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HOME > J Trauma Inj > Volume 34(1); 2021 > Article
Original Article
The Prognosis of Traumatic Small Bowel Injury Accompanied by Liver Injury
Yu Seong Noh, M.D., Sung Won Jung, M.D., Ph.D., Tae Gil Heo, M.D., Ph.D., Pyong Wha Choi, M.D., Ph.D., Jae Il Kim, M.D., M.S., Heung Man Jun, M.D., Ph.D., Yong Chan Shin, M.D., M.S., Sung Min Jung, M.D., M.S., Eun Hae Um, M.D., M.S.
Journal of Trauma and Injury 2021;34(1):44-49.
DOI: https://doi.org/10.20408/jti.2020.0052
Published online: December 7, 2020
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Department of Surgery, Ilsan Paik Hospital, Inje University College of Medicine, Goyang, Korea

Correspondence to Sung Won Jung, M.D., Ph.D. Department of Surgery, Ilsan Paik Hospital, Inje University College of Medicine, 170 Juhwa-ro, Ilsanseo-gu, Goyang 10380, Korea Tel: +82-31-910-7114 Fax: +82-31-910-7114 E-mail: sungwon94@naver.com
• Received: September 15, 2020   • Revised: November 10, 2020   • Accepted: November 18, 2020

Copyright © 2021 The Korean Society of Traumatology

This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/4.0/) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.

  • Purpose
    The aim of this study was to elucidate the prognosis, and other clinical features, such as time to surgery and the amount of transfusion, of small bowel injury (SBI) accompanied by liver injury (LI).
  • Methods
    We investigated 221 patients with SBI who visited an emergency center from October 2000 to March 2019. We excluded patients with injuries that directly led to mortality, and the remaining 149 patients were divided into the SBI alone (SBI-A) group and the SBI accompanied by LI (SBI-LI) group. Data were collected for preoperative and surgical outcome variables, and the treatment results were compared between groups.
  • Results
    The SBI-LI group had a higher mortality rate than the SBI-A group (22.4% vs. 14.3%), but this difference was not statistically significant (p=0.061). There were no significant differences between the SBI-A and SBI-LI groups, except for the amount of red blood cell (RBC) transfusion (SBI-A: 3.53±0.1 vs. SBI-LI: 8.38±0.7 packs, p=0.035) and the length of intensive care unit (ICU) stay (SBI-A: 6.7±0.2 vs. SBI-LI: 11.1±0.5 days, p=0.047).
  • Conclusions
    The SBI-LI group required more RBC transfusions and longer ICU stays than the SBI-A group. SBI accompanied by LI may show higher mortality than SBI alone; however, since the difference was not statistically significant in the present study, larger-scale follow-up research is needed.
The incidence of abdominal organ injuries is increasing due to traffic and industrial accidents [1]. In particular, small bowel injury (SBI) is frequently associated with blunt abdominal injury, occurring in 3% to 18% of cases [2], and it can be associated with peritonitis or sepsis, which leads to increased morbidity and mortality [3]. The diagnosis of SBI is difficult because its clinical signs and symptoms vary widely among patients. The possibility of delayed perforation also makes the diagnosis of SBI difficult. In multiple trauma patients, the diagnosis of SBI is challenging because the symptoms and signs of SBI are masked, a problem that is even further exacerbated in patients rendered unconscious by shock or traumatic brain injury [4].
The liver is also one of the most frequently injured organs in blunt abdominal trauma. Previous studies have reported a 16% incidence of liver injury (LI) in polytrauma patients [5]. Most blunt LIs can be treated by conservative management [6]. However, the management of high-grade LIs with hemodynamic instability is exceptionally difficult.
When SBI is accompanied by LI, the diagnosis and treatment can be more complex and challenging than when it is not. For example, in a patient with LI but not SBI, transcatheter angioembolization can be performed, whereas when LI accompanies SBI, diagnostic laparotomy needs to be considered.
Notably, SBI with LI can appear with different clinical features specific to SBI and LI, thereby affecting the diagnosis, management, and prognosis. However, insufficient evidence has been reported regarding SBI accompanied by LI. This study aimed to elucidate the prognosis, and other clinical features of SBI accompanied by LI, including time to surgery and the amount of red blood cell (RBC) transfusion.
A retrospective cohort study including 221 blunt trauma patients was performed. These patients were diagnosed with SBI by emergency laparotomy at Ilsan Paik Hospital from October 2000 to March 2019. Patients whose cause of death was not SBI or LI (n=72) were excluded from this study, which included eight cases of stabbing, 11 cases of cerebral hemorrhage, seven cases of pneumothorax, five cases of hemothorax, nine cases of pelvic fracture, six cases of major vessel injury, six cases of gastric injury, five cases of duodenal injury, and 15 cases of colon injury. Finally, a total of 149 patients were enrolled in this study. These 149 patients were divided into two groups: 91 patients with SBI alone (SBI-A) and 58 patients with SBI accompanied by LI (SBI-LI) (Fig. 1). SBI and LI were diagnosed and classified by preoperative computed tomography and operative findings. LI was classified according to the American Association for the Surgery of Trauma (AAST) liver trauma classification system.
Information on demographic, preoperative, and surgical outcome variables was collected from patients’ medical records. The demographic and preoperative variables included age, sex, underlying disease, trauma mechanisms, Abbreviated Injury Scale (AIS), presence of initial hypotension (initial systolic blood pressure <90 mmHg), coexistence of LI, and grade of LI. The injury mechanisms were classified as follows: passenger traffic accidents (TAs), pedestrian TAs, falls, and others.
The surgical outcome variables included time to surgery, operation time, the amount of RBCs transfused during the operation, small bowel perforation, and type of surgery. The time to surgery was defined as the time taken from presenting at the emergency room to beginning the operation. The types of surgery included primary repair, small bowel resection and anastomosis, and bleeding control. Length of intensive care unit (ICU) stay, length of hospital stay, morbidity, and mortality were investigated as outcome variables in this study. Morbidity was categorized according to the Clavien-Dindo classification, and the mortality rate was defined based on in-hospital mortality.
The primary endpoint of this study was the mortality rate of each group. The secondary endpoints were the length of ICU stay, the length of hospital stay, and morbidity.
All continuous data were presented as mean±standard deviation, unless otherwise noted. The chi-square test or Fisher exact test was used for categorical or nominal variables. For continuous variables, the Student t-test was used. A p-value of <0.05 (two-tailed) was considered to indicate statistical significance. All statistical analyses were performed with SPSS version 19.0 for Windows (IBM Corp., Armonk, NY, USA).
The demographic and preoperative characteristics of each group are shown in Table 1. There were no statistically significant differences between the two groups, except in AIS scores, which were significantly higher in the SBILI group than in the SBI-A group (22.4±4.1 vs. 14.3±5.7, p=0.041). The number of patients with AAST LI grades I, II, III, IV, and V were 19 (32.7%), 22 (37.9%), 15 (25.8%), 2 (3.4%), 0 (0%), respectively.
Regarding the surgery-related variables, there was no significant difference between the groups, except in the amount of RBC transfusion. The SBI-LI group had significantly more RBC packs transfused than the SBI-A group (8.38±0.7 vs. 3.53±0.1 packs, p=0.035; Table 2).
The only significant difference in the outcome variables between the two groups was found for the length of ICU stay, which was significantly longer in the SBI-LI group than in the SBI-A group (6.7±0.2 vs. 11.1±0.5 days, p=0.047; Table 3). The mortality rate of the SBI-LI group was higher than that of the SBI-A group (22.4% vs. 14.3%), but this difference was not statistically significant (p=0.061; Table 3).
The small bowel, which occupies the widest space of the hollow viscus, is the most frequently injured organ in hollow viscus injuries [4]. Several scenarios may lead to an SBI with abdominal blunt trauma. First, a shearing force can easily be applied due to acceleration and deceleration in fixed areas, such as the ligament of Treitz, the ileocecal valve, or mesenteric vessels. Second, compression between the abdominal wall and the vertebral column may crush the small bowel. Third, a sudden increase in the intraluminal pressure in the small bowel during abdominal blunt trauma may cause a bursting injury [2,7-9].
With the increasing frequency of TAs, abdominal blunt trauma caused by motor vehicle accidents has come to account for the majority of small bowel perforations [2]. In our study, approximately 64% of traumatic small bowel injuries were caused by TAs, followed by falls (26%), and other causes (10%).
In the current study, the most frequent injury mechanism was passenger TAs in the SBI-A group, but pedestrian TAs in the SBI-LI group. SBI can be frequently caused by seat-belt injury [10], while LI can be easily caused by direct blunt trauma.
We investigated several prognostic factors, such as AIS scores, the initial hemodynamic status, time between the accident and surgery, operation time, amount of transfusion, and small bowel perforation. Higher AIS scores indicate multiple, severe trauma, which may be associated with more blood transfusions during the operation, a longer ICU stay, and higher morbidity rates [11,12]. The current study showed higher AIS, higher amounts of RBCs transfused, and longer ICU stays in the SBI-LI group than in the SBI-A group, which is a reasonable result. Regarding mortality, no significant difference was found. However, a study using a larger number of patients may show a significant difference between groups in this regard.
Initial hypotension is a known significant prognostic factor of blunt trauma [13,14]. However, its effect in this study was inconclusive, as no significant between-group difference was noted.
In SBI, surgical delay is known to be a poor prognostic factor [15]. However, it was difficult to elucidate the effect of surgical delay because the results of this study showed no significant difference between the two groups.
Although operation time is considered a prognostic factor for mortality, little research has been published on this matter. In our study, we investigated operation time as a possible factor related to mortality and morbidity. It was nearly identical in both groups, possibly because there were no cases of high-grade LI, and liver-related treatments were therefore almost never required.
There are several surgical techniques for traumatic bowel injury, and the preferred method has changed over the years. In the 1940s, stoma construction was preferred for traumatic bowel injury, but primary repair is now the preferred method [16]. In our study, resection of the injured bowel was the most frequently performed surgical procedure. In cases of bowel perforation or severe damage, primary repair alone may cause complications or require re-operation, which is why bowel resection was mainly performed.
In patients with traumatic bowel injury, LI can cause massive bleeding. Some research has investigated the transfusion amount as a prognostic factor in cases of trauma. Mostafa et al. [17] suggested that the Injury Severity Score, Glasgow Coma Scale, and packed-cell transfusion volume were independent predictors of mortality. We found that the SBI-LI group had significantly more RBCs transfused than the SBI-A group, which may have been the result of LI bleeding or other injuries associated with a higher AIS score. This may have affected the difference in morbidity between the two groups, but not the mortality.
The affected organ, such as the small bowel or colon, is related to the degree of peritoneal contamination and the specific risk of surgical intervention [2]. Furthermore, intraperitoneal contamination following bowel perforation can be an important prognostic factor. However, as this study was a retrospective study, we only investigated the presence of small bowel perforation and not the range and grade of contamination.
There are three limitations of this study. First, this study was limited by its retrospective design. In particular, we could not determine the effect of small bowel perforation because it was not possible to analyze the grade of contamination caused by bowel perforation. Second, it was difficult to investigate the true effect of LI because there were not many high-grade LI cases. If more cases of high-grade LI had been included, the results of this study may have been different. Third, this study was performed using data collected from a general hospital and not trauma centers; if data from trauma centers had been analyzed, the patient characteristics, treatments, and study results may have differed.
The SBI-LI group required more RBC transfusions and had longer ICU stays than the SBI-A group. The SBI-LI group had a higher mortality rate than the SBI-A group, although this difference was not statistically significant; thus, larger-scale follow-up research is needed.
Fig. 1.
Exclusion criteria: patients whose cause of death was not SBI or LI (eight cases of stabbing, 11 cases of cerebral hemorrhage, seven cases of pneumothorax, five cases of hemothorax, nine cases of pelvic fracture, six cases of major vessel injury, six cases of stomach injury, five cases of duodenal injury, and 15 cases of colon injury). SBI-A: small bowel injury alone, SBI-LI: small bowel injury accompanied by liver injury.
jti-2020-0052f1.jpg
Table 1.
Demographics
SBI-A (n=91) SBI-LI (n=58) p-value
Age 49.2±8.2 47.5±9.1 0.149
Male 62 (68.1) 40 (69.0) 0.213
 Underlying disease
 Heart failure 2 (2.2) 1 (1.7) 0.241
 Chronic renal failure 4 (4.4) 2 (3.4) 0.521
 Liver cirrhosis 7 (7.7) 4 (6.9) 0.385
 Chronic lung disease 2 (2.2) 0 (0.0) 0.249
Trauma mechanism
 Passenger TA 30 (33.0) 16 (27.6) 0.218
 Pedestrian TA 27 (29.7) 22 (37.9) 0.345
 Fall 25 (27.5) 14 (24.1) 0.418
 Others 9 (9.9) 6 (10.3) 0.311
AIS 14.3±5.7 22.4±4.1 0.041
Initial hypotension 23 (25.3) 19 (32.8) 0.069

Values are presented as mean±standard deviation or number (%).

SBI-A: small bowel injury alone, SBI-LI: small bowel injury accompanied by liver injury, TA: traffic accident, AIS: Abbreviated Injury Scale.

Table 2.
Surgery related variables
SBI-A (n=91) SBI-LI (n=58) p-value
Time to surgery (min) 175±21.4 140±18.1 0.271
Operation time (min) 371±32.8 415±30.7 0.061
RBC transfusion (pack) 3.53±0.1 8.38±0.7 0.035
Small bowel perforation 49 (53.8) 36 (62.1) 0.382
Operation
 Primary repair 26 (28.6) 18 (31.0) 0.419
 Small bowel R & A 71 (78.0) 40 (69.0) 0.390
 Bleeding control 11 (12.1) 6 (10.3) 0.201

Values are presented as mean±standard deviation or number (%).

SBI-A: small bowel injury alone, SBI-LI: small bowel injury accompanied by liver injury, RBC: red blood cell, R & A: resection and anastomosis.

Table 3.
Treatment results
SBI-A (n=91) SBI-LI (n=58) p-value
ICU stay (day) 6.7±0.2 11.1±0.5 0.047
Hospital stay (day) 26.9±1.5 33.5±2.7 0.092
Morbidity
 1,2,3 90 (98.9) 51 (87.9) 0.215
 4,5 24 (26.4) 27 (46.6) 0.031
Mortality 13 (14.3) 13 (22.4) 0.061

Values are presented as mean±standard deviation or number (%).

SBI-A: small bowel injury alone, SBI-LI: small bowel injury accompanied by liver injury, ICU: intensive care unit.

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