Targeting the cancer lesion, not the whole prostate.

Modern cancer treatment aims to conserve as much healthy tissue as possible. This has been challenging in the treatment of prostate cancer due to the difficulty in imaging the gland and concerns over leaving multifocal cancer untreated. With improvements in imaging and understanding of multifocal prostate cancer evidence now shows accurate treatment of just the primary focus of cancer or the index lesion can control progression or recurrence of the disease. Many different energy sources are now available to target the cancer lesion within the prostate with less significant side-effects on urinary and sexual function compared to radical treatment. Evidence shows that men value these functions highly and would even trade years of life in exchange for preserved retention of continence or erectile function. Focal treatment of prostate cancer aims to provide both cancer control and preservation of sexual and urinary functions so that men do not have to make a choice between the two. This is a treatment option that men clearly want and deserve. 2020 Translational Andrology and Urology. All rights reserved.

Introduction

Cancer treatment once sought larger and larger tumour resections in an effort to clear the tumour and prevent recurrences. Famously Halsted pioneered a radical mastectomy in the 19th century which involved removing the whole breast along with underlying muscles pectoralis major and minor along with the lymph nodes. This left patients with little arm movement, large granulating wounds and chronic pain. Today, minimal breast tissue resection is coupled with adjuvant treatment resulting in the same cancer control but significantly fewer side-effects. Treatment of prostate cancer has followed a similar path, as radical treatment compromises lifestyle severely by producing incontinence and erectile dysfunction. This has resulted in developments in focal therapies which seek to safely treat the cancer without compromising functional outcomes.

The index lesion

Prostate cancer is multi-focal in the majority of cases and therefore traditional treatment has focused on treating the whole gland, to avoid sparing any cancer cells (1). Within one gland both low grade and high grade or significant cancer may exist (2,3). The “project to eliminate lethal prostate cancer” (PELICAN) study showed that in patients with multiple metastases these were almost always monoclonal and had therefore originated from one cell of prostate cancer in a primary tumour (4). Further evidence has indicated that usually the aggressive clone originates from one lesion, known as the index lesion, such that if left untreated it can lead to a lethal metastatic state (2). The secondary low-grade lesions are rarely lethal or likely to metastasize and may not require active treatment (5,6). Multifocal disease is present in many other cancers, such as renal, thyroid, lung, breast and liver, in which tissue-preserving therapy is now standard (7).

Pathology studies have shown that, once the main or index lesion has been identified, it is usually accompanied by a low grade or non-significant lesion (8). When template-mapping biopsies of the prostate were performed, 46–59% of patients had one significant or index lesion and only 10–14% had more than one significant lesion (9). The 10% of cases where more than one clinically significant lesion is present should be carefully identified and offered appropriate radical treatment if possible.

The incidence of unifocal cancers in radical prostatectomy specimens is in the region of 13–38% (10). If prostate cancer is noted to be unilateral in approximately one third of men who have surgery, treating half the gland with hemi-ablation may provide suitable treatment of this population’s prostate cancer (11). Improvements in diagnosis and targeted treatment mean that the part of the prostate containing the index cancer lesions can often be treated alone (12).

Gleason grading, tumour volume and insignificant lesions

In recent years the significance of Gleason grade 3 disease has been under debate, with a growing consensus that its classification might be downgraded from cancer to a benign entity (13). This would reflect the downgrading of Gleason 1 and 2 from the original scoring system, described by Donald Gleason in 1966. Gleason 1 and 2 originally were described as well-differentiated tumour cells and were included in the original scoring system as cancer. Future work showed that there was no malignant risk from either grade and therefore they are no longer used in the current Gleason scoring system (14,15). Removing the term “cancer” removed an unnecessary burden on both the patient and the clinician. As the evidence grows that Gleason 3 has a similar low malignant potential then it could shortly follow suit.

If true Gleason 3 prostate cancer does not actually demonstrate any of the traditional hallmarks of cancer removing the label may have significant impact. The word “cancer” understandably causes anxiety to patients, as does their expectation of the burden of treatment. The example set by the renaming of ‘grade one superficial bladder cancer’ as ‘papillary urothelial neoplasm of low malignancy potential’ (PUNLUMP) has already shown benefit to the bladder cancer treatment pathway and suggests that Gleason 3 prostate cancer might also helpfully be renamed (15,16). One suggestion from Esserman and colleagues involves removing the term cancer for “indolent lesions of epithelial origin” (IDLE) instead (17).

The Prostate Cancer Intervention Versus Observation (PIVOT) trial first demonstrated that radical treatment of pure pattern 3 did not carry a survival benefit, demonstrated now at 20 years follow-up (18,19). Other studies have shown that only 1.4 men out of 1,000 with untreated Gleason 3+3 disease would die from their disease within 30 years. However some suggest that Gleason 6 disease does not metastasize and therefore it has been argued that the Gleason 6 disease is not significant in the prostate cancer outcomes of the patient (15). Diagnosis of prostate cancer in the past has suffered inaccuracy and it is possible that some more aggressive cancer may have been missed causing understaging at initial diagnosis.

In the ProtecT trial a small number of men with Gleason 6 prostate cancers, diagnosed using sextant systematic biopsies, metastasis and prostate-cancer related deaths were observed. There is debate as to whether, in those patients, the disease was true Gleason 6, as it was identified by TRUS biopsy without MRI or targeted biopsies. We now know this diagnostic pathway has a higher likelihood of missing some pattern 4, or even higher grade cancer, resulting in understaging of these tumours (20). These results are not borne out by other trials discussed regarding Gleason 3 disease.

The SPCG-4 study randomised men with localised prostate cancer to radical prostatectomy or to watchful waiting. Now, at 29 years follow-up, findings showed men with Gleason score of 6 had a similar low risk of death from prostate cancer to men with a Gleason score of 3+4 (relative risk, 0.99; 95% CI, 0.23 to 4.33), but the risk with a Gleason score of 4+3 was 5 times as high (relative risk, 5.73; 95% CI, 1.59 to 20.67) (21). Therefore some studies also argue that a small amount of pattern 4 disease along with that graded Gleason 3 is clinically insignificant, as it does not tend to metastasize or cause mortality.

Modern Gleason 3 disease is likely to be even less malignant than when these long term trials started following an adjustment in 2005, when the International Society of Urological Pathology (ISUP) adjusted the diagnostic criteria for Gleason 3 and 4 disease, so that more aggressive appearances were upgraded from Gleason 3 to 4 (22). Therefore, following this change, “Gleason 3+3” disease has had an even better outcome than previous research would have suggested; this is known as the “Will Rogers” phenomenon (23).

Therefore the evidence suggests pure pattern 3 does not carry the risk of metastasis or progression as is the case with other cancers (24); there is no clinical risk to patients. In which case overdiagnosis and overtreatment may be causing excessive cost and psychological distress to patients (15).

Improvement in prostate cancer diagnostics and disease characterisation

Prostate cancer diagnosis has undergone a revolution, as have the accepted paradigms in other areas of medicine, by adding MRI imaging prior to invasive biopsies. Although mpMRI is not a perfect detection tool, it can have sensitivity up to 93% in identifying clinically significant lesions, compared to the 48% sensitivity of TRUS biopsy alone, as shown in the PROMIS study. Allowing the authors to conclude that mpMRI triage might allow 27% of patients to avoid a primary biopsy (25). The PRECISION study has since shown the advantages of mpMRI-guided biopsies in identifying clinically significant cancer, as opposed to insignificant cancer. The MRI with targeted biopsy arm detected 38% of significant and 9% of insignificant cancers, compared to the standard of care (12-core TRUS random systematic biopsy), which detected 26% of clinically significant cancer and 22% of insignificant. Clinically significant cancer was defined as the presence of a single biopsy core indicating disease of Gleason score 3+4 or greater (26).

The latest Cochrane review of prostate cancer detection compares the two pathways: MRI to determine biopsy or “MRI pathway” and the traditional upfront TRUS biopsy pathway or “systematic biopsy”. The results show the MRI pathway to be superior as it is 12% more likely to make the correct diagnosis. Most benefit is seen in men who have had a negative biopsy, where the MRI pathway is 44% more likely to make the correct diagnosis. The authors note that the MRI pathway can still miss some clinically significant prostate cancer. Follow-up should be arranged to particularly monitor those with risk factors, such as family history, race or palpable nodules (27).

Focal therapy

Despite the best developments of robotic surgery and targeted radiotherapy, these procedures carry a risk of impotence (30–50%), incontinence (5–20%) and rectal toxic effects (5–20%). A strategy that is used to treat clinically significant unilateral lesions in localised prostate cancer might result in fewer side-effects while retaining cancer control (28,29).

Discrete experiments examining patients’ choice of treatment have shown that patients do wish to avoid side-effects from medical treatment when given the choice (30). In the COMPARE study men with prostate cancer were asked whether they would trade-off some survival for a reduction of side-effects on urinary function and erections. The results from 468 men with prostate cancer were on average, that patients were willing to trade 0.68% and 0.28% survival for 1% chance of improving urinary function and 1% chance of keeping erections, respectively. Thus this shows that the side-effects of incontinence and impotence with radical treatment are significant enough for most men to be prepared to lose months to years of life in return for avoiding certain functional side-effects (31).

With more accurate imaging showing exactly where the prostate cancer tumours are located within the prostate. Focal treatment of prostate cancer has become practicable. Several different energy sources have been used to deliver focal therapy to the prostate with varying benefits on cancer control and on the incidence of side-effects (32).

High-intensity focused ultrasound (HIFU) is delivered directly by a transrectal probe, which both images and delivers thermal energy to the prostate. A temperature of up to 60 °C is achieved within the prostate, in a field approximately the size of a rice grain. The energy causes a local cavitation effect which results in tissue necrosis and death. The most recent published data is from a UK based, multicentre trial including 625 consecutive patients with clinically significant prostate cancer treated with focal HIFU. At 5-year follow-up, failure-free survival, metastasis-free survival, cancer-specific survival, and overall survival were 88%, 98%, 100%, and 99%, respectively. Urinary incontinence (any pad use) was 2% (33).

One French multi-institution prospective trial treated 111 patients with localized prostate cancer with HIFU hemiablation. At 1-year follow-up targeted prostate biopsies showed a 95% absence of clinically significant cancer. Radical treatment-free survival rate was 89% at 2 years. At 12 months, continence and erectile functions were preserved in 97% and 78% (34). The end-point which was clinically significant cancer on biopsy was criticized as not being clinically relevant. However, in reply the authors defended the use of biopsies of the treated tissue to demonstrate successful ablation and of the non-treated gland as a surrogate for progression (35).

There have been 13 previous studies evaluating focal HIFU. On average, significant adverse events occurred in 1.5% (IQR: 0–3.2%) of patients. Pad-free continence and potency preservation were achieved in 100% (32). The INDEX trial will be the first multi-centre, medium-term follow-up trial evaluating outcomes in men treated with HIFU for localised prostate cancer. The trial has recruited patients and results are awaited (36). The CHRONOS (Comparative Health Research Outcomes of Novel Surgery in prostate cancer) and PART randomised controlled trials are due to start recruitment shortly. These will be the first trials to evaluate progression-free-survival rates in clinically significant prostate cancer treated with either focal therapy or radical treatment (surgery or radiotherapy).

Cryotherapy works by reducing the temperature of tissue to −40 °C and then thawing, in at least two cycles, causing necrosis and apoptosis. Prostate cancer patients treated with cryotherapy are added to the Cryo On-Line Data (COLD) registry. A review of 300 men with high-grade, clinically localised, prostate cancer was performed using the COLD registry. The 5-year biochemical progression-free survival [(using the Phoenix criteria (nadir +2 ng/mL)] was 59.1%. Complete continence was noted in 90.5% or men and potency in 17% at 12-month follow-up (37). Analysis comparing whole gland cryotherapy against partial ablation in propensity score-matched pairs for intermediate-risk prostate cancer showed similar biochemical progression-free survival, with either the Phoenix or ASTRO criteria. However, sexual function outcomes were improved with partial ablation with potency rates of 29.5% for whole gland and 46.8% for partial ablation. Retention and continence rates were similar, and rectourethral fistula rates were 1.2% and 0% respectively (38).

Comparison with radical prostatectomy has demonstrated similar oncological outcomes in one retrospective, matched-pair analysis comparing focal cryotherapy to radical prostatectomy for clinically unilateral prostate cancer, at a median 3.7-year follow-up (39). In a recent multicentre study of 122 patients undergoing focal cryotherapy for medium to high-risk prostate cancer, at 3-year follow-up, no patient died from their cancer whilst failure-free survival was approximately 90%. None of the patients needed pads for managing urine leakage although 16% had erection problems. There were no rectal adverse events. These results may reflect the improvement in the delivery of cryotherapy for prostate cancer (40).

Photodynamic therapy (PDT) ablation relies on the laser activation of a vascular photosensitiser. This causes the local formation of reactive oxygen species resulting in vessel thrombosis, apoptosis and necrosis. Padeliporfin is administered intravenously and optical fibres are inserted transperineally into the prostate within the target zone and activated by laser light 753 nm with a fixed power of 150 mW/cm for 22 min 15 s. In the only currently published study, the authors controversially used active surveillance as the standard of care. The patients treated all had Gleason 3 disease, and most centres would not offer such patients any treatment. At a median 24 months follow-up 28% had disease progression in the treatment group compared to 58% in the active surveillance group. Note that 58% is a surprisingly high number for progression on active surveillance; although active surveillance varies greatly between centres, the 5-year progression rate might be expected to be in the range of 14–50% (41). The most common adverse event of this treatment was prostatitis seen in 2%; 1% (2 of 206) of patients suffered from erectile dysfunction (42). The latest NICE guidelines have not approved PDT ablation for prostate cancer treatment due to its cost and the weak evidence presented in this study (43).

VTP is vascular-targeted photodynamic therapy using TOOKAD(®) soluble. The TOOKAD soluble is injected intravenously and activated by light-diffusing fibres placed transperineally. One initial study used endpoints of MRI at 1-week post procedure and prostate biopsy at 6 months. At 6 months 61/83 (73%) of patients who underwent prostate biopsies were negative for cancer. In total 75/86 (87%) patients suffered at least one mild or moderate adverse event and 8 (9%) had a serious adverse event (44). In a medium term study at 3.5 years follow-up successful ablation of cancer was seen in 51/68 (75%) patients. In cases of recurrence/persistence of malignancy the Gleason score either remained the same or rose by 1 point, i.e., to 3+4 for eight patients and 4+3 for two patients. There were 64 related adverse events, 48% were Clavien grade I, 47% were grade II, and 5% were grade III (45).

Laser interstitial therapy (LITT) involves using laser fibres placed directly around a prostate lesion; in-bore or ultrasound monitoring is used to detect the tissue temperature (46). Four prospective studies evaluating focal LITT in 50 patients have been reported in the literature (32). TRUS standard and MRI were systematically used to identify eligible patients. One study included only men with low-risk disease, whereas the other studies included also Gleason <8. At early (3 months) follow-up no prostate cancer was detected in targeted biopsies and the probability of transition to secondary local treatment was 0%. Pad-free continence and potency preservation were achieved in 100% (47).

Focal brachytherapy, as opposed to whole gland radiotherapy, uses no external beam radiation. The radioactive seeds are placed in the targeted area of the gland via a transperineal approach (48). Two retrospective Stage 2a–b case series evaluating focal brachytherapy have been reported in the literature (48,49). The study population included low and intermediate risk patients with a median age of 62.3 years and a median of PSA of 6 ng/mL. At a median 5.1 year follow up in one of the series no patient had secondary local treatment. Pad-free continence was reported only by one series and was at 95.2%. Potency preservation was not reported by either series (32). A more recent study offered “ultra” focal brachytherapy to patients as an alternative to active surveillance. In total 17 patients were treated. End points were MRI and biopsy at 1 year. It was noted that MRI follow up for the treated volume was of little value due to artefact from the brachytherapy titanium seeds. No recurrence was noted in the treated volume, 7 non clinically significant cancer and one Gleason 3+4 were observed in untreated tissue. No urinary incontinence or erectile dysfunction reported (50).

Irreversible electroporation (IRE) is a non-thermal ablation technique, delivering high-voltage, low-energy, electric current within the target tissue. In the prostate, this is achieved by positioning electro-needles transperineally. One proof of concept Stage 1 and two retrospective cases series Stage 2a studies have been reported in the literature. Patients with low to intermediate disease were treated. The probability of transition to secondary local treatment was 11.9%. Overall survival was 100% at short term follow up. Pad-free continence and potency preservation were achieved in 100% (51-53).

Radiofrequency ablation (RFA) delivers medium frequency alternating current to generate heat, through needles placed transperineally. An initial proof of concept Stage 1 study, evaluating focal RFA prior to radical prostatectomy in 15 men, showed that the RFA energy delivery-system created a necrotic lesion in the prostate tissue in a reproducible and controlled manner (54). The full ProRAFT study results are awaited, using a bipolar coil design (Encage device), preliminary results showed that 20 men, with localised disease not eligible for active surveillance were treated. At 6 months repeat biopsy 16/20 (80%) had no significant disease or new cancer and surveillance MRI showed no progression. At 1-year functional follow-up one patient with an apical tumour had suffered urinary leakage but there was no deterioration in sexual function (55).

Focal therapy ablation patterns can target just the lesion or treat half the gland or three-quarters in a “hockey stick” shape (7). Selecting focal technologies to best target the specific lesion in a bespoke manner will allow the merits of each technology to be maximised (56). Examples may include utilising cryotherapy for anterior tumours in large prostates; this may be advantageous as the probes can be placed directly around the anterior lobe thus avoiding the longer distance required for delivering energy from the rectum. HIFU is generally more suited to peripheral tumours in smaller glands.

Conclusions

Prostate cancer can be unifocal in up to 38% of the cases in which radical treatment is performed. Treating just the primary focus of cancer or the index lesion may control progression or recurrence of the disease. Gleason 6 disease does not benefit from treatment. Modern imaging and biopsy techniques allow accurate identification of the primary focus of clinically significant cancer. Many different energy sources which can be used to attack the tumour are now available and there is a growing body of evidence to confirm that good cancer control can be achieved with less significant side-effects such as adverse actions on urinary and sexual function. Evidence shows that patients do not want side-effects from medical treatment and would even trade years of life in exchange for preserved retention of continence or erectile function. Current trials hope to confirm these promising results and establish more firmly and widely this treatment option for men who clearly want and deserve it.

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