Active Surveillance Articles

To explore the role of whole-lesion apparent diffusion coefficient (ADC) analysis for predicting outcomes in prostate cancer patients on active surveillance.

This study included 72 prostate cancer patients who underwent MRI-ultrasound fusion-targeted biopsy at the initiation of active surveillance, had a visible MRI lesion in the region of tumor on biopsy, and underwent 3T baseline and follow-up MRI examinations separated by at least one year.

We present an overview of the literature regarding the use of MRI in active surveillance of prostate cancer.

Both MEDLINE® and Cochrane Library were queried up to May 2020 for studies of men on active surveillance with MRI and later confirmatory biopsy.

A systematic repeat biopsy is recommended for men starting on active surveillance for prostate cancer, but the optimal number and distribution of cores are unknown.

To evaluate an extensive repeat transrectal biopsy with anterior sampling in men starting on active surveillance.

During active surveillance (AS) for localized prostate cancer (PCa), first surveillance biopsy timing varies. We analyzed the Canary Prostate Cancer Active Surveillance Study (PASS), to determine biopsy timing influence on rates of PCa adverse reclassification at first AS biopsy.

Prostate cancer (PCa) management is moving towards patient-tailored strategies. Advances in molecular and genetic profiling of tumor tissues, integrated with clinical risk assessments, provide deeper insights into disease aggressiveness.

Selection of the appropriate treatment requires assessment of the tumor's potential aggressiveness and the general health, life expectancy, and quality of life preferences of the patient. The treatment outcomes in patients may be influenced by the malignant potential of the tumors as well as by the treatment used. 

Conservative Treatment: 

Watchful Waiting refers to monitoring the patient until he develops metastases that require palliative treatment.  

• Watchful waiting has been reserved for men with a life expectancy of less than 10 years and a low-grade (Gleason score 2 to 5) prostate cancer.

Active surveillance allows delayed primary treatment if there is biochemical or histologic evidence of cancer progression. 

• Active surveillance is being evaluated as a management strategy in younger patients with low-volume, low- or intermediate-grade (up to Gleason score 3 + 4 = 7) tumors to avoid or to delay treatment that might not be immediately necessary.
• Monitoring of the patient for progression for either watchful waiting or active surveillance patients are usually observed with semiannual PSA determinations, DRE, and annual biopsies.  
• Intervention is recommended if Gleason pattern 4 or 5 is present, more than two biopsy cores are involved, or more than 50% of a biopsy core is involved. 
• Progression is more likely in patients who have cancer present on every biopsy procedure. 
• The absence of cancer on repeated biopsy significantly decreases the likelihood of progression. 
• Biopsy criteria used in active surveillance have been reported to be more accurate than PSA criteria in predicting progression. 
• No study has found DRE or imaging studies to independently predict progression.
• In most studies of active surveillance, approximately 25% to 50% of patients, depending on their individual risk factors, develop objective evidence of tumor progression within 5 years.  
• Presently, no tumor marker can identify indolent tumors with certainty.
• Additional clinical and laboratory research are needed to define the parameters for safe use of active surveillance in younger men, including the appropriate selection criteria, follow-up procedures, and trigger points for intervention.
• All prostate cancer patients are at risk for progression.
• If the PSA level is rising, the DRE suggests tumor growth, or surveillance biopsy specimens show evidence of increased involvement by cancer, treatment should be instituted.
•  Patients may change their minds about remaining on an active surveillance protocol; therefore the physician should review management options on follow-up visits.
• In discussing treatment for prostate cancer, it is important to consider patient factors such as age and general performance status as well as tumor factors such as Gleason score, initial serum PSA, and estimated clinical volumes/stage of the tumor. 
• If a patient has less than a 50 percent chance of surviving 10 years, it is difficult to measure the positive effect of treatment. 
• The side effects of different therapies also have to be considered. It is optimal when patients come to a treatment decision based on consultation and input from both surgical and radiation oncology services.

The current treatment paradigm

• Multiple guidelines endorse active surveillance for low-risk prostate cancer, but concerns regarding biopsy under-sampling and under-staging have limited its acceptance.

• Today, more than 90 percent of these low risk patients undergo immediate treatment such as radical prostatectomy or radiation, despite less than a 3% chance of low risk disease progressing 

Genomic Prostate Score (GPS)

• The Oncotype DX prostate cancer test (Genomic Prostate Score) is a biopsy-based genomic test that, when combined with other measures, can be used to predict the aggressiveness of prostate cancer
• The GPS test is a standardized, validated biopsy-based test that measures the level of expression of multiple genes across multiple pathways that predict aggressive prostate cancer

more on genomics: 

Radical or complete prostatectomy

• This is the treatment choice for patients with organ-confined disease and a life expectancy of more than 10 years. Generally, age 70 is used as a relative cutoff for strongly recommending surgery and 75 years of age is certainly the upper accepted end of the age limit. 
• The patient goals are the cure of his cancer (survival), the preservation of his potency, and to remain continent.  Patients want all three outcomes. 
• The indications for LRP and RALP are identical to that for open surgery (patients with ≤ clinical stage T2 with no evidence of metastasis either clinically or radiographically.
• The radical perineal prostatectomy is associated with reduced blood loss as the dorsal venous complex is not divided. It may be the preferred approach in very obese men or in those with a history of abdominal or pelvic surgery where significant retropubic scarring and fibrosis are suspected.
• The disadvantages are that it does not provide access for a pelvic lymph node dissection, there is a higher rate of rectal injury, and there is occasional postoperative fecal incontinence that does not occur commonly with other approaches.
• It is more difficult to spare the cavernous nerves through the perineal approach.The open retropubic approach is preferred by many urologists because of their familiarity with the surgical anatomy, the lower risk for rectal injury and postoperative fecal incontinence, the wide exposure and ready access provided for pelvic lymphadenectomy and prostate excision with preservation of the neurovascular bundles, and the lower risk for positive surgical margins.
• Significant urinary incontinence may be encountered in up to 4 to 8 percent of patients, and bladder neck contractures can occur in 2 to 6 percent of patients. 
• Surgical mortality is less than 0.2 percent but 1 to 2 percent of patients may develop pulmonary emboli. 
• When laparoscopic prostatectomy (LRP) is performed by a skilled laparoscopic surgeon, reported incontinence and anastomotic stricture rates are comparable to those achieved with open surgery. 

• It has been claimed that nerve sparing is equivalent or even better with laparoscopic surgery, but direct comparisons and validated results are lacking. 
• The early reported rates of positive surgical margins have been higher with laparoscopic prostatectomy, and the adequacy of cancer control is as yet uncertain because of lack of long-term results.
• Remotely controlled laparoscopic surgery or the robot-assisted laparoscopic prostatectomy has becoome popularized because of its greater technical ease for the surgeon, especially for tying sutures and performing the vesicourethral anastomosis.
• The availability of three-dimensional visualization is an advantage over standard laparoscopic techniques.
• Early reported results are favorable, but have not been validated.
• It is also more difficult to perform a lymph node dissection with laparoscopic approaches.
• Pelvic lymphadenectomy is optional in patients at low risk for lymph node metastases.

Postoperative patient care

• Patients should ambulate with assistance beginning on the afternoon or evening of surgery.

• The catheter may be removed 3 to 21 days after surgery, depending on the integrity and the amount of tension on the vesicourethral anastomosis. The more days the catheter is in place the greater the risk of urinarty tract infection (CaUTI).  Removal of the catheter before 7 days is associated with a 15% to 20% risk of urinary retention - View Protocol.  View all CaUTI resources at www.cautichallenge.com

• After the catheter has been removed, Kegel exercises should be initiated. A protective pad is used until complete urinary control is achieved. The postoperative serum PSA level should be undetectable by 1 month after the operation. 
• The return of urinary continence is associated with the patient's age: approximately 95% of men younger than 60 years can attain pad-free urinary continence after surgery; 85% of men older than 70 years regain continence. Few require implantation of an artificial urinary sphincter or a sling procedure for stress urinary incontinence.
• The return of erectile function after radical retropubic prostatectomy correlates with the age of the patient, preoperative potency status and the extent of nerve-sparing surgery.
• In candidates in whom preoperative potency is normal and bilateral nerve-sparing surgery can be performed, up to 95% in their 40s, 85% in their 50s, 75% in their 60s, and 50% in their 70s can attain recovery of erections sufficient for penetration and intercourse. In most instances, erections are not as good as they were preoperatively.
• In patients, erections usually begin to return as partial erections 3 to 6 months after surgery and may continue to improve for up to 3 years or more.  

External beam radiation therapy

• This is an option for localized prostate cancer and is the treatment of choice for T3 disease. 
• There is evidence from prospective, randomized trials that dose escalation and three-dimensional definition improve results considerably.
• External beam radiotherapy involves the use of beams of gamma radiation, usually photons, directed at the prostate and surrounding tissues through multiple fields.
• The most sophisticated form of 3D-CRT, called intensity-modulated radiation therapy (IMRT), can provide localization of the radiation dose to geometrically complex fields.
• Heavy-particle therapy is another form of 3D-CRT in which the radiation beam can be virtually “stopped” within the tissue, allowing high doses of radiation to be delivered to a localized region. 
• Proton beam therapy is more expensive than other forms of 3D-CRT, and limited long-term results have been reported.
• Currently, doses of 76 to 80 Gy or more have been shown to improve cancer control.
• Low-risk patients are now frequently treated with 70 to 72 Gy, intermediate-risk patients with 75 to 76 Gy, and high-risk patients with 80 Gy or more. Doses above 75 Gy are now considered to be indicated; however, doses above 80 Gy have not been demonstrated to be beneficial.
• In general, it is administered in divided doses ranging from 70 to 80 Gy and is well tolerated. 
• Approximately 3 to 5 percent of patients will experience persistent rectal or bladder symptomatology and greater than 50 percent of patients develop erectile dysfunction within 2 years. Hematuria or hemorrhagic cystitis is a late development in a small percentage of patients. Techniques of conformal therapy have reduced unwanted radiation to the bladder and rectum.
• CT imaging is considered the standard imaging modality for 3D-CRT and 3D-IMRT, but CT is less precise than MRI.
• A prior transurethral resection of the prostate is a relative contraindication to brachytherapy and external beam radiation therapy because the prostate does not hold the seeds well, and radiation after transurethral resection of the prostate is associated with an increased risk for urethral stricture. 
• The presence of severe obstructive urinary symptoms is also a relative contraindication because of the risk for acute urinary retention, which is an even greater risk in patients treated with brachytherapy. 
• Another relative contraindication is inflammatory bowel disease.
• Approximately half of patients develop erectile dysfunction after radiotherapy for prostate cancer. This is caused by injury to the vasculature of the cavernous nerves and to the corpora cavernosa of the penis, usually beginning about 1 year after the completion of treatment. 
• Younger patients with good baseline erectile function are more likely to retain adequate erections. PDE-5 inhibitors are useful in ameliorating the erectile dysfunction associated with radiotherapy. Lower doses of radiation to the penile bulb have been investigated as a means of minimizing radiation-induced erectile dysfunction. The use of adjuvant hormone therapy also adversely affects erectile function.
• Evaluation of the outcomes of radiotherapy is challenging because cancer cells are not killed immediately after exposure to ionizing radiation. Rather, they sustain lethal DNA damage but do not die until their next attempt to enter into cell division. The PSA level gradually decreases for up to 2 to 3 years after the completion of radiotherapy. 
• The PSA level is usually monitored at 6-month intervals until it reaches a nadir. In patients treated with external beam radiotherapy, the prostate gland is not completely ablated, and the remaining prostate epithelium continues to produce PSA.
• In high-risk patients, external beam radiotherapy has also been combined with brachytherapy. The brachytherapy is usually given first, so that the external beam therapy can be discontinued if the patient begins to experience toxicity.

Brachytherapy

• Radioactive sources (seeds or needles) are implanted directly into the prostate gland, and sometimes into the surrounding tissues, to deliver a high dose of radiation to the tumor while sparing, to the extent possible, the bladder and the rectum.
• The most commonly used permanent implants are iodine-125 or palladium-103 seeds.
• Ultrasound-guided transperineal brachytherapy has become an accepted modality for the treatment of localized prostate cancer using 1251 or 103 Pd radiation sources. The radiation doses delivered to the prostate are approximately 145 Gy for iodine and 125 Gy for palladium.  
• Optimal candidates have a serum PSA of less than 10 ng/mL, and a Gleason score of 6 or lower. Many centers utilize short-term neoadjuvant hormonal blockade given the difficulty in treating prostate glands larger than 50 g. Conversely, glands smaller than 20 g are difficult to implant. 
• Urinary retention occurs in up to 22% of patients.
• Short-term complications include urinary retention, urethritis, and irritative voiding symptoms, especially in patients with a history of lower urinary tract obstructive symptoms. Long-term major complications include stricture or contracture development and proctitis. Incontinence is uncommon but averages 20 percent in men with a history of transurethral resection of the prostate. 

Stereotactic Radiotherapy (“Cyberknife”)

• More data is needed to include in this section 

Adjuvant Radiotherapy after Radical Prostatectomy

• Retrospective cohort studies have shown that postoperative radiotherapy reduces recurrence rates in patients with pathologic stage T3 disease and positive margins. 
• A trial of adjuvant radiation after radical prostatectomy of men with stage pT3 prostate cancer or positive margins revealed that adjuvant radiation reduced the recurrence rate and that positive margins were the strongest predictor of benefit.  
• Side effects of adjuvant radiotherapy also include a 5% to 10% risk of radiation proctitis and a 50% probability that return of erectile function will be materially compromised.
• It is impossible to compare the results of surgery with those of radiotherapy because of the difference in the end points used for treatment failure, that is, undetectable PSA for surgery versus the ASTRO or Phoenix criteria for radiotherapy.

Primary Hormone Therapy

• Primary androgen-deprivation therapy may be appropriate for older men, those with significant medical comorbidities precluding the use of curative therapy, and those who do not wish to undergo curative therapy.
• Cardiovascular evaluation is recommended prior to treatment of men at risk for cardiovascular complications.
• Hormone therapy is never curative; nevertheless, many patients experience long-term remissions. Luteinizing hormone–releasing hormone analogs are commonly used. 
• Antiandrogens produce less sexual dysfunction and osteoporosis but have a greater risk for adverse cardiovascular complications.

Cryosurgery

• Current technology uses argon gas circulating through hollow needles to freeze the prostate and helium gas to warm the urethra. 
• Cryoablation has been used as primary treatment for salvage after radical prostatectomy or radiotherapy. 
• A prior transurethral resection of the prostate is considered a relative contraindication to cryoablation.
• An undetectable PSA level is seldom attainable after cryoablation.Pelvic pain persists.
• Complications associated with salvage cryoablation were much more frequent than for primary treatment.
• Complications of salvage cryotherapy included 4.4% incontinence, 1.2% rectal fistula, and 3.2% requiring a transurethral resection of the prostate for obstruction.

High-Intensity Focused Ultrasound (HIFU)

• Transrectally applied high-intensity focused ultrasound (HIFU) can elevate the tissue temperature of the prostate up to 100° C.
• Treatment is performed under general or spinal anesthesia and takes 1 to 4 hours, depending on the prostate volume, which should not exceed 40 cc.
• Most patients require a urethral or suprapubic catheter for several days.
• The procedure is usually well tolerated; the most common side effect is acute urinary retention, occurring in about 20% of patients. 
• Other potential complications are urinary fistula, incontinence, urethral stricture, and perineal pain. 
• Erectile dysfunction has been reported in 27% to 61%.
• Clinical trials are continuing in the USA and other countries.  

References 

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Maintaining men on active surveillance for prostate cancer can be challenging. Although most men who eventually undergo treatment have experienced clinical progression, a smaller subset elects treatment in the absence of disease reclassification.

OBJECTIVE - To report on a cohort of patients with incidental prostate cancer (IPC) that was treated by an active surveillance (AS) protocol in the HAROW study.

Treatment modalities for small renal masses (SRMs) include open or minimally invasive radical or partial nephrectomy, and laparoscopic or percutaneous ablations. Members of the Endourological Society were surveyed to evaluate how practitioner and clinical practice characteristics may be associated with the management of SRMs over time.

Contemporary clinical guidelines recommend use of active surveillance (AS) in men with low-risk prostate cancer. Low-risk disease spans any potential volume of Gleason score 6 cancer without sufficient attention to tumor volume in the past.

Active surveillance (AS) is the reference standard treatment for the management of low risk prostate cancer (PCa). Accurate assessment of tumor aggressiveness guides recruitment to AS programs to avoid conservative treatment of intermediate and higher risk patients.

Most prostate cancer (PC) active surveillance (AS) protocols recommend "Per Protocol" surveillance biopsy (PPSBx) every 1-3 years, even if clinical and imaging parameters remained stable. Herein, we compared the incidence of upgrading on biopsies that met criteria for "For Cause" surveillance biopsy (FCSBx) versus PPSBx.

Certain patients with intermediate-risk prostate cancer (PCa) may be appropriate candidates for active surveillance (AS). In the current study, the authors sought to characterize AS use and early mortality outcomes for patients with intermediate-risk PCa in the United States.

To study the impact of genomic testing in shared decision making for men with clinically low risk prostate cancer (PCa).

Patients with clinically low-risk PCa were enrolled in a prospective, multi-institutional study of a validated 17-gene tissue-based RT-PCR assay (Genomic Prostate Score™; GPS).

A number of patients who elect active surveillance of their small renal masses (≤4 cm) subsequently pursue delayed intervention (DI). The indications, timing, and rates of DI have not been well determined prospectively.

INTRODUCTION - In an effort to limit prostate cancer (PCa) overdiagnosis and overtreatment, which have occurred in response to widespread prostate specific antigen testing, numerous strategies aimed at improved risk stratification of patients with PCa have evolved.

To review the role of multi-parametric magnetic resonance imaging (mpMRI) for active surveillance of prostate cancer.

We performed a comprehensive search of Medline and Embase databases for relevant articles.

To determine the rate of Gleason Grade Group (GG) upgrading in AA men with a prior diagnosis of low-grade PCa (GG 1 or GG 2) on 12-core systematic biopsy (SB) after multiparametric magnetic resonance imaging (mpMRI) and fusion biopsy (FB); and whether AA men who continued active surveillance (AS) after mpMRI and FB fared differently than a predominantly Caucasian (non-AA) population.

The global uptake of prostate cancer (PCa) active surveillance (AS) is steadily increasing. While prostate-specific antigen density (PSAD) is an important baseline predictor of PCa progression on AS, there is a scarcity of recommendations on its use in follow-up.

To test whether using disease prognosis can inform a rational approach to Active Surveillance (AS) for early prostate cancer METHODS: We previously developed the Cambridge Prognostics Groups (CPG), a 5-tiered model that uses PSA, Grade Group and stage to predict cancer survival outcomes.

To assess the accuracy and utility of routine multiparametric MRI (mp-MRI) and transperineal template-guided prostate biopsy (TPB) following enrolment on to active surveillance.

From April 2012 to December 2016 consecutive men from our single institution diagnosed with low or intermediate risk prostate cancer on TRUS biopsy were offered further staging with early mp-MRI and TPB within 12 months of diagnosis.

We investigated the utility of multiparametric magnetic resonance imaging (mpMRI) using Prostate Imaging Reporting and Data System, version 2 (PI-RADSv2), scoring in patients with prostate cancer eligible for active surveillance (AS).

To assess if the adoption of multiparametric magnetic resonance imaging (mpMRI) in active surveillance (AS) has improved the identification of occult higher grade prostate cancer (PCa).

We retrospectively identified men from the Johns Hopkins AS registry enrolled since 2013 (year of mpMRI adoption) with Grade Group (GG) 1 PCa and underwent a single mpMRI.

Optimal management of clinical stage I (CSI) testicular cancer is controversial due to lack of robust prognostic factors; miRNA-371a-3p holds promise as a biomarker, although its clinical utility for identifying patients at risk of relapse is unknown.

To analyze the utilization of Active Surveillance (AS) and Watchful Waiting (WW) in the daily routine setting, since both are non-invasive treatment options for localized prostate cancer (PCa), which are used in a curative (AS) or palliative (WW) setting.

To evaluate trends and factors predicting use of renal mass biopsy (RMB) for localized Renal Cell Carcinoma in the United States (US) in the context of current guidelines recommendations.

We queried the National Cancer Database for cT1-cT3N0M0 Renal Cell Carcinoma diagnosed between 2004 and 2015.

The objective of the study is to identify the rate of significant prostate cancer (PCa) detection in PI-RADS3 lesions in AA patients stratified by PSAD threshold of < 0.15 vs. ≥ 0.

To validate a previously proposed prognostic metric, Total Cancer Location (TCLo) density, in a contemporary cohort of men with grade group (GG) 1 prostate cancer (PCa) on active surveillance (AS).

We evaluated 123 patients who entered AS with maximum GG1 PCa at diagnostic and/or confirmatory biopsy.

To validate the ability of contemporary active surveillance protocols to predict pathologically insignificant prostate cancer among Asian men undergoing radical prostatectomy.

We retrospectively reviewed data on 132 patients eligible for any active surveillance criteria out of 450 patients that underwent radical prostatectomy at several institutions between 2006 and 2013.

We examined the frequency of follow-up prostate-specific antigen (PSA) testing and prostate biopsy among men managed with active surveillance (AS) in academic and community urology practices comprising the Michigan Urological Surgery Improvement Collaborative (MUSIC).

Substantial geographic variation in healthcare practices exist. Active surveillance (AS) has emerged as a critical tool in the management of men with low-risk prostate cancer. Whether there have been regional differences in adoption is largely unknown.

To describe fluctuations in PSA levels in men managed with AS to determine if a single PSA increase is a consistent measure to trigger intervention.

We evaluated data on 541 men on AS from 1995 through 2011.

Living with untreated prostate cancer (PCa) may cause anxiety and uncertainty in men undergoing active surveillance (AS). Developing a psychosocial support program for such patients might promote psychosocial well-being and patient engagement.

Despite widespread adoption of active surveillance (AS) for low-risk prostate cancer, less is known about how or when monitoring should be deintensified. We performed a narrative review of the available evidence and guidelines addressing transitions from active to passive monitoring, including watchful waiting.

A significant proportion of screen-detected men with prostate cancer may be overdiagnosed. Active Surveillance (AS) has emerged as a way to mitigate this problem, by delaying treatment of men, who are at low-risk until this becomes necessary.

Objective: Being able to work is important for health-related quality of life (HRQoL), and little is known about work life after radical treatment for prostate cancer (PCa). The aim was to investigate work status (WS) and work ability (WA) after radical prostatectomy (RP) or active surveillance (AS) for PCa, and to identify factors associated with reduced WA.

To test the hypothesis that patients under active surveillance (AS) for Non-muscle Invasive Bladder Cancer (NMIBC) who were negative on longitudinal re-testing by the Xpert® Bladder Cancer Monitor (Xpert BC Monitor) assay may avoid unnecessary cystoscopies and urine cytology (UC).

Active surveillance (AS) has become a popular option for patients with low risk prostate cancer. Our objective was to examine the correlation between age and the risk of Gleason upgrading and biopsy progression.

To assess a region-of-interest-based computer-assisted diagnosis system (CAD) in characterizing aggressive prostate cancer on magnetic resonance imaging (MRI) from patients under active surveillance (AS).