The loss of erectile function after surgery Radical Prostatectomy is most frequently caused by intraoperative injury to the neurovascular bundles. It is known that if both bundles are removed, patients seldom recover erectile function. Accordingly, neurovascular bundle preservation during Radical prostatectomy has proven benefits in terms of erectile function recovery.
However, as these bundles are intimately associated with the posterolateral aspects of the prostate, during a nerve-sparing dissection the surgeon risks cutting into the prostatic capsule, which could result in a positive surgical margin. In some cases, the tumor extends beyond the prostate into the neurovascular bundles, and an attempt to preserve these structures could also result in a positive surgical margin.
Therefore, many urologists treating patients with high-risk tumors would try to maximize oncologic efficacy by removing not only the prostate but also the tissues around it, including the neurovascular bundles. If a choice had to be made between removing all the cancer but loosing erectile function, or preserving erectile function but risking incomplete cancer removal, most patients and surgeons naturally lean towards the first option. Also, in many centers, patients with aggressive prostate cancers are managed with combined treatments (multimodal therapy), by adding hormonal therapy and/or radiotherapy, which could also result in erectile dysfunction. As such, many surgeons believe that there is no rationale for attempting to preserve the neurovascular bundles in these “high-risk” patients because most will end up with erectile dysfunction .
However, with the advent of MRI (and integrating other clinical information such as location of the positive biopsies, and intraoperative cues), surgeons can now have a better idea of where the cancer is located, which may aid in surgical planning. For instance, if a tumor is located in the anterior prostate, removing the neurovascular bundles (located on the posterolateral aspects) would provide no oncologic benefit, regardless of the aggressiveness of the tumor. Similarly, if the tumor compromises only the left side, removing the right neurovascular bundle is unlikely to help the patient, but can instead result in harm.
Moreover, neurovascular bundle preservation is not an all-or-none procedure; on each side, these bundles can be completely preserved (by dissecting exactly along the prostatic capsule); partially preserved (preserving some of the nerves that are further away from the prostate, and removing the ones that are closer to the prostate); or completely resected along with the prostate (This has been graded in a scale from 1 to 4, where 1 represents complete preservation, and 4 represents complete removal of the neurovascular bundle, with 2 and 3 being partial preservation. This grade is recorded by the surgeon for each side, at the end of the procedure.) As such, sometimes it’s possible to preserve part of the bundle, even if there is a tumor on the same side
We designed a retrospective study to look at how high volume surgeons at MSKCC performed Radical Prostatectomy in high risk patients (how frequently and to what extent where the neurovascular bundles preserved), and what were the outcomes in terms of positive surgical margins; use of additional oncologic treatments such as hormone therapy or radiotherapy; and erectile function recovery in patients with functional erections before the operation. The patients in our cohort had at least one NCCN-defined high risk criteria (Gleason score ≥ 8; PSA ≥ 20 ng/ml; Clinical stage ≥ T3).
The main finding was that in this high risk cohort, surgeons at MSKCC performed bilateral neurovascular resection infrequently (only 12% of patients), and only in patients with the most advanced tumors. Patients received a tailored approach, with most receiving some degree of neurovascular bundle preservation, based on MRI findings, location and grade of positive biopsies, clinical staging by digital rectal examination, and intraoperative findings.
This is currently a judgment call made by the surgeon while performing the operation, as there is no algorithm to guide this decision at present time. We were able to show that high-volume surgeons can make these decisions fairly safely without significantly compromising the oncologic efficacy of the procedure; of patients that received some degree of nerve preservation less than a quarter had positive surgical margins, and around two-thirds did not undergo any additional oncologic treatment within 2 years. Unsurprisingly, even some degree of neurovascular bundle preservation resulted in a significant proportion (nearly half) of patients recovering erectile function. These outcomes compare favorably with previously published cohorts comprising high-risk patients.
Because this is retrospective study, were are not able to investigate whether preserving the nerves increases the rate of positive surgical margins, nor can we provide information to guide the procedure in specific patients. Nevertheless, we believe our data provides evidence against the idea that high risk patients routinely require complete resection of both neurovascular bundles to achieve oncologic efficacy. Instead, we favor an individualized approach, in which treatment is personalized according to the specific characteristics of the patient and the tumor using all available clinical information.
We have already shown that it is feasible, safe and effective to preserve the neurovascular bundles in the majority of high risk patients; the next question is in whom. While we provide some insights (the patients in the lower end of the high risk spectrum were more likely to receive some degree of nerve preservation) a prospective trial would be required to answer further questions. Future research should attempt to standardize the (preoperative) decision whether to completely preserve, partially preserve, or completely remove the neurovascular bundles by integrating the imaging findings along with the rest of the available clinical information in an algorithm that better informs the surgeon’s decision. However, because some of the information is not amenable to include in an algorithm (such as the intraoperative findings) no algorithm will be able to replace good clinical judgment in surgery, and good judgment comes with experience. We are skeptical about low volume surgeons being able to replicate these outcomes.
In the future, research focused on technology for intraoperative identification of nerves and /or cancer tissue has the potential to remove clinical judgment from this decision, informing the surgeon of the optimal dissection plane; truly the holy grail of cancer surgery. Hopefully, augmented reality will come to the surgical field in the not too distant future, allowing surgeons to perform precisely the cancer operation that each patient needs, while simultaneously preserving normal tissues and maintaining normal function.
Written By:
Dr. Pedro Recabal
Memorial Sloan Kettering Cancer Center Department of Surgery,
Urology Service New York, NY
Urology service, Fundacion Arturo Lopez Perez, Santiago, Chile
and Dr. Vincent P. Laudone
Memorial Sloan Kettering Cancer Center Department of Surgery
Urology Service New York, NY