlapping to the 8-peripheral cores protocol. In patients with 30.1-50 cc prostate volume a 12-peripheral core biopsy reproduced the results of the 14-core sampling. In prostates larger than 50 cc, an even more extensive procedure was mandatory, considering the low detection rate of the 14-core scheme (24.2%). CONCLUSION: Transperineal prostate biopsy is a safe procedure with a very low complication rate and high cancer detection rate. Prostate volume is the most relevant variable in the planning of the optimal number of cores in the extensive first biopsy set. A protocol with more than 8 peripheral cores) is recommended only in patients with prostate volume larger than 30 cc.     

The value of a single biopsy with 12 transperineal cores for detecting prostate cancer in patients with elevated prostate specific antigen

PURPOSE: Prostate cancer detection on standard sextant biopsy is considered inadequate. Various biopsy protocols have been introduced to improve cancer diagnosis. We report our experience with transperineal 12-core prostate biopsy. MATERIALS AND METHODS: In a prospective study 650 patients underwent prostate specific antigen (PSA) measurement during a 15-month period, of whom 141 with PSA greater than 4 ng./ml. also underwent transperineal 12-core prostate biopsy using the fan technique. Median PSA was 8 ng./ml. (range 4.1 to 5,000). RESULTS: Prostate cancer was detected in 72 of the 141 patients (51%), including 44 of the 97 (45%) with PSA between 4.1 and 10 ng./ml. This incidence is higher than previously reported in the literature using other biopsy techniques. Disease was low grade Gleason 2 to 4 in 4 cases (5%), intermediate grade Gleason 5 to 6 in 26 (35%) and high grade Gleason 7 to 10 in the remaining 42 (60%). CONCLUSIONS: A high cancer detection rate is achieved by 12-core transperineal prostate biopsy. Most tumors represent clinically significant cancer. Further randomized trials are required to confirm these data.     

Transperineal 12-core systematic biopsy in the detection of prostate cancer

BACKGROUND: The present study was designed to determine the clinical value of transperineal 12-core systematic prostate biopsy guided by transrectal ultrasonography (TRUS) in the detection of prostate cancer. METHODS: A total of 679 consecutive patients underwent systematic prostate biopsies because of abnormal results on digital rectal examination and/or TRUS and/or an elevated serum prostate-specific antigen level. Systematic six- and 12-core biopsies were taken in 138 patients between April 1994 and February 1995 and in the remaining 541 between March 1995 and February 2000, respectively. Twelve-core biopsy included two samples from the lateral portion of the peripheral zone and four from the anterior portion of the transition zone in addition to the conventional six-core biopsy. RESULTS: In the series overall, systematic biopsy revealed 156 cases of prostate cancer (23.0%). The detection rate increased by 5.2%, although this was statistically not significant, from 18.8% (26/138) by six-core biopsy to 24.0% (130/541) by 12-core biopsy. Out of 130 patients in whom prostate cancer was detected by 12-core biopsy, it was supposed that conventional six-core biopsy would have missed 18 cases (13.8%). CONCLUSIONS: Systematic 12-core biopsy might improve the detection rate for prostate cancer. However, further studies are needed to determine its clinical value in the diagnosis of the disease.     

Increasing the number of biopsy cores improves the concordance of biopsy Gleason score to prostatectomy Gleason score

OBJECTIVE: To evaluate taking more biopsy cores for predicting the radical prostatectomy (RP) Gleason score compared with the biopsy Gleason score, as although random sextant biopsies are the standard for a tissue diagnosis of prostate cancer, and taking more biopsies increases the detection rate, it is uncertain whether taking more cores improves the prediction of the RP Gleason score. PATIENTS AND METHODS: We analysed retrospectively 404 patients from three centres (Seattle 162, Washington 107 and Chicago 135) who had RP for prostate cancer. Six, eight or 10 biopsies were taken based on the physician's preference and the patient's characteristics. RESULTS: Before RP, 158 (39%) patients had six, 65 (16%) had eight and 181 (45%) had 10 biopsy cores taken. The accuracy of the Gleason sum of the three groups was 65/158 (41%), 26/65 (40%) and 104/181 (57.5%), respectively (P < 0.004, 10-core vs six-core). However, when comparing the Gleason score separately (i.e. 4 + 3 is not equal to 3 + 4), the accuracy of the three groups was 48/158 (30%), 20/65 (31%), and 95/181 (52.5%), respectively (P < 0.001, 10-core vs six core). CONCLUSIONS: Taking more biopsy cores improves the accuracy of the biopsy Gleason score in predicting the final Gleason score at RP; the predictive accuracy of the final Gleason score may be increased from 41% to 58% by increasing the number of biopsies from six to 10.     

Prostate saturation biopsy in the reevaluation of microfocal prostate cancer

PURPOSE: We evaluated the ability of an extended, 32-core repeat transrectal ultrasound prostate biopsy protocol to improve the characterization of low volume, well differentiated disease in men with a diagnosis of potentially insignificant microfocal prostate cancer, as defined by 1 single focus positive core of 10 with less than 5 mm of Gleason score 6 or less tumor on primary biopsy. MATERIALS AND METHODS: A total of 35 consecutive patients, who were 62 to 75 years old, had a median serum prostate specific antigen of 8 ng/ml (range 0.5 to 14) and a diagnosis of minimal prostate cancer, and were willing to consider observation with delayed treatment at progression, were offered repeat saturation prostate biopsy with a median of 32 cores (range 18 to 36) under local anesthesia. This biopsy was to determine whether more extensive prostate sampling would confirm or disprove the initial diagnosis of microfocal, well differentiated prostate cancer. RESULTS: The procedure was aborted in 1 patient because of massive rectal hemorrhage. Another patient had acute prostatitis with gram-negative sepsis. Of 34 evaluable biopsy sets 11 (32%) were negative for cancer, suggesting that tumor detected at the primary biopsy was probably of low volume and amenable to observation with delayed treatment. Of the biopsies 23 (68%) were positive, 17 were at multiple sites and 7 were upgraded to Gleason score 7 or greater. These patients were then considered to have significant tumors and were offered active treatment. CONCLUSIONS: This study is to our knowledge the first to describe the clinical use of prostate saturation biopsies for re-evaluating potentially insignificant prostate cancer. Of patients with minimal disease on standard 10-core biopsy, results show that this technique may be helpful for distinguishing the 30% who probably have minimal disease based on negative repeat saturation biopsy from the 70% who almost certainly have a significant tumor, as characterized by multiple positive cores, with or without an increased Gleason score. The latter patients should be offered active therapy.     

The optimal rebiopsy prostatic scheme depends on patient clinical characteristics: results of a recursive partitioning analysis based on a 24-core systematic scheme

Background

The most beneficial number and the location of prostate biopsies remain matters of debate, especially after an initial negative biopsy.

Objective

To identify the optimal combination of sampling sites (number and location) to detect prostate cancer (PCa) in patients previously submitted to an initial negative prostatic biopsy.

Design, setting, and participants

A transrectal ultrasound-guided systematic 24-core prostate biopsy (24PBx) was performed prospectively in 340 consecutive patients after a first negative biopsy (at least 12 cores).

Measurements

We relied on a classification and regression tree analysis to identify three clinically different subgroups of patients at dissimilar risk of harboring PCa at second biopsy. Subsequently, we set the cancer-positive rate of the 24PBx at 100% and calculated PCa detection rates for 255 possible combinations of sampling sites. We selected the optimal biopsy scheme (defined as the combination of sampling sites that detected 95% of all the cancers with the minimal number of biopsy cores) for each patient subgroup.

Results and limitations

After an initial negative biopsy, cancer was detected at rebiopsy in 95 men (27.9%). At a given number of cores, the cancer detection rates varied significantly according to the different combination of sites considered. Three different PCa risk groups were identified: (1) previous report of atypical small acinar proliferation of the prostate (ASAP), (2) no previous ASAP and ratio of free prostate-specific antigen (fPSA) to total PSA (%fPSA) ≤10%, and (3) no previous ASAP and %fPSA >10%. For patients with previous ASAP or patients with no previous ASAP and %fPSA ≤10%, two schemes with different combinations of 14 cores were most favorable. The optimal sampling in patients with no previous ASAP and %fPSA >10% was a scheme with a combination of 20 cores.

Conclusions

Both the number and the location of biopsy cores taken affect cancer detection rates in a repeated biopsy setting. We developed an internally validated flowchart to identify the most advantageous set of sampling sites according to patient characteristics.     

增加穿刺活检针数提高前列腺癌分级准确性的临床研究

目的 探讨增加穿刺活检针数能否提高前列腺癌穿刺标本Gieason评分准确性.方法 接受根治性前列腺切除的前列腺癌患者86例.平均年龄63(55～72)岁.术前PSA值平均16.8(1.6～57.2)ng/ml,前列腺体积平均39.4(18.1～114.1)ml.患者术前均未接受新辅助内分泌治疗,按经直肠前列腺穿刺针数分为2组.A组46例行标准6针系统穿刺,B组40例行13针系统穿刺.统计学比较分析2组穿刺标本与根治术标本Gleason评分符合情况及影响因素. 结果 A组穿刺标本与根治术标本Gleason评分相符16例(34.8%),B组为26例(65.O%),B组评分符合率明显高于A组(P＜0.05).当穿刺标本Gleason评分≤6时,B组评分相符11例(68.8%),明显高于A组5例(25.0%),差异有统计学意义(P＜0.05).多因素Logistic回归分析结果提示前列腺穿刺活检针数及活检阳性率是影响穿刺标本与根治术标本Gieason评分符合率的主要相关因素(P＜0.05).结论 增加穿刺针数能够提高经直肠前列腺穿刺标本Gleason评分预测前列腺癌分级的准确性.     

The Effect of Prior Biopsy Scheme on Prostate Cancer Detection for Repeat Biopsy Population: Results of the 14-core Prostate Biopsy Technique

OBJECTIVES: To evaluate the diagnostic performance of 14-core repeat biopsy protocol and the impact of prior biopsy scheme on repeat prostate biopsy group. METHODS: 211 patients had repeat biopsy using 14-core protocol consisting of 10-core peripheral zone (classical sextant+4 lateral peripheral cores) and 4-core transitional zone (TZ) biopsies. The diagnostic yield was determined both in patients who had previously undergone sextant or 10-core biopsy protocol. RESULTS: Overall cancer detection rate was 25.6%. 14-core biopsy technique detected cancer in 36.1 and 18.7% of the patients who had a previous sextant biopsy and 10-core biopsy protocol, respectively (P = 0.005). Patients with and without high-grade prostatic intraepithelial neoplasia (HGPIN) in the previous sextant biopsy had 56.5 and 28.3% cancer detection rates on the subsequent extended biopsy, respectively (P = 0.017) Patients who had previous 10-core biopsy with and without HGPIN revealed 22.9 and 17.2% cancer detection rates, respectively (P = 0.465) Additional four lateral peripheral cores detected 33% (3/30) and 17% (4/24) of cancers in patients with previous sextant and 10-core biopsy, respectively. 3.7% of the patients had tumor only in the TZ and none of them had prior extended biopsy. CONCLUSIONS: The yield of extended 14-core repeat biopsy protocol was higher in patients with previous negative sextant biopsy compared to the patients with previous negative 10-core biopsy. HGPIN history found on previous sextant biopsy was a strong cancer predictor on repeat biopsy; same was not true for the patients with previous 10-core biopsy. The yield of lateral peripheral cores and TZ biopsies were lower in patients with prior negative extended biopsy.     

经会阴前列腺24针饱和穿刺活检与14针活检在PSA＜20μg/L患者中筛检前列腺癌的对比性研究

目的:探讨超声引导下经会阴前列腺24针饱和穿刺活检与14针穿刺活检方案对PSA<20μg/L可疑前列腺癌患者的筛检阳性率及其相关并发症。方法:选取116例可疑前列腺癌患者行经会阴超声引导下14针穿刺活检(14针组),另136例患者,行经会阴24针饱和前列腺穿刺活检(24针饱和组),比较两组前列腺癌筛检阳性率、标本阳性率及穿刺后肉眼血尿、泌尿系感染、尿潴留等并发症的发生率。结果:两组患者平均年龄、穿刺前PSA水平、平均前列腺体积等指标均无统计学差异(P>0.05)。24针饱和组及14针组前列腺癌筛检总体阳性率分别为48.53%和17.24%,存在显著性差异(P<0.001),标本阳性率分别为8.09%和2.83%(P=0.012);其中24针饱和组前列腺尖部肿瘤的检出率(11.76%)显著高于14针组(1.72%,P<0.05)。两组穿刺后尿潴留、泌尿系感染和肉眼血尿等发生率均无统计学差异(P>0.05)。结论:24针经会阴前列腺饱和穿刺活检方法显著提高PSA<20μg/L患者中前列腺癌的筛检阳性率,尤其是增加了前列腺尖部区域的肿瘤筛检阳性率,而并未增加相关并发症。     

Ultrasound-guided transrectal extended prostate biopsy： a prospective study

AIM: To evaluate the diagnostic value of the 10 systematic transrectal ultrasound-guided (TRUS) prostate biopsy compared with the sextant biopsy technique for patients with suspected prostate cancer. Methods: One hundred and fifty-two patients with suspected prostate cancer were included in the study. Patients were entered in the study because they presented with high levels of prostate specific antigen (PSA) (over 4 ng/mL) and/or had undergone an abnormal digital rectal examination (DRE). In addition to sextant prostate biopsy cores, four more biopsies were obtained from the lateral peripheral zone with additional cores from each suspicious area revealed by transrectal ultrasound. Sextant, lateral peripheral zone and suspicious area biopsy cores were submitted separately to the pathological department. Results: Cancer detection rates were 27.6% (42/152) and 19.7% (30/152) for the 10-core and sextant core biopsy protocols, respectively. Adding the lateral peripheral zone (PZ) to the sextant prostate biopsy showed a 28.6% (12/42) increase in the cancer detection rate in patients with positive prostate cancer (P < 0.01). The cancer detection rate in patients who presented with elevated PSA was 29.3% (34/116). When serum PSA was 4-10 ng/mL TRUS-guided biopsy detected cancer in 20.6%, while the detection rate was 32.4% and 47.0% when serum PSA was 10-20 ng/mL and above 20 ng/mL, respectively. Conclusion: The 10 systematic TRUS-guided prostate biopsy improves the detection rate of prostate cancer by 28.6% when compared with the sextant biopsy technique alone, without increase in the morbidity. We therefore recommend the 10-core biopsy protocol to be the preferred method for early detection of prostate cancer.