Post on 05-Jul-2020
Colorectal Cancer
Wim Ceelen GI Heelkunde UZ Gent
wim.ceelen@ugent.be
www.kankerregister.org
The burden of cancer in Belgium
Causes of colorectal cancer
Johnson CM Meta-analyses of colorectal
cancer risk factors. Cancer Causes Control. 2013
Jun;24(6):1207-22.
The gut and colorectal cancer
Wang X Microbiome-driven carcinogenesis in colorectal cancer: Models and mechanisms. Free Radic Biol Med. 2016 Oct 31
The gut microbioma and CRC: potential mechanisms
• Production of toxins that damage tight junctions, activate cellular signaling cascades, and produce inflammation that results in genetic damage (e.g., enterotoxigenic B. fragilis)
• Sulfate-reducing bacteria can produce HS that diffuses into epithelial cells to damage DNA (e.g., Fusobacterium spp. or B. wadsworthia
• Loss of mucus can allow bacteria and viruses to adhere and invade epithelial cells, activate signaling cascades, and produce DNA damage (e.g., toxin-producing E. coli or human papillomaviruses)
• Bacteria can translocate intact epithelium via M cells to polarize ordinarily quiescent mucosal macrophages and generate inflammation, bystander effects, DNA damage, and chromosomal instability
Dienstmann Nature Reviews Cancer 17, 79–92 (2017)
Guinney Nat Med 2015
Molecular subtypes of CRC
Colon cancer screening
• Methods– Left colonoscopy
– Total colonoscopy
– Imaging: CT or MR colonography
– Stool occult blood (iFOB), stool DNA
• Flanders: population screening age 55-75 (preventive medicine = Flemish community competence)
• https://www.dikkedarmkanker.bevolkingsonderzoek.be/
Other screening programs in Flanders
• Breast cancer:
https://borstkanker.bevolkingsonderzoek.be
• Cervix cancer:
https://baarmoederhalskanker.bevolkingso
nderzoek.be/
Colorectal cancer: workup
• Family history
• Endoscopy– Total colonoscopy + biopsies
– Obstructing tumor: total colonoscopy postop
– Low rectal cancer: EUS
• Imaging– CT scan chest and abdomen
– Low rectal cancer: MRI
– PET-CT: no role in staging
• CEA
TNM: other components
• G (1–4): the grade of the cancer S (0-3): elevation of serum tumor markers
• R (0-2): the completeness of resection: no –microscopic (histology margins) – macroscopic residual disease
• L (0-1): invasion into lymphatic vessels
• V (0-2): invasion into vein (no, microscopic, macroscopic)
• C (1–5): a modifier of the certainty (quality) of the last mentioned parameter
TNM: prefix parameters
• c: stage given by clinical and/or imaging examination
• p: stage given by pathologic examination of a surgical specimen
• y: stage assessed after neoadjuvant (preoperative) chemotherapy and/or radiation therapy
• r: stage for a recurrent tumor
• a: stage determined at autopsy.
• u: stage determined by ultrasonography or endosonography
https://cancerstaging.org/references-tools/quickreferences/pages/default.aspx
Example: staging of rectal cancer
• Clinical examination: fixed? Mobile?
• Colonoscopy + biopsies
• CT scan chest and abdomen
• Endoscopic ultrasound: T stage
• MRI of the pelvis: involved nodes? CRM?
• Serum CEA
Colorectal cancer TNM 7
Example: ypT4aN2bM0 L0V1 R0
Peritoneal Cancer Index (Sugarbaker)
Principles of surgical resection of a
primary colon cancer
• Aim: resection specimen with free microscopic margins (R0)
• Should include draining nodal basin to allow accurate N staging– Most guidelines: at least 12 LN’s should be
examined
– Colon cancer: mesocolon, rectal cancer: mesorectum
– Exceptions: most soft tissue sarcomas (GIST, liposarcoma)
Complete mesocolic excision (CME)
Hohenberger Colorectal Dis 2008
West NP. Understanding optimal colonic cancer surgery: comparison of Japanese D3 resection and European complete mesocolic excision
with central vascular ligation. J Clin Oncol. 2012 May 20;30(15):1763-9
West J Clin Oncol 2009
The case for CME
• In favour
– Highlights importance of sound surgical technique
– Increases LN count
– Improves DFS in retrospective studies
• Against
– Local, nodal recurrence of CC is rare
– Therapeutic effect probably nihil
– Increased complication rate
CME standard
Organ injury 9.1 % 3.6 % <0.001
Splenic
injury
3.2 % 1.2 % 0.004
SMV injury 1.7 % 0.2 % <0.001
Sepsis 6.6 % 3.2 % 0.001
Br J Surg 2016
Märkl World J Gastroenterol 2015
Confounding variables
Lymphocytic reaction to CRC is associated with
longer survival, and related to LN count
Overall lymphocytic reaction score: Crohn's-like reaction (0-3), peritumoral reaction (0-3),
intratumoral periglandular reaction (0-3), and TIL (0-3).
Ogino Clin Cancer Res 2009
High tie Low tie
Cirocchi Surg Oncol 2012
High tie versus Low tie: 5 year overall survival
Anastomotic leak
Kuhry Cancer Treat Rev 2008
Laparoscopic surgery for CRC: meta-analysis
Ann Surg 2011
SLN mapping using ICG and optical imaging (near infrared)
Watanabe DCR 2016
Adjuvant chemotherapy
• Stage III– 15-20% absolute decrease in risk of death
– Standard: FP with oxaliplatin
– Addition of bevacizumab without added value
• Stage II– 5% absolute decrease
– Tailored approach: high risk patients
Surgery for rectal cancer
• Anatomy and biology different from colon cancer– Largely extraperitoneal (2/3)
– More extensive systemic (not portal) venous drainage more often pulmonary metastasis
• Main challenges:– avoidance of local recurrence in the pelvis
• Standardized technique: total mesorectal excision (TME)
• Neoadjuvant treatment: radiotherapy or chemoradiation
– Avoidance of permanent colostomy (rectal amputation)
– Preservation of urogenital function
Carl Toldt (1840-1920)
Neoadjuvant therapy: for whom?
• All locally advanced rectal cancers (T3,T4)
• All node positive cancers
• Cancers close to the anal verge, when
aiming at SSS
• Cancers with a CRM margin < 5 mm
Preop RT: how?
Short course (5x5
Gy)
Long term CRT (25
fractions)
Interval with surgery 3-5 days At least 6 weeks
Allows downsizing no yes
Enhances pathol response no yes
May be combined with
chemotherapy/biologicals
no yes
Preoperative chemoradiation
• Sound rationale (radiosensitization; systemic
effect)
• Promising results in irresectable disease
(downstaging; enhance resectability)
• Resectable disease: numerous phase II trials– pCR rate:18.5% (95% CI:15.6–21.4)
– sphincter preservation rate: 58.7% (95% CI: 51.7–65.7)
– Acceptable treatment related toxicity (grade 3 or 4 toxicity: 2.8–
28%)
– post-operative morbidity (including anastomotic leaks) not
different from surgery alone series
Condiderations for adjuvant therapy
• Stage III– No trial data in rectal cancer only
– Reasonable to treat as stage III colon cancer
• Stage II or less– EORTC 22921 showed benefit of adj 5FU in ypT1-2, but not in yp T3-4
• Not shown in other trials
• Methodological flaws
– ypCR: significantly better survival (pooled analysis: HR 0.44, 95%CI 0.34-0.57; p<0.0001)
– Confounding yp stage versus c stage
– Reasonable to omit adj therapy in ypCR, and treat according to pretherapy N stage
Total Mesorectal Excision
• Based on:– pathological-clinical studies from the 1980s (Heald and
Quirke) showing distal spread in the mesorectum AND a significant relation between involvement of the circumferential resection margin (CRM) and local recurrence
• Encompasses:– Excision of (nearly) complete mesorectum in mid and
lower third cancers – down to the pelvic floor
– Preservation of CRM by sharp dissection
Heald RJ, Husband EM, Ryall RDH. The mesorectum in rectal cancer surgery:
the clue to pelvic recurrence? Br J Surg. 1982;69:613-616.
Miles E. A method of performing abdominoperineal excision for carcinoma of the rectum
and of the terminal portion of the pelvic colon. Lancet, 1908
A distal margin of < 10 mm is safe
Tumor
Rectum
Mesorectum
Effect of a surgical training programme on outcome of rectal cancer
in the County of Stockholm. Martling et al. Lancet 2000
Br J Surg 2002
16%
9%
Abdominoperineal resection (APR) – rectal amputation
The problem with rectal amputation in distal rectal cancer
Nagtegaal J Clin Oncol 2005
Evidence of the Oncologic Superiority of Cylindrical Abdominoperineal Excision for
Low Rectal Cancer. West et al. J Clin Oncol 2008
ELAPE: Cylindrical or
extralevator
resection In APR
Bianco F. Extralevator with vs nonextralevator abdominoperineal excision for rectal cancer: the RELAPe
randomized controlled trial. Colorectal Dis. 2017 Feb;19(2):148-157
Negoi Am J Surg 2016
Meta-analysis: ELAPE versus APR
Minimally invasive surgery for colon cancer
• Endoscopic: ESD (endoscopic submucosal
dissection)
• Hybrid techniques: NOTES
• Transanal surgery
• Laparoscopic surgery
– Standard: HD, 3D,...
– Robotic
ESD
• For early stage cancer (maximal pT1 with
superficial mucosal invasion: sm1)
• For malignant polyps
https://www.youtube.com/watch?v=kngn2NY6gC8
Transanale resectie
Transcoccygeale resectie (Kraske)
Transanale minimaal invasieve chirurgie (TAMIS)
Operatie-rectoscoop (Buess)
Transanal TME (TaTME)
NOTES (Natural orifice translumenal
endoscopic surgery)
https://www.intuitivesurgical.com/
Considerations for organ preservation
• Current CRT regimens: ypCR 15-20% max
• Smaller tumours higher response rate
• cCR difficult to ascertain
• Risk of LR prohibitive after local excision,
unless neoadjuvant CRT
LR
Kidane DCR 2014 (T1N0M0 rectal cancer)
DSS
Intra-operative radiotherapy
• Main indication: locally recurrent disease
• External photon radiotherapy
• External electron radiotherapy
• High dose rate brachytherapy
Mobile, self-shielded electron linear accelerator (LINAC) designed to deliver Intraoperative
Radiation Therapy (IORT) to cancer patients during surgery
Afterloading unit
Intraoperative HDR Brachytherapy
γ
Surgery for peritoneal metastases
Michielsen Eur Radiol 2014
Whole body DWI-MRI as imaging standard
Peritoneal – plasma barrier
Flessner M. In: Intraperitoneal Cancer Therapy: Principles and Practice, T&F 2016
Ceelen Nat Rev Clin Oncol 2010
How to enhance the efficacy of IPDD?
• Increased exposure time
• Novel drug formulations: thermosensitive gels; nanocarriers
• Addition of hyperthermia
• Manipulation of tumor stroma– IFP reduction: antifibroblast therapy, antiangiogenic
therapy
– Hyaluronidase
– ‘Priming’ with paclitaxel
• Vasoconstriction (epinephrin)
• Increased IP pressure (e.g. PIPAC)
Pressurized Intraperitoneal Aerosol Therapy
(PIPAC)