Colorectal Surgery Clinical Trial
Official title:
Early Diagnosis of Anastomotic Leakage After Colorectal Surgery: a Prospective Observational Validation Study of the Dutch Leakage Score, Serum Procalcitonin and Serum CRP: the Italian ColoRectal Anastomotic Leakage (iCRAL) Study Group.
Prospective evaluation of early diagnosis of anastomotic leak after colorectal resection through evaluation of Dutch leakage score, serum C-reactive protein and serum Procalcitonin
BACKGROUND
Anastomotic leakage is a dreaded major complication after colorectal surgery. The overall
incidence of anastomotic dehiscence and subsequent leaks is 2 to 7 percent when performed by
experienced surgeons. The lowest leak rates are found with ileocolic anastomoses (1 to 3
percent) and the highest occur with coloanal anastomosis (10 to 20 percent). Leaks usually
become apparent between five and seven days postoperatively. Almost half of all leaks occur
after the patient has been discharged, and up to 12 percent occur after postoperative day 30.
Late leaks often present insidiously with low-grade fever, prolonged ileus, and nonspecific
symptoms attributable to other postoperative infectious complications. Small, contained leaks
present later in the clinical course and may be difficult to distinguish from postoperative
abscesses by radiologic imaging, making the diagnosis uncertain and underreported.
There is no uniform definition of an anastomotic dehiscence and leak. In a review of 97
studies, as an example, 56 different definitions of an anastomotic leak were used. The
majority of reports define an anastomotic leak using clinical signs, radiographic findings,
and intraoperative findings. The clinical signs include: Pain, Fever, Tachycardia,
Peritonitis, Feculent drainage, Purulent drainage. The radiographic signs include: Fluid
collections, Gas containing collections. The intraoperative findings include: Gross enteric
spillage, Anastomotic disruption.
Risk factors for a dehiscence and leak are classified according to the site of the
anastomosis (extraperitoneal or intraperitoneal). A prospective review of 1598 patients
undergoing 1639 anastomotic procedures for benign or malignant colorectal disease found a
significantly increased risk of anastomotic leak with extraperitoneal compared with
intraperitoneal anastomoses (6.6 versus 1.5 percent; 2.4 percent overall).
Major risk factors for an extraperitoneal anastomotic leak include: The distance of the
anastomosis from the anal verge (Patients with a low anterior resection and an anastomosis
within 5 cm from the anal verge are the highest risk group for an anastomotic leak),
Anastomotic ischemia, Male gender, Obesity.
Major risk factors for an intraperitoneal anastomotic leak include: American Society of
Anesthesiologists (ASA) score Grade III to V, Emergent surgery, Prolonged operative time,
Hand-sewn ileocolic anastomosis.
Controversial, inconclusive, or pertinent negative associations between the following
variables and an anastomotic leak have been reported: Neoadjuvant radiation therapy, Drains,
Protective stoma, Hand-sewn colorectal anastomosis, Laparoscopic procedure, Mechanical bowel
preparation, Nutritional status, Perioperative corticosteroids.
Early diagnosis is crucial to treat patients limiting the related mortality. For this reason
several clinical items were proposed in literature to detect anastomotic leakage as soon as
possible: fever, pain, tachycardia, peritoneal, purulent or faecal drain, and dynamic ileus.
Moreover, also laboratory markers were proposed, such as leukocytosis, serum procalcitonin
(PCT) and C-Reactive Protein (CRP). Finally, in 2009 den Dulk et al. proposed a leakage score
(DUtch LeaKage, DULK), that consider several items (fever, heart rate, respiratory rate,
urinary production, mental status, clinical conditions, signs of ileus, gastric retention,
fascial dehiscence, abdominal pain, wound pain, leukocytosis, CRP, increase of urea or
creatinine and nutrition status), to give a score, based on which is chosen a therapeutic
strategy.
Therefore, we planned this study to prospectively evaluate anastomotic leakage rate after
colorectal resections, trying to give a definite answer to the need for clear risk factors,
and testing the diagnostic yeald of DULK score and laboratory markers.
METHODS Prospective enrollment from September 2017 to September 2018 in 19 Italian surgical
centers. All patients undergoing elective colorectal surgery with anastomosis will be
included in a prospective database after having provided a written informed consent. A total
of 1,131 patients is expected based on a mean of 55 cases/year per center.
Outcome measures
1. Preoperative risk factors of anastomotic leakage (age, gender, obesity, state of
nutrition, diabetes, cardiovascular, renal failure, inflammatory bowel disease, ASA
class I-II vs III)
2. Operative parameters (approach, procedure, anastomotic technique, time of operation,
pTNM stage)
3. Leukocyte count, serum CRP, serum procalcitonin and DULK score assessment in 2nd and 3rd
postoperative day. Minor and major complications according to Clavien-Dindo
classification
4. Anastomotic leakage rate
5. Morbidity-Mortality rates
6. Length of postoperative hospital stay
Recorded data and follow-up Potential patient-specific and intraoperative risk factors will
be recorded: gender, body mass index, nutritional status according to the Mini Nutritional
Assessment short-form, surgical indication (cancer, polyps, chronic inflammatory bowel
disease, diverticular disease), preoperative albuminemia, use of steroids, renal failure and
dialysis, preoperative leukocyte count, CRP, PCT cardiovascular or respiratory disease,
American Society of Anesthesia score, bowel preparation (decision made by operating surgeon),
laparoscopy or laparotomy, level of anastomosis and technique (mechanical or hand-sewn,
intra- or extra-corporeal), operative time, presence of drainage, surgeon and perioperative
blood transfusion(s). During the postoperative period, patients will be examined by the
attending surgeon daily. Fever (central temperature > 38 °C), pulse, abdominal signs, bowel
movements, volume and aspect of drainage (if present) will be recorded daily. Leucocyte
count, CRP, PCT and Dulk score will be measured in the evening before the operation (in
addition to albuminemia) and on postoperative days 2, 3, and 6 (optional). The attending
surgeon will make any decision for complementary exams and imaging according to his own
criteria. The rate of any complication will be calculated and graded according to
Clavien-Dindo including all leaks (independently of clinical significance), wound infection,
pneumonia, central line infection, urinary tract infection. Urinary tract infection will be
diagnosed on the basis of positive urine culture with bacterial count. Central line infection
will be diagnosed on the basis of positive blood culture. Superficial and deep incisional
infections will be diagnosed according to the definitions of the Centers for Disease Control
and Prevention and a culture will be performed. Pneumonia will be diagnosed on the basis of
clinical symptoms, and physical and radiological examinations. The surgeons will be blinded
to the results of the CRP and PCT assays. Patients will be followed-up in the outpatient
clinic up to 6 weeks after discharge from the hospital.
Main outcome is anastomotic dehiscence (intended as any deviation from the planned
postoperative course related to the anastomosis, or presence of pus or enteric contents
within the drains, presence of abdominal or pelvic collection in the area of the anastomosis
on postoperative CT scan, performed at the discretion of the attending surgeon, leakage of
contrast through the anastomosis during enema or evident anastomotic dehiscence at
reoperation for postoperative peritonitis). Thus, all detected leaks will be considered
independently of clinical significance. No imaging will be performed routinely in order to
search for leakage.
Secondary outcomes are morbidity and mortality rates, and postoperative length of stay. All
data will be prospectively recorded into CRF and transmitted to the coordinating center on a
monthly basis. Thereafter, all data will be incorporated into a spreadsheet (MS Excel),
checking for any discrepancy, that will be addressed and solved through strict cooperation
between chief investigator, data manager and participating center.
Statistical Analysis Quantitative values will be expressed as mean ± standard deviation,
median and range; categorical data with percentage frequencies. Mean values of duration of
stay will be compared according to the presence or absence of fistulas using Student's
two-sided t test (allowing for heterogeneity of variances) or with a non-parametric
Mann-Whitney test. Mean values of DULK score, CRP and PCT levels will also be compared using
Student's two-sided t test (allowing for heterogeneity of variances) or with a non-parametric
Mann-Whitney test. Both univariate analysis and multivariate analysis will be performed to
assess risk factors for leakage and overall complications. The odds ratio (OR) will be
presented followed by its 95% confidence interval (95% CI). Areas under the
receiver-operating characteristics (ROC) curve will be calculated. For all statistical tests
the significant level is fixed at p < .05. Multivariate analysis will be performed using
logistic models. Statistical analyses will be carried out using STATA software (Stata Corp.
College Station, Texas, USA).
Sample size Considering that the ASA grade (I and II vs. III) is mostly significant among
risk factors for anastomotic dehiscence, an estimation of the OR for anastomotic dehiscence
and ASA grade is equal to 5.6; assuming a confidence interval for the estimation of the OR at
95% and a maximum error equal to 0.04, the required sample size is n=1,062 (about 885 and 177
cases expected in ASA I-II and ASA III, respectively).
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