Abstract
Abdominoperineal resection has represented for almost one hundred years, the “gold standard” in the rectal cancer surgery. Nowadays, the indication for an abdominoperineal resection is limited to the distal rectal cancer, in case of anal sphincter involvement or invasion of the cancer in the levatorian plane, thus no sphincter-preserving surgery is possible anymore (no distal tumoral clearance is possible).
From the technical point of view, an abdominoperineal resection specimen will include the cancerous rectum, along with the distal part of the sigmoid, the anal canal, the mesorectum, the levators and the ischiorectal fat and perianal skin, followed by a definitive stoma formation. For this to be possible, two major ways of approach are necessary: a laparotomy and a perineal incision, which can be made by one or two surgical teams, simultaneously.
Multiple intraoperative or postoperative problems may be raised by this operation, from which the modality of solving the perineal wound and its complications continues to represent a difficult challenge.
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Definition: Indications
Abdominoperineal resection (APR) of the rectum was the first truly oncological type of surgery in rectal cancer, dealing with the primary tumor-bearing organ and his lymphatic spread in every possible ways: upward (the most common spread), laterally, and downward (very rare). Although many attempts to remove the cancerous rectum had been already reported at that time, the abdominoperineal resection is attributed to Ernest Miles, who developed the technique, established its indications in rectal cancer, but, most important, had given a scientific basis for the procedure, in 1908. From that moment on, for almost 100 years, the abdominoperineal resection of the rectum was considered the “gold standard” in rectal cancer [10, 21, 27].
Abdominoperineal resection specimen includes the sigmoid (or the distal part of it), the entire rectum along with the anal canal, the mesorectum, the levators and the ischiorectal fat, and, in some authors’ opinion, even the perianal skin [8, 19] (Fig. 9.1). The vascular ligation is recommended to be performed at the origin of the superior rectal artery, just below to the takeoff of the left colic artery [17]. Due to its characteristics, the abdominoperineal resection will be finalized with a permanent left sigmoid colostomy, a difficult burden for the patient, determining a significant decrease in the quality of life [5, 7], hence being considered a “life-altering event” [21].
That is the reason why, over time, many surgeons tried to avoid this operation; in declining the number of the APR, there were several events: the paramount importance was the observation that rectal cancer rarely extended beyond 1–1.5 cm from the lower border of the tumor, thus a distal resection limit of 2 cm becoming sufficient oncologically [10, 17, 20]. Once with the development of the stapling devices and also of the neoadjuvant therapies, the feasibility of sphincter-saving procedure has been proved, even for low rectal cancers. Also nowadays, a percentage of the distal T1 or even T2 distal rectal cancer patients may be safely treated by a local excision. As a consequence, the incidence of abdominoperineal resection has started to decrease, limited most often to the distal rectal cancer, but now considered mandatory only in case of anal sphincter involvement by cancer or invasion of the cancer in the levatorian plane, thus no sphincter-preserving surgery is possible anymore (no distal tumoral clearance is possible) (Fig. 9.2).
Excepting for the local extension of the rectal cancer, there are several other factors influencing the decision of performing an APR; the preoperative anal sphincter dysfunction or intraoperative difficulties in performing a very low anastomosis with a high risk of leakage may lead to an APR. These factors have been already discussed by Rothenberger and Wong in their article and have been suffering very few modifications since then [22].
Another reason for that is represented by the postoperative results, with a significantly increased morbidity (55.4 % vs 34.2 %) [1] and a significantly higher length of the hospital stay after APR, when compared to low anterior resection. Also, a higher local recurrence rate and a worst long-distance survival have been reported after APR [8, 12, 14, 24] but these results have been contested by other studies [1, 16].
All of these considerations have made the APR to become an “endangered operation” [8]. This is due especially to Bill Heald and coll., who reported from 1997 only a 23 % of low rectal cancers (below 5 cm from the anal verge, or 1–1.5 cm from the dentate line) treated with APR [8]. The same decline in APR incidence was reported later, by Tilney and coll., who found in England that only 24.9 % of rectal cancers had been treated by APR from 1996 to 2004 [24].
In fact, sphincter-saving procedures became the standard procedure for low rectal cancer in many centers [5]; still, there are significant differences between different surgical centers, with a percentage of 24–38 % of rectal cancer cases requiring an APR [4, 8, 13, 14, 24, 26].
Surgical Technique
From the surgical technique point of view, by definition, the abdominoperineal resection requires an abdominal approach, for vascular ligation and removal of the most part of the sigmoid and rectum, and a perineal approach in order to remove the anal canal, the ischiorectal fat, and the lowest part of the rectum and mesorectum. The operation may be done in one team (as originally described by Miles) or in two synchronous teams (it has the advantage of shortening considerably the time of the operation – Lloyd-Davis) [10, 19].
The preoperative preparations are similar to those described in the anterior resection; maybe much consideration must be given to establish preoperatively the level of the tumor from the anal verge and the impossibility of a sphincter-saving procedure (fixed, bulky tumors, sphincteric or levator invasion on digital examination, rigid rectosigmoidoscopy, MRI, or endorectal ultrasound) and also an indication for neoadjuvant radio-chemotherapy; still, in some cases, the final intraoperative assessment will decide over the impossibility of preserving the anal sphincter. In any circumstances, the preoperative psychological implication of the stoma creation must be discussed with the patient, and the place where stoma will be performed on the anterior abdominal wall must be noted, in order to ensure a good coverage by the colostomy device [19].
Abdominal Phase of the Operation
The abdominal phase of the operation is very similar to surgical elements presented at low anterior resection; therefore, in this chapter we will insist only on the particularities of the abdominal approach in APR.
The incision is a midline pubo-umbilical, extended above the umbilicus; some authors prefer a right transrectal or even a transverse infraumbilical incision [10, 22]. Exploration and mobilization of the colon is similar to low anterior resection, but the mobilization of the splenic flexure is not usually needed. The recommended level of vascular ligation is at the origin of the superior rectal artery, just below of the takeoff of the left colic artery [11, 17, 19, 22]; there is no strong evidence that high ligation has a benefit over the mentioned level [11]. Obviously, if enlarged lymph nodes are detected at the superior rectal artery origin, or along it, for oncological reasons are indicated to perform a high-tie, at the origin of the inferior mesenteric artery.
The pelvic dissection is somewhat different in APR: after the sigmoid was divided, the posterior dissection starts in a similar way, as it was described in low anterior resection (total mesorectal excision), using also the nerve-sparing technique. In the classic view, the pelvic dissection had to be as complete as possible, down to the pelvic floor, before the perineal sequence begins [19, 22]. In the modern APR it is better to avoid a very low dissection on the anterior and lateral mesorectum, the pelvic dissection being stopped once the level of the distal rectal tumor has been reached, in order to avoid tumoral cells spillage [4]. This is determined by the levatorian plane shape, which may lead to a conning-in the mesorectum if after the plane of the levator ani is reached, with an increased risk of local recurrent disease (Figs. 9.3 and 9.4). Therefore, after the levatorian plane is reached laterally and seminal vesicles or the prostate base [10] anterior, the dissection must commence from the perineum, much more favorably to a correct dissection, favored by the shape of levator ani.
Perineal Phase of Surgery
The approach in the perineal sequence of the APR depends if the resection is performed by one team or synchronously, by two different surgical teams: in case of synchronous approach, the patient is positioned in modified Lloyd-Davis position (shorter operative time, no repositioning of the patient, and dissection from two planes in bulky tumors, but less visibility and difficult dissection in anterior plane from the abdomen). In case of one team APR, after the abdominal time is over (the colostomy is matured and the abdomen is closed), the patient is turned into the prone, jackknife position [10]. The rectum is irrigated with povidone-iodine solution, after which the anus is closed in a purse-string suture (otherwise a source of perineal contamination with viable malignant cells and source of local recurrence) [8, 19, 22]. An ellipsoidal incision, 2–3 cm lateral the anal margin, is performed around the anal sphincter; the incision must encompass the entirely external anal sphincter [10, 19, 22]. The dissection starts posteriorly, with the sectioning of the ischiorectal fat, until the levatorian plane is reached; the inferior rectal vessels are ligated or electrocoagulated. Posterior dissection in ischiorectal fossae leads to the discovery of the ano-coccigian ligament, which will be sectioned sharply at the tip of the coccyx, thus entering into the retrorectal space. There is no consensus over the coccyx resection in order to enlarge the dissection space [12]. If the posterior mesorectal dissection was completed in pelvic phase, the two dissections plane will meet at this moment; in case of a bulky posterior tumor, if the posterior mesorectal excision was difficult through the abdomen, the dissection will progress from below, with care to avoid inadvertent perforation of the mesorectal fascia or the tumor. Along with the lateral resection of the levator ani, this is one of the delicate moments of perineal dissection, which could represent a source of local recurrence after APR; therefore, much consideration must be given at this point [2]. Also, care must be taken not to enter the presacral fascia and disrupt the presacral venous plexus.
The dissection continues with the lateral dissection which will permit to enlarge the latero-retrorectal space, by sectioning the levator ani as laterally as possible, close to their origin, and avoiding inadvertent perforation of the tumor, as recommended by Miles himself [4, 12, 14].
When posterior and lateral dissection is finished, the rectosigmoid is extracted through the perineal wound and the anterior dissection commences: less risky in women, in which the report between the anal sphincter and posterior vaginal wall will allow an easier dissection, and a lot riskier in men, due to the vicinity between anal sphincter and male urethra and bladder [19]. Maintaining a good plane is mandatory in order to avoid urinary lesions. After the ano-urethral plane is surpassed, the prostate must be dissected, and then, when the seminal vesicle is reached, the dissection is usually finished and the resection specimen is removed. If an anterior rectal cancer invades (or adheres) to the prostate or the vagina, an en bloc resection will be performed [4] (Figs. 9.4 and 9.5).
A good lavage and drainage of the presacral space is mandatory along with a good control of hemostasis [10, 19, 22]; if years ago the perineal wound was packed-up (for hemostasis) and left open to heal per secundam intentionem [18], nowadays this is an exceptional method, limited to very particular cases, in which hemostasis cannot be achieved otherwise. Hence, the perineal wound will be primarily closed in the majority of cases (over 90 % of cases) [4, 25] (Fig. 9.6). Still, due to the large muscular defect in the pelvic floor, an omentoplasty or sometimes a mesh may be used for “reconstruction”; also, using muscles flaps from the rectus abdominis or gracilis flaps may be used in order to prevent perineal herniation [6, 15, 18, 25].
Colostomy Formation
After the resection is completed through combined abdominal and perineal approach, the abdominal surgeon will finish the operation with colostomy formation. There are no differences from the colostomy formation described at definitive Hartmann’s resection chapter (Chap. 7); the same conditions are available: a well-vascularized with no tension exteriorized sigmoid must be used. After the colostomy is ended, an abdominal lavage is performed and the abdomen is closed, usually with a drain left deep in the pelvis (Fig. 9.7).
Postoperative-Specific Morbidity
After APR, there are several specific postoperative complications: urinary complications (chronic bladder retention, urinary tract infections, urethral, bladder or ureteral lesions, urinary fistula formation), genital disturbances (impotence, retrograde ejaculation), stoma complications (necrosis, stenosis or prolapse), and perineal wound complications (hemorrhage, abscess, local recurrence) [6, 10, 22].
Many of these complications are also encountered after an anterior rectal resection, therefore they did not weight against one or another procedure; besides these, there are a few who need a further discussion, being more specifically to APR, therefore contributing to the declining of this procedure. Genitourinary complications are relatively similar between these two types of resection; also stoma-related complications may weight against APR; still they are somehow counterbalanced by anastomotic leakages following an anterior resection.
More specifically, it seems to be perineal wound-related complications, which are absent in case of an anterior resection; also, urethral lesions are specific to APR [19], while the ureters may be injured in both operations. Intraoperative bleeding also seem to be more important and frequent after APR, requiring, in some cases, even a temporary packing of the perineal wound and pelvis; of course, this will increase the risk of further infectious complications [18, 22].
Management of the perineal wound represents a great challenge [6]. Infectious complications and delayed healing of the perineal wound with the persistence of a perineal sinus may represent a troublesome problem, which may also delay the adjuvant therapies in case they are needed, and also in other cases require surgical reinterventions, not always easy to be performed or even successful [15, 22] (Fig. 9.8). Perineal wound complications increase the patient’s sufferance, prolong hospital stay and need for home care, and also may contribute to the increase of local recurrence incidence [25]. The incidence of the perineal wound dehiscence after APR was 24.3 %, with a 14.4 % of cases with a persistent perineal fistula, in the study of Ishikawa and col., in which the high-dose preoperative radiotherapy may have also played a role [9, 18, 25]. In one study the incidence of infection of the perineal wound has significantly decreased and primary closure of the wound was significantly more often obtained using collagen resorbable sponge impregnated with gentamicin, applied into the sacral cavity after APR [3]. Other perineal wound complications, also difficult to treat, and creating a great discomfort for the patient are represented by perineal pain and perineal hernia [18].
Local recurrence rate is maybe the most important “enemy” of the nowadays APR, a higher rate of local recurrence (both pelvic and perineal) being reported after the APR vs low or very low anterior resections. The local recurrence rate varies from 22.3 to 33 % after APR (vs 1–13.5 % local recurrence rate for anterior resection) [8, 12]. This is due especially to the effect of coning-in when dissecting the mesorectum, with an increased rate of circumferential margin involvement (16.7–41 %) [12, 14, 23, 26], and even intraoperative perforation (13.7–16 %) [14, 16] after APR due to inadequate dissection. Using a correct surgical but also a multimodal therapeutic approach, a local recurrence rate below 10 % could be obtained after APR with mesorectal excision [4].
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Vilcea, I.D., Vasile, I. (2015). Abdominoperineal Resection of the Rectum (Miles Resection). In: Baatrup, G. (eds) Multidisciplinary Treatment of Colorectal Cancer. Springer, Cham. https://doi.org/10.1007/978-3-319-06142-9_9
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