Factors predicting recurrence after curative resection for rectal cancer: a 16-year study
verfasst von:
Waad Farhat, Mohamed Azzaza, Abdelkader Mizouni, Houssem Ammar, Mahdi ben Ltaifa, Sami Lagha, Mohamed Kahloul, Rahul Gupta, Mohamed Ben Mabrouk, Ali Ben Ali
The recurrence after curative surgery of the rectal adenocarcinoma is a serious complication, considered as a failure of the therapeutic strategy. The aim of this study was to identify the different prognostic factors affecting the recurrence of adenocarcinoma of the rectum.
Methods
A retrospective analysis of patients operated for adenocarcinoma of the rectum between January 2000 and December 2015 was conducted. The study of the recurrence rate and prognostic factors was performed through the Kaplan Meier survival curve and the Cox regression analysis.
Results
During the study period, 188 patients underwent curative surgery for rectal adenocarcinoma, among which 53 had a recurrence. The recurrence rate was 44.6% at 5 years. The multivariate analysis identified four parameters independently associated with the risk of recurrence after curative surgery: a distal margin ≤ 2 cm (HR = 6.8, 95% CI 2.7–16.6, 6), extracapsular invasion of lymph node metastasis (HR = 4.4, 95% CI 1.3–14), tumor stenosis (HR = 4.3, 95% CI 1.2–15.2), and parietal invasion (pT3/T4 disease) (HR = 3, 95% CI 1.1–9.4).
Conclusion
The determination of the prognostic factors affecting the recurrence of rectal adenocarcinoma after curative surgery allows us to define the high-risk patients for recurrence.
Trial registration
ClinicalTrials.gov Identifier: NCT03899870. Registered on 2 February 2019, retrospectively registered.
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Introduction
Colorectal cancer is one of the most frequently diagnosed cancers and a major cause of cancer deaths worldwide [1]. Recurrence after curative surgery is one of the major factors affecting the long-term survival and its frequency is estimated to be 22.5% at 5 years, of which 12% have a local recurrence. The overall survival in case of recurrence is about 11% at 5 years [2]. Several patient-, tumor-, and treatment-related prognostic factors are associated with the risk of recurrence of rectal adenocarcinoma. Some of these factors such as TNM stage [3], lymphatic and perineural invasion [3, 4], and vascular emboli [5, 6] have been found to affect recurrence-free survival in most studies. While the impact of other factors such as distal resection margin [7], tumor size [8, 9], extracapsular spread [10], and neoadjuvant chemoradiotherapy [11, 12] on recurrence remains controversial. Most of the previous studies on prognostic factors have been from American and European countries with very little data from African countries. Recognition of these factors helps in the identification of high-risk patients who require close and more rigorous postoperative surveillance. Hence, this study was conducted to determine the factors affecting recurrence after curative resection of rectal cancer in the African population.
Patients and methods
This is a retrospective study of prospectively maintained data of all the patients who underwent curative resection for rectal adenocarcinoma over 16 years (between January 2000 and December 2015) at the Department of Digestive and Visceral Surgery of Sahloul Hospital, Sousse, Tunisia. We excluded patients who underwent palliative surgery, patients with microscopically or macroscopically positive resection margin (proximal, distal, or circumferential), patients with tumors other than adenocarcinoma, and those who died in the postoperative period because of complications. Informed consent was taken from all patients. This study was approved by the research ethics board of Sahloul Hospital and has been performed in accordance with the ethical standards laid down in the 1964 Declaration of Helsinki and its later amendments.
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Preoperative staging
1.
T staging— On MRI pelvis, tumor extending into the perirectal fat was labeled as T3 disease and those invading adjacent organs were considered to have T4 disease [13].
2.
Nodal staging—On MRI pelvis, heterogeneity of signal intensity on T2W sequences or irregular margins of the lymph nodes or lymph node size > 8 mm was considered to be pathological [13].
Neoadjuvant therapy
Patients with locally advanced disease (cT3, cT4) or lymph nodal positive disease were offered neoadjuvant therapy. In the neoadjuvant therapy, we used 45 Gy in 25 fractions with concurrent 5-fluorouracil [5-FU] infusion (600 mg/m2) [14]. Patients were operated 8 to 10 weeks after neoadjuvant therapy [15, 16]. Sometimes, for the elderly patients with multiple co-morbidities, we used short-course pelvic radiation therapy which included 25 Gy in five fractions over 1 week.
Surgery
Patients with tumors in the upper and middle third rectum underwent anterior and low anterior resection, respectively. Patients with tumors in the lower third of the rectum where anal sphincters could not be preserved underwent abdominoperineal resection. In most of the cases, inferior mesenteric artery (IMA) was ligated caudal to the origin of the left colic artery to preserve the autonomic nerves at the IMA origin and maintain a good blood supply to the left colon and the anastomotic site. For the tumors of the upper rectum, partial excision of the mesorectum was performed up to a minimum of 5 cm from the inferior aspect of the tumor. For the tumors of the middle and low rectum, a total mesorectum excision was done with the minimum distal mucosal margin of 1 to 2 cm. In cases where coloanal anastomosis was performed, an ileostomy was made. However, after low colorectal anastomosis, an ileostomy was performed if the colon was poorly prepared or the anastomotic leak test was positive.
In most of the cases, open surgery was performed. Laparoscopic surgery was performed in selected cases. Wide local excision was performed in selected cases with T1 tumors without locoregional lymphadenopathy.
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Adjuvant therapy
Patients with locally advanced disease (pT3, T4) or lymph nodal positive disease were offered adjuvant therapy. In most of the cases, FOLFOX (leucovorin, 5-FU, oxaliplatin) regimen was used and for elderly patients who could not tolerate this regimen, we used oral capecitabine.
Follow-up
Postoperative follow-up included clinical examination, serum carcinoembryonic antigen (CEA) levels, and abdominal ultrasound every 3 months during the first 2 years and then every 6 months for 2 years. We also performed a thoraco-abdominopelvic CT scan every 6 months for the first 2 years and then every year for 3 years. Colonoscopy was done after 1 year, and if it was normal, it was repeated after 3 years.
Definitions
Adenocarcinoma of the rectum was defined as cancer arising from the glandular cells of the rectal epithelium and located anatomically within the last 15 cm of the digestive tract from the anal canal.
Recurrence was defined as the development of any new malignant lesion within the field of surgery (locoregional recurrence) or outside it (distant metastasis) after initial resection was judged to be curative (R0) based on the preoperative imaging and histopathological examination of the resected specimen. The confirmation of the recurrence was made by pathological examination of a biopsy performed during an endoscopic examination, a laparotomy, computed tomography-guided biopsy, or finally at autopsy.
Statistical analysis
The qualitative variables were summarized by simple and relative frequencies. Quantitative variables were expressed as the median and interquartile interval. The frequency of recurrence of rectal adenocarcinoma was calculated by the incidence density and using the Kaplan-Meier survival analysis. All the variables associated with recurrence with p < 0.20 on univariate analysis were integrated into a Cox regression model that allowed the identification of prognostic factors independently associated with recurrence by calculating the hazard ratio (HR) with their 95% confidence intervals. The mean and median time to recurrence was calculated using the Kaplan-Meier curve. The log-rank test was used to compare the Kaplan-Meier curves for the prognostic factors independently associated with rectal adenocarcinoma recurrence.
Results
During the study period, 269 patients were operated for rectal adenocarcinoma. Out of these, 188 patients were included in this study. Fifty-three patients developed recurrence in the follow-up period. The basic characteristics of the study population were summarized in Table 1. The sex ratio was 1.35 and the mean age was 60.5 years (50–71.7) for the total population versus a sex ratio of 0.8 and a median age of 60 years (45.5–70) for patients who had a recurrence.
Table 1
Patient and tumor characteristics
Characteristic
Number of patients [n (%)]
Number of patients in this study
188
Age (years) (mean)
60.5
Sex ratio (M:F)
1.35:1
Location of tumor
Upper rectum
45 (24)
Middle rectum
65 (35)
Lower rectum
78 (41)
cT stage
T1/T2
24 (13)
T3
155 (82)
T4
9 (5)
cN stage
N0
82 (44)
N+
106 (56)
cTNM stage
I
49 (27)
II
38 (20)
III
98 (51)
IV
3 (2)
Parietal invasion
pT1–T2
64 (34)
pT3–T4
124 (66)
pT stage
T1
14
T2
50
T3
107
T4
17
pN stage
N0
127
N1
34
N2
17
N3
10
pTNM stage
I
56 (30)
II
68 (37)
III
61 (32)
IV
3 (1)
Tumor perforation
7 (4)
Invasion of surrounding organs
16 (8)
Degree of differentiation
Well
41 (22)
Moderate
133 (71)
Poor
13 (7)
Neoadjuvant therapy
120 (64)
Type of surgery
APR
35 (19)
Low anterior resection
144 (76)
Local excision
9 (5)
Laparoscopic surgery
25 (13)
Postoperative complications
39 (21)
Adjuvant therapy
65 (34)
Number of patients with recurrence
53 (28)
Median follow-up period
57 months
Median recurrence-free survival
54 months
Median survival after recurrence
25 months
Median overall survival
75 months
2-year overall survival
73%
5-year overall survival
54%
The median recurrence-free survival was 54 months. The recurrence rate was 44.6% at 5 years and 58.4% at 10 years (Fig. 1). The incidence density of recurrence was 1/10 patient-year.
Fig. 1
predicting recurrence rate in function of time after curative resection for rectal adenocarcinoma
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The recurrence rate was 17% (9 cases) for tumors of the upper rectum versus 30% (16 cases) for tumors of the middle rectum and 50.9% (27 cases) for tumors of the lower rectum (Table 2). The recurrence rate was 24.5% (13 cases) after abdominoperineal resection versus 67.9% (36 cases) after anterior resection of the rectum and 7.5% (4 cases) after local excision.
Table 2
Demographic and clinical characteristics of the patients with and without recurrence
Without recurrence, n = 135
Recurrence, n = 53
Total, N = 188
N
%
N
%
N
%
Demographic characteristics
Sex
Male
84
62.2
24
45.3
108
57.4
Female
51
37.8
29
54.7
80
42.6
Age
< 50 years
23
17.0
18
34.0
41
21.8
≤ 50 years
112
83.0
35
66.0
147
78.2
Clinical characteristics
Location of the tumor
Upper rectum
36
26.7
9
17.0
45
23.9
Middle rectum
49
36.3
16
30.2
65
34.6
Low rectum
50
37.0
28
50.9
77
41.0
Size of the tumor
< 5 cm
92
68.1
24
45.2
116
61.7
> 5 cm
43
31.1
29
54.8
72
38,3
Stenotic character
Yes
21
15
13
24.6
34
18
No
114
85
40
75.4
154
82
CEA levels
Normal
26
19.2
24
45.2
50
27
Abnormal
109
80.8
29
54.8
138
73
Neoadjuvant therapy
Yes
85
62.9
35
66
120
63.8
No
50
37.1
18
34
68
36.2
Surgical intervention
Abdominoperineal resection
22
15.6
13
24.5
35
18.1
Anterior resection of the rectum
108
70.4
36
67.9
144
77.1
Local excision
5
4.4
4
7.5
9
4.8
Distal margin
≤ 2 cm
37
27.4
31
58.4
68
37
> 2 cm
90
72.6
22
41.6
112
63
Intraoperative incident
Yes
32
23.7
17
32
49
26
No
103
76.3
36
68
139
64
pT stage
T1–T2
54
40
10
18.8
64
34
T3–T4
81
60
43
81.2
124
66
Invasion of neighboring organs
Yes
6
4
10
18.8
16
8.5
No
129
96
43
81.2
172
11.5
Tumor perforation
Yes
2
1.5
5
9.4
7
3.7
No
133
98.5
48
90.6
181
96.3
pN stage
N0
106
78.5
21
39.6
127
67.5
N+
29
21.5
32
60.4
61
32.5
Extra capsular invasion
Yes
8
6
31
58.4
39
20.7
No
127
64
22
41.6
149
79.3
Vascular emboli
Yes
10
7.4
20
37.7
30
16
No
125
92.6
33
62.3
158
84
Lymphatic and perineural invasion
Yes
7
5.2
14
26.4
21
11.1
No
128
94.8
39
73.6
167
88.9
pTNM stage
I and II
102
75.5
22
41.5
124
66
III and IV
33
84.5
31
58.5
64
34
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Table 3 describes the characteristics of recurrence. The most common symptom of recurrence was pelvic pain (73.6%). The diagnosis of recurrence was made by abdominal CT scan in 47.1% of cases, with pelvic MRI in 13.2% and with endoscopy in 39.6% of cases. Locoregional recurrences were mainly located in the pelvis in 35.8%, at the anastomotic site in 18.7%, and both places in 13.2% cases. Distant metastases were located in the liver in 15.1% cases and the lung in 17.2% cases (Table 3).
Table 3
Characteristics of the recurrent disease
n
%
Presenting symptoms/signs
Pelvic pain
39
73.6
Alteration of the general condition
31
58.5
Mass at digital rectal examination
20
37.7
Means of diagnosis of recurrence
Abdominal and pelvic CT scan
25
47.1
Digestive endoscopy
21
39,6
Pelvic MRI
7
13.2
Recurrence location
Locoregional recurrence
Pelvic
25
47.1
Anastomotic
8
15.0
Pelvic and anastomotic
10
18.8
Remote metastasis
Hepatic
15
15.1
Pulmonary
9
17.0
Bone
3
5.6
Brain
1
1.8
Ovarian
1
1.8
Table 4 summarizes the univariate analysis of all the prognostic factors likely to affect the development of recurrence. The multivariate analysis (Table 5) revealed four independent parameters associated with the risk of recurrence after curative surgery: a distal margin ≤ 2 cm (HR = 6.8, 95% CI 2.7–16.6), extracapsular spread (HR = 4.4, 95% CI 1.3–14), tumor stenosis (HR = 4.3, 95% CI 1.2–15.2), parietal invasion according to the TNM classification (HR = 3, 95% CI 1–9.4).
Table 4
Univariate analysis to determine the factors associated with recurrence
Prognostic factors
Risk category
Reference category
Univariate analysis
HR
95% CI
p
Factors related to the population
Sex
Female
Male
1.651
0.9–2.8
0.07
Age
< 50 years
≥ 50 years
1.136
0.6–2.0
0.66
Factors related to the tumor
Location
Low rectum
Upper or middle
1.129
0.7–2.2
0.35
Fixity
Mobile
Fixed
1.084
0.5–2.0
0.80
Stenotic character
Stenotic
Non-stenotic
2.203
1.1–4.2
0.01
Size
≥ 5 cm
< 5 cm
1.496
0.8–2.6
0.15
Biologic factors
CEA levels
Abnormal
Normal
0.721
0.3–1.3
0.32
LDH levels > 400
Present
Absent
0.673
0.1–3.7
0.65
Factors related to adjuvant and neoadjuvant treatment
Neoadjuvant radiotherapy
Absent
Present
1.337
0.7–2.3
0.31
Neoadjuvant radiochemotherapy
Absent
Present
1.551
0.8–2.9
0.17
Adjuvant chemotherapy
Absent
Present
1.308
0.7–2.3
0.37
Factors related to surgery
Urgency of the intervention
Yes
No
7.027
0.9–52.6
0.05
Experience of the surgeon
Junior
Senior
0.888
0.3–1.9
0.77
Surgical approach
Laparoscopic
Laparotomy
0.962
0.3–2.7
0.94
Surgical intervention
Abdominoperineal resection
Anterior resection of the rectum
0.648
0.3–1.2
0.18
Vascular ligation
1 cm from the origin
At the origin
1.334
0.7–2.3
0.33
Distal margin
≤ 2 cm
> 2 cm
2.792
1.5–4.9
0.00
Intraoperative incident
Yes
No
3.716
1.6–8.4
0.00
Anastomotic fistula
Present
Absent
0.637
0.2–1.4
0.63
Pathological factors
Parietal invasion (pT stage)
T3–T4
T1–T2
2.278
1.1–4.5
0.02
Invasion of neighboring organs
Yes
No
3.040
1.5–6.0
0.00
Tumor perforation
Yes
No
4.128
1.6–10.5
0.00
Ganglionic invasion (pN stage)
Yes
No
2.677
1.5–4.6
0.00
Extra capsular invasion
Yes
No
2.789
1.1–6.6
0.02
Vascular emboli
Yes
No
3.817
2.1–6.6
0.00
lymphatic and perineural invasion
Yes
No
4.235
2.2–7.8
0.00
Mucoid colloid component
Yes
No
1.360
0.7–2.6
0.34
pTNM stage
III and IV
I and II
2.833
1.6–4.8
0.00
HR hazard ratio, CI confidence interval
Table 5
Multivariate analysis to identify the prognostic factors for recurrence in rectal adenocarcinoma
Prognostic factors
Risk category
Reference category
Multivariate analysis
HR
95% CI
p
Factors related to the population
Sex
Female
Male
1.356
0.5–3.3
0.50
Age
< 50 years
≥ 50 years
0.429
0.1–1.0
0.07
Factors related to the tumor
Stenotic character
Stenotic
Non-stenotic
4.387
1.2–15.2
0.02
Size
≥ 5 cm
< 5 cm
0.710
0.2–1.7
0.45
Factors related to adjuvant and neoadjuvant treatment
Neoadjuvant radiochemotherapy
Absent
Present
1.502
0.6–3.3
0.32
Factors related to surgery
Surgical intervention
Abdominoperineal resection
Anterior resection of the rectum
1.216
0.4–3.1
0.69
Distal margin
≤ 2 cm
> 2 cm
6.819
2.7–16.6
0.00
Intraoperative incident
Yes
No
1.627
0.2–9.0
0.57
Pathological factors
Parietal invasion (pT stage)
T3–T4
T1–T2
3.073
1.1–9.4
0.05
Perforated character of the tumor
Yes
No
2.279
0.1–33.6
0.54
Ganglionic invasion (pN stage)
Yes
No
0.300
0–6.7
0.44
Extra capsular invasion
Yes
No
4.408
1.3–14.0
0.01
Vascular emboli
Yes
No
1.398
0.5–3.4
0.47
lymphatic and perineural invasion
Yes
No
2.369
0.7–7.0
0.12
pTNM stage
III and IV
I and II
4.623
0.2–90.9
0.31
HR hazard ratio, CI confidence interval
Figure 2 illustrates the effect of these four prognostic factors on the recurrence-free survival rate. The mean recurrence-free survival was 59.7 ± 7.53 months for patients with the distal margin ≤ 2 cm versus 109.7 ± 8.28 months for those patients with the distal margin > 2 cm. The presence of extracapsular spread reduced the mean recurrence-free survival from 95 months to 21 months. The non-stenotic nature of the tumor increased the mean recurrence-free survival from 48 months to 92 months. In those with parietal invasion, the mean recurrence-free survival was 92 months for T1 and T2 tumors whereas it was only 56 months for T3 and T4 tumors.
Fig. 2
Kaplan-Meier curves comparing the recurrence-free survival of the patients according to the four parameters independently associated with the risk of recurrence after curative surgery. a Distal margin (log-rank = < 10− 3). b Extracapsular invasion of lymph node metastasis (log-rank = 0.015). c Tumor stenosis (log-rank = 0.016). d Parietal invasion according to the TNM classification (log-rank = 0.016)
×
Discussion
Recurrence after curative surgery of the rectal adenocarcinoma is a serious health problem not only because of its high frequency but also because it considerably impacts of the life expectancy and the quality of life of the patients [1]. Several prognostic factors related to the patient, tumor, and therapeutic protocol (radio preoperative chemotherapy, surgical procedure, and adjuvant chemotherapy) affect the development of recurrence. Determination of these prognostic factors can help define high-risk patients who require more frequent postoperative surveillance and adjuvant therapy.
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According to our study, the recurrence rate was estimated to be 44.6% at 5 years. The reported recurrence rate at 5 years is 25–37% which is slightly lower than that of this study [17, 18]. A meta-analysis by Puhlman [19] reported the 5-year recurrence rate between 23% and 41% with a mean of 27%.
Our results reflect the seriousness of the problem of recurrence after curative surgery of rectal adenocarcinoma in central Tunisia. Several factors could explain the increased risk of recurrence, particularly the disintegration of oncological and radiotherapy care services.
On multivariate analysis according to the Cox regression model, four prognostic factors for recurrence of rectal adenocarcinoma after curative surgery were identified: distal resection margin ≤ 2 cm (HR = 6.8, 95% CI 2.7–16.6), extracapsular invasion (HR = 4.4, 95% CI 1.3–14), tumor stenosis (HR = 4.3, 95% CI 1.2–15.2), and degree of parietal invasion (T3/T4) (HR = 3, 95% CI 1.1–9.4).
As with all the cancers, the level of resection must be at a maximum distance from the tumor to achieve at least 2 cm of macroscopic tumor-free resection margin during the surgical procedure. The macroscopic limit of a tumor lesion is often exceeded at the microscopic level by submucosal tumor invasion. If the resection limit is microscopically invaded by the tumor, it will affect the long-term outcome as it will be a potential site for local recurrence. For tumors of the lower and middle rectum, studies have shown that there is no additional reduction in the risk of local recurrence with a distal margin greater than 2 cm below the lower end of the tumor [7‐11].
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Currently, a 1-cm distal margin has been suggested by several randomized studies, especially after neoadjuvant therapy [11, 12] to the safe limit [20]. Some studies [21, 22] compared oncology results between a distal resection margin ≤ 1 cm and > 1 cm and did not show a significant difference in terms of the recurrence rate. In our study, a distal resection margin ≤ 2 cm was an independent predictor of recurrence on multivariate analysis.
The second important factor found in our study was extracapsular invasion which increased the risk of recurrence by fourfold. This would be explained by the fact that the lymph node, which is the first defense barrier of the body to prevent the lymphatic spread, does not control tumor invasion. Thus, the residual tumor cells lying outside the lymph nodes may become the site of tumor recurrence. Few studies have investigated extracapsular invasion in the analysis of risk factors for tumor recurrence. It has been studied in the cancers of other sites such as the vulva, lungs, and some digestive cancers such as the esophagus and stomach. In most of these studies, the extracapsular invasion was found to be a bad prognostic factor [10]. In colorectal cancer, because of the conflicting results in the reported studies, this parameter does not appear in TNM classification, nor standardized pathological reports [23]. A retrospective study carried out in Tunisia including 75 cases of colorectal adenocarcinoma concluded that the extracapsular invasion of lymph node metastasis correlated with the occurrence of local recurrences (p = 0.001) and metachronous metastases (p = 0.01). Our series confirms the prognostic value of extracapsular invasion in rectal adenocarcinoma.
The stenosing character of the tumor was identified in our study as a risk factor for the development of recurrence in rectal cancer. The tumor stenosis indicates that the disease process is going on for quite some time that exposes the patient to the risk of tumor dissemination and may explain the increased risk for locoregional and distant recurrence. In a study by Larsen et al. [24] including 254 patients with T3 and T4 rectum cancers, the stenosing character of the tumor was associated with a higher rate of recurrence (p = 0.005) and a lower survival rate (p = 0.005) (0.01). In another study by Chapet et al. [25], the stenosing character of the tumor was not an independent prognostic factor for recurrence, but the 5-year survival rate was reduced to 12%. In our series, the stenosing character of the tumor was significantly associated with the risk of recurrence, thus concordant with the results of Larsen et al. [24].
Another important prognostic factor for recurrence found in this study was the degree of parietal infiltration. The vascular channels are present in the third layer of the rectal wall which corresponds to T3 of parietal infiltration according to the TNM classification. Any invasion of the rectal wall beyond this stage is associated with vascular invasion and therefore with a higher risk of dissemination and recurrence. The degree of parietal invasion was one of the five known prognostic factors for rectal cancer which were identified at a North American consensus conference [26].
Besides, several studies have shown that the degree of parietal invasion was significantly associated with the risk of recurrence [27, 28]. A recent study by Chen et al. involving 359 patients operated for rectal cancer showed that the T3 stage has a higher risk of recurrence compared to the T2 stage (p = 0.012) [3]. Our study confirms that the degree of parietal invasion is an independent predictor of recurrence.
In the literature, other prognostic factors for recurrence have been noted but not found significant in this study. These factors are related to the quality of the surgical procedure [29‐31] such as total mesorectal excision, neoadjuvant treatment [32, 33], preoperative radiochemotherapy, and histopathological criteria of the tumor such as the number of lymph nodes involved, the perineural invasion, and the vascular emboli [34].
The knowledge of the prognostic factors for recurrence of rectal adenocarcinoma after curative surgery could calculate a predictive risk score. This score will define a profile of patients at very high risk of recurrence who need a surveillance protocol that differs from the recommended guidelines.
This study is limited by its retrospective nature. However, the medical records specific to the tumor pathologies were very well preserved (operating records, radiological, pathological, and other details); thus, the risk of information bias attributed to the loss of records is less and does not affect the reliability of the results.
Conclusion
This study revealed distal resection margin ≤ 2 cm, extracapsular invasion of lymph node metastasis, tumor stenosis, and degree of parietal invasion ≥ T3 to be independent prognostic factors for recurrence of rectal adenocarcinoma in African patients. Future multicentric national scale studies are required to validate the results of this study.
This study was approved by the Sahloul Hospital ethical committee. All procedures performed in studies involving human participants were in accordance with the ethical standards of the institutional and/or national research committee (include name of committee + reference number) and with the 1964 Helsinki declaration and its later amendments or comparable ethical standards.
Acknowledgements
The authors gratefully acknowledge all of the investigators for their contributions to the trial.
Article guarantor
Houssem Ammar
Compliance with ethical standards
This retrospective study was reviewed and approved by the Ethics Committee of Sahloul hospital.
Ethics approval and consent to participate
All procedures performed in studies involving human participants were in accordance with the ethical standards of the institutional and/or national research committee of Sahloul Hospital. Written informed consent was obtained from all patients enrolled in the investigation. The study protocol conformed to the guidelines of the regional ethical committee of Sahloul Hospital.
Competing interests
The authors declare that they have no competing interests.
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Das Karpaltunnelsyndrom ist die häufigste Kompressionsneuropathie peripherer Nerven. Obwohl die Anamnese mit dem nächtlichen Einschlafen der Hand (Brachialgia parästhetica nocturna) sehr typisch ist, ist eine klinisch-neurologische Untersuchung und Elektroneurografie in manchen Fällen auch eine Neurosonografie erforderlich. Im Anfangsstadium sind konservative Maßnahmen (Handgelenksschiene, Ergotherapie) empfehlenswert. Bei nicht Ansprechen der konservativen Therapie oder Auftreten von neurologischen Ausfällen ist eine Dekompression des N. medianus am Karpaltunnel indiziert.
Das Webinar beschäftigt sich mit Fragen und Antworten zu Diagnostik und Klassifikation sowie Möglichkeiten des Ausschlusses von Zusatzverletzungen. Die Referenten erläutern, welche Frakturen konservativ behandelt werden können und wie. Das Webinar beantwortet die Frage nach aktuellen operativen Therapiekonzepten: Welcher Zugang, welches Osteosynthesematerial? Auf was muss bei der Nachbehandlung der distalen Radiusfraktur geachtet werden?
Inhalte des Webinars zur S1-Leitlinie „Empfehlungen zur Therapie der akuten Appendizitis bei Erwachsenen“ sind die Darstellung des Projektes und des Erstellungswegs zur S1-Leitlinie, die Erläuterung der klinischen Relevanz der Klassifikation EAES 2015, die wissenschaftliche Begründung der wichtigsten Empfehlungen und die Darstellung stadiengerechter Therapieoptionen.
