Showing posts with label Nanoknife. Show all posts
Showing posts with label Nanoknife. Show all posts

Friday, August 26, 2016

Another NanoKnife® pilot study


In the previous post, I reported on a pilot study of focal irreversible electroporation (IRE or NanoKnife®) in Sydney and London. Murray et al. have published the early results of a pilot test at Memorial Sloan Kettering Cancer Center.

A chart review of 25 patients treated with partial gland IRE ablation revealed the following complications after a median follow-up of 10.9 months:
  • ·      14/25 patients incurred transient and mild to moderate (grade 2 or less) urinary symptoms, including blood in urine and urinary tract infection.
  • ·      2 patients had severe (grade 3) complications requiring intervention: epididymitis and urinary tract infection.
  • ·      Among those with good baseline urinary function, 94% were back to baseline function at 12 months. Two patients required pads.
  • ·      At 12 months, 1 previously potent patient had new erectile dysfunction.
There was a routine follow-up biopsy 6 months after treatment. At that time, 4/25 patients (16%) were found to have residual cancer in the ablation treatment zone. In the previously reported pilot study, 6/24 patients (25%) had residual disease after a first treatment. It is surprising that residual disease was found within the treatment zone here, indicating incomplete ablation. These levels of local recurrence are about the same as has been reported with other kinds of focal thermal ablation (e.g., HIFU, cryo, and laser).

IRE requires full anesthesia with complete paralysis, so if there is no advantage in terms of toxicity or cancer control, one of the other forms of ablation that require only local anesthesia may be a better choice for some. Still, these are only small pilot studies, and continued trials may perfect the technique and get better results.






Nanoknife® or irreversible electroporation (IRE) is a promising focal ablation therapy


IRE is unique among focal ablation therapies in that it is non-thermal and precise down to the cellular level. There was a very thorough analysis of IRE on The New Prostate Cancer Infolink in 2013, which interested patients are well advised to read. There is still not enough clinical data to recommend it, but there has been one promising pilot study with published results.

Valerio et al. reported on 34 low and intermediate risk patients treated at two institutions (St. Vincent Cancer Centre in Sydney and Princess Grace Hospital in London) between 2011 and 2013. All patients received multiparametric MRI-targeted biopsies in which 20-30 cores were taken. Patients were selected who had a single significant focus of cancer, either:
  • ·      Predominantly Gleason grade 4, or
  • ·      Core length ≥ 4 mm
Patients had to have good performance status, as the procedure involves full anesthesia and complete muscle paralysis.

Acute complications included blood in urine (18%), urinary tract infection (15%), painful urination (15 %), and urinary retention (6%). All toxicities were low grade - grade 1 (35%) or grade 2 (29%) - and were transient. One patient developed tachycardia and had to be watched for a day after the operation. At 6 months follow-up, all patients were continent and potency was preserved in 95%. One of the potential dangers of focal ablation is recto-urethral fistula, but none have so far been reported for IRE.

With up to 2 years of follow-up with mpMRI, 6 patients (18%) had residual disease:
  • ·      2 stayed on active surveillance
  • ·      3 had a second ablation treatment
o   1 with IRE
o   2 with HIFU
  • ·      1 had a radical prostatectomy
Multiple treatments

As with all forms of focal ablation, residual disease was found in some cases, and multiple treatments may be necessary. With IRE, its sub-millimeter precision is both its greatest strength and its greatest weakness. The strength is in its low risk of harming nearby structures like the bladder neck, urethral sphincter, neurovascular bundles, and rectum. It is also believed to be somewhat sparing of the connective tissue in muscle, blood vessels and nerves. The weakness is that even with our most accurate mpMRIs, it is impossible to discern microscopic amounts of cancer in the prostate. Even leaving a 5 mm margin around the index lesion, it is impossible to know if it ablated all the cancerous tissue.

Heat sink effect

Thermal ablation therapies, like HIFU, cryo or laser, are problematic because heat (or cold) dissipates away from the intended treatment zone. That can result in sublethal ablation of the intended target while causing thermal injury to nearby organs at risk as well as the neurovascular bundles. Tumors may repopulate in the sub-lethal ablation zone with enhanced vigor. With IRE there is no sub-lethal ablation, and no thermal damage to nearby healthy tissue.

Index tumor theory

Another issue that applies to all focal therapies is the theory of index tumors. There is a theory that the spread of prostate cancer is from a primary, relatively large and often higher-grade tumor called an index tumor. According to this theory, all metastases are clones from the original index tumor. If true, ablating the index tumor will stop the cancer. Prostate cancer is known to be multifocal (lots of little tumors) in 80% of men, but if the index tumor theory is correct, the multiple tumor foci will not seed any spread -- only the index tumor can do that.  Liu et al. and Mao et al. showed that metastases arise as clones from a single parent cancer cell, but did not show that the parent cell was in an index tumor. Several studies provide evidence to the contrary:
  • ·      A case report from Johns Hopkins showed that metastases arose from a small, low grade tumor rather than an index tumor.
  • ·      Cheng et al. found that multiple tumors had independent origins. In 15/18 tumors, he found that they arose independently within a single gland, and in 3/18 tumors they arose through intraglandular dissemination from an index lesion.
  • ·      Ibeawuchi et al. showed that there was as much genetic diversity in a unifocal tumor as there were in multifocal tumors.
Clinical evidence for the index tumor theory is based on the fact that a single focal therapy treatment is effective much of the time, at least in the short term. Most likely, it is true in some men but not in others, and it may be true of some, but not all, of the cancer within a single man. The other issue raised by the multifocal nature of prostate cancer is that the satellite tumors, whether they arise independently or are spawned from the index lesion, may be outside of the treatment range of the focal therapy. Hollmann et al. found that satellite tumors were a median of 1 cm, and up to 4.4 cm, away from the index lesion.

Active Surveillance

It has not yet been established that immediate focal ablation has any advantage over active surveillance. In low risk men, active surveillance is certainly safer. Active surveillance is increasingly being used by men with favorable intermediate risk prostate cancer. Arguably, there is a window of time during which focal ablation is possible, but we really don’t know that with any certainty. Men who have focal therapy must be closely followed for recurrence because we don’t know whether residual tumors may become active. Focally treated patients are effectively on lifetime active surveillance anyway.

Clinical Trials

There is obviously much to be learned from clinical trials. There is a second small-scale clinical trial (NEAT) that has been completed and should have results soon. NEAT included patient-reported quality-of-life outcomes, and allows for adaptive surgical technique to optimize treatment. They treated increasingly larger margins unless toxicity increased. To avoid risk of recto-urethral fistulae, only anterior zone tumors were treated.

There is an on-going full-scale clinical trial (NCT01835977) in Amsterdam. They are also running a registry and expect to treat 2,000 patients before 2020.

In the US, there are a few practitioners who are experimenting with IRE: Jaime Wong (Jenkins Clinic, Atlanta, GA), Gary Onik (Carnegie Mellon University), and  Jonathan Coleman (Memorial Sloan Kettering Cancer Center) have done over a dozen cases each. There is a pilot trial of 6 cases at Duke University (NCT01972867).