No Coil® placement in patients undergoing left hemicolectomy and low anterior resection for colorectal cancer.

BACKGROUND: Colorectal cancer (CRC) is the most common tumor of the gastrointestinal tract. Anastomotic leak (AL) and prolonged postoperative ileus (PPOI) are two important complications of colorectal surgery. In this observational retrospective study, we evaluated the positive effects of transanal tube No Coil® in patients with CRC undergoing low anterior resection (LAR) and left hemicolectomy (LC).
METHODS: Thirty-eight cases and forty controls resulted eligible for the final sample. No Coil® placement (SapiMed Spa, Alessandria, Italy) was considered an inclusion criteria for the case group. No Coil® was placed immediately after the end of surgical treatment.
RESULTS: PPOI was significantly more frequent in the control group. AL was evident in 1 patient (2.6%) of cases and 3 patients (7.5%) of controls. No statistical difference was found in AL occurrence between groups. POI days and AL resulted associated with hospital stay. POI days were negatively associated with No Coil placement and positively with AL.
CONCLUSION: With our preliminary data, we suggest that No Coil® placement can be considered as a valuable procedure assisting colorectal surgery, but further studies are required to confirm and enlarge actual evidence.

Introduction

Colorectal cancer (<span class="Disease">CRC) is the most frequent tumor of the gastrointestinal tract, and its predicted prevalence is estimated to rise up to 2.5 million in 2035 [1, 2].

During 2018, 704.000 new cases of rectal <span class="Disease">cancer (RC) have been reported for which low anterior resection (LAR) remains the cornerstone of curative intent treatment, providing the best results in terms of quality of life [3, 4]. On the other hand, <span class="Disease">left colon cancer, which affects splenic flexure, descending colon, and sigma, is also frequent with 138,377 of new cases reported in 2014, and left hemicolectomy (LC) is the surgical technique of choice [5].

Anastomotic leak (AL), defined as a defect of the intestinal wall occurring in the anastomotic site, leads to a communication between the intra- and extraluminal compartments and is the most important complication of <span class="Species">colorectal surgery [6-8]. There is no consensus about the prevalence of AL, since it varies depending on the site of anastomosis, with colo-colonic leak frequency being up to 0–9% and colorectal and coloanal leak rising to 20% [7-9].

Another important complication is prolonged postoperative ileus (PPOI), affecting up to 10% of Species">patients undergoing <span class="Species">colorectal surgery [10]. PPOI is defined as the temporary reduction or absence of gastrointestinal motility after surgery and is clinically evident with the absence of flatus and stools for at least 5 days following open abdominal surgery [11, 12]. Several factors may contribute to PPOI occurrence, and the secondary increase of intraluminal pressure is strongly associated with AL. For rectal cancer, preoperative radio-chemotherapy treatment does not represent a statistically significant risk factor; the level of anastomosis is probably the most important [13].

Defunctioning stoma is the elective procedure to prevent AL to take place after LAR [14]. Nevertheless, this procedure is burdened by several complications (e.g., longer hospital stay, reversal procedure, greater inSpecies">patient costs, permanent stoma, stoma-related complications, and <span class="Species">patient discomfort) [14, 15]. Given the evidence that increased intraluminal rectal pressure is among the major contributors to AL [16-19], several endorectal devices (e.g., transanal tube cuff rectum, drainage tube, silicone transanal tube) have been proposed as promising alternatives to defunctioning stoma [13, 20, 21].

No <span class="Gene">Coil® is a transanal <span class="Chemical">silicone stent that allows endorectal decompression, and it is used for anastomosis of the lower gastrointestinal tract (Fig. 1) [13].

Fig. 1

No Coil structure and the postoperative placement. a Length of 60–80 mm, thickness of 2 mm, and diameter of 20 mm. b Stabilized 6–8 cm far from the anus through two stitches

No <span class="Gene">Coil structure and the postoperative placement. a Length of 60–80 mm, thickness of 2 mm, and diameter of 20 mm. b Stabilized 6–8 cm far from the anus through two stitches

According to recent studies, No Coil may be promising in the prevention of AL-related complications, in addition to show good feasibility, cost-effectiveness, and favorable <span class="Species">patients’ quality of life after treatment [22]. However, evidence about No Coil implementation in the surgical treatment of CRC is limited to few studies, and definitive conclusions in terms of efficacy cannot be drawn. Moreover, these studies examined No Coil after LAR approach, and evidence about its efficacy after LC is still missing [13, 23].

Present observational retrospective study aimed at extending actual knowledge about No Coil effects in <span class="Species">patients with CRC undergoing LAR or LC. To this extent, hospital stay, PPOI, and AL events were examined and compared between patients according to No Coil placement. No Coil use was hypothesized to reduce the occurrence of all outcomes of interest, but given the exploratory nature of the study, no definite hypothesis was postulated.

Materials and methods

An observational retrospective case-control study was performed at the Science of Health Department, Digestive Surgery Unit, University “Magna Graecia” Medical School, “Mater Domini” Hospital of Catanzaro and examined hospital electronic medical records of <span class="Species">patients diagnosed with <span class="Disease">CRC that underwent elective surgical intervention (LAR, LC) between January 2017 and January 2020.

Diagnosis of left colon cancer (splenic flexure, descending <span class="Species">colon, and sigma) or rectum cancer, histological type of adenocarcinoma, T2-4N0-2abM0 staging for the colon and T2-3N0-2abM0 for the rectal, no preoperative radio-chemotherapy treatment, BMI range 24.0 to < 30, consecutive patients, and valid consent were considered inclusion criteria for both the case and control groups. No Coil® placement (SapiMed Spa, Alessandria, Italy) was considered another inclusion criteria for the case groups. Thirty-eight cases and forty controls resulted eligible for the final sample.

All Species">participants were screened with serum carcino-ebryonic antigen (CEA) and carbohydrate antigen 19.9 (CA-19.9) blood level measurement, total body computed tomography (CT), and <span class="Species">colonoscopy, and histopathological grading was performed according to the American Joint of Committee on Cancer (AJCC) 8th Edition. Surgical approach was defined according to the European Consensus Conference [24] and The Tripartite Consensus Conference on Definitions for Anorectal Physiology and Rectal Cancer [25]. Both types of procedure (LC and LAR) were conducted in open surgery for contraindications to laparoscopy approach (comorbidity, previous surgical treatment); complete mobilization of the splenic flexure with end-to-end isoperistaltic anastomotic was performed at all participants.

No Coil <span class="Chemical">silicone tube had the following characteristics: length of 60–80 mm, thickness of 2 mm, and diameter of 20 mm (Fig. 1). No Coil was placed immediately after the anastomosis, inserted through the anal sphincter, and stabilized 6–8 cm far from the anus through two stitches, then removed on the seventh postoperative day if no signs of leakage occurred (Fig. 1).

Postoperative AL and PPOI events were recorded during hospital stay and coded as 0 (no event) or 1 (event). AL was evaluated according to the Clavien–Dindo classification [26, 27]. PPOI was considered to occur when <span class="Disease">flatus and stools were absent for at least 5 days following the open abdominal surgical intervention [28, 29]. Postoperative ileus (POI) was also considered in days from the surgery to the canalization. Hospital stay was coded in days starting from the admission to the surgical department.

All procedures included in the protocol complied with the ethical standards of Helsinki Declaration and according to the Guideline for Good Clinical Practice. The <span class="Species">Human Investigation Committee (IRB) of University “Magna Graecia” Medical School, “Mater Domini” Hospital, approved this study (Protocol N° 182, 18 June 2020).

To assess the postoperative quality of life, the <span class="Species">patients compiled the EORTC QLQ-C30 questionnaire. A valid, informed consent for elective surgery, as well as for the collection, managing, and manipulation of medical records for scientific aims, was acquired before any further step took place.

Statistical analysis

Statistical analyses were performed using the Statistical Package for the Social Sciences (SPSS) version 21.0 (SPSS 21.0; SPSS Inc., Chicago, IL, USA). Descriptive statistics included frequencies and percentages, and means and standard deviations, as appropriate. Differences between cases and controls were subsequently explored through χ2 for categorical variables, and T test for continuous variables. Stepwise linear regression was run to ascertain the association between hospital stay (dependent variable) and No Coil placement, type of surgery, POI, PPOI, and AL events (independent variables). The same procedure was applied for POI (independent variables: No <span class="Gene">Coil, type of surgery, AL). The association between AL and PPOI (dependent variables) and No Coil placement, type of intervention, and respectively POI/PPOI or AL were investigated with forward-stepwise logistic regression. Significance level was set at p < 0.05.

Results

Results from the descriptive analysis and comparison between cases and controls are shown in Table 1. No differences emerged in gender and age distribution between groups. LC was performed in 24 cases (63%) and 26 controls (65%) (χ2 = 0.029; p = 0.526). No cases <span class="Species">patient reported <span class="Disease">postoperative incontinence or constipation.

Table 1

Descriptive and comparison between groups

		Cases		Controls
		(N = 38)		(N = 40)		χ2/t	p
Agea		72.6	6.5	70.8	7.4	− 1.173	0.244
Genderb	Male	18	47.4	22	55	0.454	0.327
	Female	20	52.6	18	45
Type of interventionb	LAR	14	36.8	14	35	0.029	0.526
	LC	24	63.2	26	65
Hospital staya		12.1	4.7	16.6	6.8	3.494	0.001
POIa		3.8	0.9	7.9	3.5	7.193	< 0.001
PPOIb		9	23.7	40	100	48.593	< 0.001
ALb		1	2.6	3	7.5	0.949	0.327

LC left hemicolectomy, LAR low anterior resection, POI postoperative ileus days, PPOI prolonged postoperative ileus, AL anastomotic leak

aMean and SD; b fr, %.

LC left hemicolectomy, LAR low anterior resection, POI postoperative ileus days, PPOI prolonged postoperative ileus, <span class="Disease">AL anastomotic leak

<span class="Chemical">aMean and SD; b fr, %.

Mean hospital stay was 12.1 ± 4.7 days in cases and 16.6 ± 6.8 days in controls, with significance between groups (F = 4.164; t = 3.494; p = 0.001) (Fig. 2). PPOI was significantly more frequent in controls (40, 100%) than in cases (9, 23.7%) (χ2 = 48.593; p < 0.001), and POI mean duration was significantly higher in controls (Table 1; Fig. 3).

Fig. 2

Hospital stay in cases and controls

Fig. 3

PPOI (a) and AL (b) in cases and controls

AL was evident in 1 Species">patient (2.6%) of cases and 3 <span class="Species">patients (7.5%) of controls; AL in 1 patient of cases (LAR group) was treated conservatively with total parenteral nutrition and transanal tube No Coil removed on the 12th day; AL in 3 patients of the control group (2 LAR group; 1 LC group) was treated with loop colostomy. No statistical difference was found in AL occurrence between groups (χ2 = 0.949; p = .327). POI days and AL resulted associated with hospital stay, explaining 45% of the variance (Table 2). POI days were negatively associated with No Coil placement and positively with AL (Table 2). None of the independent variables showed association with PPOI. AL resulted positively associated with POI days, such that an increase of 1 day in POI is associated with 20% increase of AL (log-likelihood-2 = 24.754; Nagelkerke R2 = .251; Wald = 6.087; OR = 1.229; 95% CI = 1.055–1.599; p < 0.014).

Table 2

Results of linear regression analysis

Dependent variable	Adjusted R2	F	p	Independent variable	B	t	p	95% CI
Hospital stay	0.456	56.061	< 0.001	POI	1.020	6.032	< 0.001	0.683 to 1.357
				AL	6.438	2.538	0.013	1.385 to 11.490
				No Coil	0.013	0.118	0.907
				Surgery type	0.151	1.785	0.078
				PPOI	− 0.092	− 0.840	0.404
POI	0.397	51.734	< 0.001	No Coil	− 3.916	− 7.448	< 0.001	− 5.021 to − 2.902
				AL	5.152	4.275	< 0.001	2.751 to 7.552
				Surgery type	0.116	1.315	0.192

Note: 95% CI are shown only for significant predictors

POI postoperative ileus days, PPOI prolonged postoperative ileus, AL anastomotic leak

POI postoperative ileus days, PPOI prolonged postoperative ileus, <span class="Disease">AL anastomotic leak

Discussion

Present observational study sought to retrospectively examine the positive effects in terms of postoperative complications and hospital stay of No <span class="Gene">Coil® implementation in <span class="Species">patients undergoing LAR or LC procedures compared to a control group.

Results partly confirm the hypothesis that No <span class="Gene">Coil placement reduces all postoperative complications.

No <span class="Gene">Coil resulted in a significant reduction of hospital stay in individuals undergoing both LC and LAR surgeries compared to treatment as usual. To date, this is the first study exploring hospital stay related to No <span class="Gene">Coil implementation. However, results from linear regression analysis revealed that the most important predictors are longer postoperative ileus days and AL event.

POI days and PPOI, conceivable with gastrointestinal dysmotility occurring during postoperative time, were significantly lower in individuals undergoing LC and LAR with transanal No <span class="Gene">Coil implementation [11]. Specifically, No Coil placement resulted in a reduction of almost 4 POI days. On the other hand, PPOI events in the control group were extremely higher than expected. In fact, PPOI frequency after colectomy plus defunctioning stoma, or after rectal resection, was previously estimated to be 27% and 30.9%, respectively [12, 30].

In present study, only one Species">patient over 38 of cases experienced AL complication, and the same complication occurred in 3 out of 40 controls. Accordingly, no differences emerged depending on No <span class="Gene">Coil placement. To the best of our knowledge, only one study explored so far the efficacy of No Coil implementation in reducing AL events. In their study, Montemurro and colleagues examined AL prevalence in a sample of 184 patients undergoing elective total or subtotal proctectomy with low-lying anastomosis and found slightly higher AL estimates (4.8%) compared to present results [13]. Two randomized trial evaluated the use of transanal stent other than No Coil, which are meant to act similarly, although structurally different from it. Amin and colleagues examined the occurrence of AL after LAR plus transanal stent, compared to TAU (defunctioning stoma), and showed anastomotic leakage in three of 41 (about 7%) [18]. Conversely, Bulow and colleagues found that transanal stent was not superior to defunctioning stoma in preventing the risk of AL after LAR (about 10.7%) [19]. Although informative, these studies cannot be compared with present results, given that different devices can result in slightly to moderate differences in efficacy.

AL resulted positively associated with POI days, such that 1 day more of postoperative ileus was associated with 20% increase of AL event.

In light of present results, it can be stated that individuals receiving No Coil placement benefit from lower postoperative ileus days and hospital length of stay with respect to individuals receiving treatment as usual. This is important considering hospital costs are associated with longer hospital length of stay [28]. The most important predictor of AL is POI days, which has been found to be strongly associated with No <span class="Gene">Coil use [22, 31]. Therefore, it can be hypothesized that No Coil is also contributing to the reduction of AL events, by indirectly reducing POI days. However, these results should be read in light of some limitations.

The sample size was small for both groups and may have prevented to find significance between the two interventions or affected results. The mean age of the sample was around 70 years old; consequently, these results may not be applicable to younger population. Lastly, inter-operator reliability bias cannot be excluded.

However, cases and controls were homogeneous according to gender, age, and type of intervention, excluding these variables as possible confounders and contributing to more consistency. Furthermore, to the best of our knowledge, this is the first study including both LAR and LC types of intervention in the analysis.

These results may preliminarily point out No <span class="Gene">Coil placement as a valuable procedure assisting <span class="Species">colorectal surgery, but further studies are required to confirm and enlarge actual evidence about its efficacy in preventing short- and long-term complications.