Around the time the TME technique was introduced, several randomized trials explored the effect of radiotherapy (RT) on local recurrence to define the optimal biologically effective dose, fractionation, and time point (before or after surgery) for RT in rectal cancer. In these trials without TME surgery, RT reduced the frequency of local recurrence by half, from around 25 % to 11–14 %. An equivalent benefit was also observed in trials combining RT and TME. RT reduces the relative risk of local recurrence by 50–70 %, and RT combined with the correct plane of surgery almost abolishes the risk of local recurrence. RT for rectal cancer is best given before surgery. The effects on tumor downsizing, local recurrence rate, and survival are similar for the highly fractionated schedule with 5 Gy × 5 (short-course RT) and the conventionally fractionated schedule with 1.8–2 Gy × 25–28, often combined with concomitant chemotherapy. The addition of chemotherapy to preoperative RT enhances local control, but a significant survival gain has only been observed in locally advanced cancers.

Observational studies and clinical trials have shown superior oncologic outcomes of anterior resection with TME compared with abdominoperineal excision (APE), which was associated with a higher risk for positive CRM, intraoperative perforation, and an inadequate plane of resection. The concept of extralevator APE was introduced to improve the outcome in low, locally advanced rectal cancer. The abdominal part of the procedure is carried out in the TME plane, but the mesorectum is not dissected off the levator muscles. The patient is then turned into a prone position to complete the perineal excision by resecting the anus, the lower rectum, and the levator muscles en bloc. This technique results in a cylindrical specimen, which avoids the characteristic “waist” at the anorectal junction of specimens after conventional APE (Fig. 26.2).

Uncontrolled pelvic tumor growth has a disastrous impact on a patient’s life, and median survival for locally recurrent rectal cancer treated with supportive care is limited to only a few months. Extensive surgery including multivisceral resection (pelvic exenteration), sacral resection, and hemipelvectomy procedures is used to achieve tumor clearance in advanced or recurrent rectal cancer. Radical resection with negative resection margins (R0) is a strong predictor of outcome in this group, and 5-year survival reached 50 % in selected series. The Beyond TME Collaborative published a consensus statement for staging and treatment of this group of patients with complex presentation of rectal cancer diseases.

The first results of a wait-and-see policy in patients with low rectal cancer without detectable cancer growth (complete clinical response) after chemoradiotherapy were published in 2004. Several pilot studies confirmed that standard rectal resection did not enhance survival in these select patients. The evidence regarding patient selection, use of (chemo-)RT in early cancers (T2), response assessment and follow-up is limited and currently restricts the general application of this treatment option. Patients so treated should be entered into a registry such as the International Watch & Wait database (www.​iwwd.​org)

Chemotherapy is the weakest treatment modality for rectal cancer and is based on 5-fluorouracil, described in 1957, or capecitabine, an oral prodrug of 5-fluorouracil. Newer drugs, such as oxaliplatin or irinotecan, and a growing number of biological agents have been shown to improve survival in patients with systemic disease. The value of adjuvant chemotherapy for stage III or perceived-high-risk stage II disease, advised by many oncologists in analogy to colon cancer treatment, is unproven; however, about 20–25 % of these patients develop systemic disease despite local control in the pelvis. Postoperative chemotherapy in patients treated with preoperative (chemo-)RT is not based on strong evidence. Current trials are investigating the effect of preoperative RT and full-dose preoperative chemotherapy.