Prostate cancer is one of the most common cancers and the third cause of mortality in men. Transrectal ultrasound-guided prostate biopsy (TRUS Bx) is a standard tool for the diagnosis of prostate cancer. This procedure, however, may be associated with complications such as pain, hematuria, hemospermia, damage to the urethra, and urinary tract infection. Infectious complications are most important, as they can cause prostatitis and urosepsis, which can be life-threatening. The incidence of infectious complications after TRUS Bx is estimated between 1 and 7%. The figure has increased over the past ten years, however [
This study is a randomized clinical trial conducted from June 2010 to February 2013 at our institution on patients who were referred for prostate biopsy. Informed consent was obtained from all men who were enrolled in this study. Patients with evidence of urinary tract infection or tumor, urolithiasis, sexually transmitted disease, or urethral stricture were deemed ineligible. Patients who were lost to follow-up and men who did not comply with the antimicrobial regimen were excluded from data analysis. Simple random sampling was performed and using randomized block design, 450 patients who fulfilled the inclusion criteria were selected and were assigned to one of two groups of 225 each.
In the first group (control group), one ciprofloxacin 500 mg tablet was given every 12 hours together with metronidazole 500 mg orally three times daily from the day prior to the procedure until the fifth postoperative day. In the second group (intervention group), single doses of ceftriaxone 1 g by intravenous infusion and amikacin 5 mg/kg intramuscularly were administered 30–60 minutes before TRUS Bx in addition to the oral antimicrobials described for group 1.
All patients received liquids for dinner the night before the biopsy and used one bisacodyl suppository at 9 pm.
Systematic 12-core TRUS Bx was performed by a single urologist. Local anesthesia was achieved using intrarectal 2% lidocaine gel (up to 20 mL) as well as periprostatic 2% lidocaine injection bilaterally. All patients received written instructions to immediately present to our urology clinic or emergency room in case of new lower urinary tract symptoms (LUTS), fever, chills, or severe bleeding.
All patients with fever ≥38°C and one or more LUTS were considered to have an infectious complication and were hospitalized. Blood and urine cultures were performed.
At the end of the study, the two groups were compared using independent
This study included 450 patients undergoing prostate biopsy. Nine patients in the intervention group and 6 patients in the control group were excluded owing to noncompliance with follow-up, and the final analysis was carried out on 435 patients.
The mean patient age was
Median, range, and 25th and 75th percentile for age of the two groups.
In both groups the most common indication for prostate biopsy was elevated PSA (associated with either normal or abnormal DRE) in 201 and 209 patients (93.1% versus 95.4%) of control and intervention groups, respectively, and Fisher’s exact test indicated no significant difference between the two groups (
Frequency of indications for prostate biopsy in the two groups.
The mean serum PSA levels in the control and intervention groups were
The percentage of free/total PSA was available for 71 patients in the control group and 60 in the intervention group. The mean % free/total PSA in the intervention and control groups were
The mean transitional zone volume in 166 patients in the control group and 117 patients in the intervention group was
Distribution of basic and prostate variables in both groups.
Variables | Groups | |||
---|---|---|---|---|
Control | Intervention | | ||
Number | 216 | 219 | — | |
Age (year) | | | 0.56 | |
Indication for biopsy | Elevated PSA ± abnormal DRE | 201 (93.1) | 209 (95.4) | 0.94 |
Abnormal DRE + normal PSA | 4 (1.9) | 1 (0.5) | ||
History of prostate cancer | 8 (3.7) | 7 (3.1) | ||
History of ASAP or PIN | 3 (1.3) | 2 (0.9) | ||
PSA (ng/ml) | | | 0.11 | |
% fPSA/total PSA (N) | | | 0.35 | |
Transition zone volume (N) | | | 0.59 | |
Total prostatic volume (cc) | | | 0.39 |
Of the 435 patients who underwent transrectal biopsy, 12 patients (2.8%) were hospitalized due to infection, 10 of whom (4.6%) were from the control group and 2 patients (0.9%) from the intervention group, with the difference being statistically significant (
Of the 12 patients hospitalized with the diagnosis of infection, urine culture results were positive in 5 patients, 3 of whom were from the control group and 2 from the intervention group (30% versus 100%) but this difference was not statistically significant (
Frequency distribution of the infection and the related symptoms of the two groups shown separately.
Variables | Groups | |||
---|---|---|---|---|
Control | Intervention | | ||
Infection | Yes | 10 (4.6) | 2 (0.9) | 0.017 |
No | 206 (95.4) | 217 (99.1) | ||
Time of biopsy-hospitalization | | | 0.26 | |
Hospitalization time (day) | | | 0.45 | |
Urine culture | Negative | 7 (70) | 0 (0) | 0.15 |
Positive | 3 (30) | 2 (100) | ||
Blood culture | Negative | 7 (70) | 1 (50) | 0.99 |
Positive | 3 (30) | 1 (50) |
Characteristics of patients with infection after biopsy in control and intervention groups.
Groups | Patient | Age | Time biopsy- hosp. | Hosp. time | U/C | B/c |
---|---|---|---|---|---|---|
Control | 1 | 65 | 14 | 2 | Negative | Negative |
2 | 63 | 11 | 5 | Negative | Negative | |
3 | 60 | 3 | 5 | Negative | Negative | |
4 | 67 | 1 | 3 | Positive | Negative | |
5 | 74 | 6 | 3 | Negative | Negative | |
6 | 70 | 3 | 4 | Positive | Negative | |
7 | 48 | 8 | 5 | Negative | Positive | |
8 | 65 | 1 | 6 | Negative | Negative | |
9 | 60 | 4 | 4 | Positive | Positive | |
10 | 70 | 5 | 8 | Negative | Positive | |
| ||||||
Intervention | 11 | 78 | 12 | 4 | Positive | Negative |
12 | 72 | 7 | 3 | Positive | Positive |
Infection following TRUS Bx is one of the most common and significant complications in patients undergoing prostate biopsy and can entail hospitalization and additional cost. In fact most postbiopsy hospitalizations result from infectious causes. Antimicrobial prophylaxis is recommended for all patients undergoing prostate biopsy, irrespective of risk factors. Several prophylaxis protocols have been suggested in order to reduce the incidence of infectious complications but none has demonstrated unequivocal superiority.
A 2011 Cochrane review on prophylaxis for TRUS prostate biopsy demonstrated that antibiotics reduced bacteriuria, bacteremia, fever, urinary tract infection (UTI), and hospitalization compared to placebo or no treatment [
The frequency of complications following TRUS Bx has been recently noted to be increasing. Carignan et al. attributed the increasing incidence of post-TRUS Bx infections in their center to ciprofloxacin resistance [
The use of fluoroquinolones in the previous 6 months before biopsy was found by Steensels et al. to be a risk factor for faecal carriage of fluoroquinolone-resistant
Adibi et al. observed an increase in hospital admissions related to infection after transrectal ultrasound-guided biopsy which led them to initiate an augmented regimen of one dose of intramuscular gentamicin before biopsy in addition to 3 days of ciprofloxacin or Bactrim DS [
In Taylor et al.’s study, targeted prophylaxis using rectal swab cultures to identify fluoroquinolone-resistant bacteria was compared with standard empirical ciprofloxacin prophylaxis [
Kehinde et al. noted a steady increase in the incidence of septicemia after prostate biopsy in their unit when only oral ciprofloxacin was used prophylactically [
In Hsieh et al.’s retrospective study, the addition of a single intramuscular gentamicin injection (80 mg) 30 minutes before the biopsy to an oral levofloxacin protocol reduced the infection-related complications from 6.2% to 0.74% [
The results of this study showed that the addition of parenteral antibiotics could lead to a significant reduction of infectious complications compared to oral antibiotic use. This is, as noted above, probably due to increasing resistance to fluoroquinolones.
Parenteral antimicrobial administration provides broad-spectrum antimicrobial activity as well as higher drug bioavailability, which in turn can lower the incidence of post-TRUS Bx infectious complications. It should be noted that antimicrobial agents vary in their prostate-permeability characteristics. Ciprofloxacin and amikacin, which were used in this study, are able to penetrate the fatty membrane, whereas cephalosporins are not.
Our results showed that intervention and control groups were not significantly different in terms of age, indication for biopsy, and PSA levels. Confounding factors are, therefore, most unlikely to have affected the incidence of infectious complications. Multivariate analysis of the data showed that the incidence of infection after prostate biopsy in patients receiving parenteral ceftriaxone and amikacin in addition to oral antibiotic prophylaxis was significantly lower than that in the group treated with oral antibiotics.
Our study has several important limitations. Over-the-counter availability of some antimicrobials in our country is clearly associated with the spectrum of multiresistant germs present and may affect the generalizability of our work. Although all patients received written instructions to immediately refer to our urology clinic or emergency room in case of new lower urinary tract symptoms (LUTS), fever, chills, or severe bleeding, there may have been instances of infectious complications where patients might have received treatment elsewhere. We may have thus underestimated the true incidence of postbiopsy infectious complications. In addition, the routine use of our proposed prophylactic regimen may lead to the selection of resistant strains, further complicating the treatment of postbiopsy infections. Also, we are unable to account for comorbidities (especially diabetes) in our cohort, since this is an important cofactor for developing prostatitis following biopsy. Finally, the patients have to incur the additional expense of parenteral antimicrobials. Further studies focusing on cost-benefit analysis are thus warranted.
The addition of single doses of intramuscular amikacin and intravenously infused ceftriaxone to our prophylactic regimen of ciprofloxacin and metronidazole resulted in a statistically significant reduction of infectious complications following TRUS Bx.
All procedures performed in studies involving human participants were in accordance with the ethical standards of the institutional and/or national research committee and with the 1964 Helsinki declaration and its later amendments or comparable ethical standards.
Informed consent was obtained from all individual participants included in the study.
All authors declare that they have no conflict of interests.