The liver is the organ that is most affected by penetrating chest traumas, and is the second most affected organ in closed traumas (78%) after the spleen (92.7%), according to the US National Trauma Data Bank (NTDB).1 The most common causes of hepatic trauma are road traffic accidents, accidental falls and violent attacks.2–5 At present, non-surgical treatment (NST) is the treatment of choice for at least 20% of HT that require surgery.6–11 The two main parameters used to predict the need for emergency surgery in HT patients are: the Injury Severity Score (severity >25 points)4 and blood pressure upon admission. The patient's haemodynamic stability on arriving at the emergency department or following initial resuscitation is the main criterion to decide whether NST should be used for a closed HT. The benefits of NST include fewer surgery-related complications, fewer transfusions, a lower infection-related morbidity and a shorter hospital stay.12–14 Mortality in HT is currently between 4% and 15% and depends on the type of injury and injuries related to other extra-abdominal organs.1,3,6,8

The objective of this article is to discuss a recent study with 146 HT patients attended to in our hospital over an 8-year period (2001–2008), comparing it to a previous study15 of 92 cases (1977–1984). It analyses the aetiology, diagnosis, treatment and post-operative morbidity and mortality for the two studies.

Our study includes 146 cases, recorded over an 8-year period. The average age was 29.6±15.2 years compared with 30.3±14.9 years from the previous study.15 Seventy-five percent of the patients was male in both studies.

In most studies,6,11,13 5% of polytraumatised patients present with HT, mainly males in their twenties and thirties. As reported in our study, the most common cause is road traffic accidents (65%–70%), which is reflected in the literature.1,7,9,10,13–16

To assess hepatic injuries, we used the AAST scale (Liver Injury Scale),4 which has 6 grades of severity. In most studies the most common injuries are grade II, whereas the most severe (grades IV, V, VI) do not reach 10%. In our study, 13% was grade I; 39% grade II; 33% grade III; 8% grade IV; 6% grade V and 1% grade IV. These results are in line with previous studies. Furthermore, our data on related injuries matches those described by most authors.6,9,13,15

At present, the most useful complementary examinations are abdominal ultrasound and CT scans with intravenous contrast. Abdominal ultrasound is the initial imaging test, with 82%–88% sensitivity and 99% specificity to detect intra-abdominal injuries, although precision always depends on the surgeon's experience.12 CT scan is the most sensitive technique to determine the HT's extension and severity3,11,17 and it is the imaging test that provides most information for polytraumatised patients, given that the cranium, chest, abdomen and pelvis, as well as bone, viscera and soft tissue can be seen extremely clearly. The dawn of helical technology has improved resolution, reduced examination time and allowed three-dimensional images to be reconstructed, which is really useful if there is vascular involvement.17 Based on data obtained with the CT scan (false negatives ranges 0%–16% and false positives for liver and spleen injuries 5%), and if the patient is haemodynamically stable, we can choose conservative treatment or NST.4–11 In our study, CT scans were performed on 124 of the 146 patients (84.9%). Fewer diagnostic peritoneal lavage or PLP were indicated, given the advent of more modern imaging techniques. Although detection of intraperitoneal blood has 98% precision, it lacks specificity for the injured organ, which causes many unnecessary laparotomies. In the previous study, however, it was the most used complementary examination technique. At present, it is used when diagnosis is not clear, when the CT scan or ultrasound are unspecific or to rule out intestinal injuries for patients with closed traumas or knife wounds.4,5 In haemodynamically unstable patients, ultrasound or (if not available) PLP are used to detect free fluid in the abdomen, both being more appropriate than CT scans for the initial examination.4,7,15,19 This is because PLP sensitivity and specificity are equal to that of CT, or even better (96% sensitivity compared to 74%).15 Diagnostic laparoscopy is not very useful for closed HT management, but it is mainly indicated to assess intra-abdominal injuries, in stable patients with penetrating traumas caused by knife wounds.4,15,19 However, its use is more controversial for penetrating traumas caused by gunshot wounds. Traditionally, initial treatment has been surgery, but according to recent reporting, conservative treatment could be adopted for up to 28% of cases which are haemodynamically stable and free of related intestinal injuries.3,11,15,18,19 Arteriograms are used to locate active bleeding or when vascular injury is suspected from the CT scan or ultrasound. They also allow us to embolise the bleeding vessel, by placing coils or other haemostatic devices and even, in exceptional cases, perform occlusion using a Fogarty balloon to stabilise the patient before surgery.3,17 Furthermore, they can be used to treat post-traumatic pseudoaneurysms in the viscera if bleeding were to recur.17 In our study, abdominal ultrasound was performed for 48 cases (32.9%) and an abdominal CT scan in 124 cases (84.9%), all with haemodynamic stability. Four (2.7%) haemodynamically unstable patients underwent a PLP. Diagnostic-therapeutic laparoscopy was performed on 5 haemodynamically stable patients, 3 of whom had penetrating trauma caused by knife wounds. Diagnostic or therapeutic preoperative angiography was not performed on any patient, although it was used to treat postoperative complications (post-traumatic intra-hepatic pseudoaneurysms).

NST is based on vast experience achieved by treating children with closed hepatic and splenic traumas.21 Meanwhile, in most cases, the natural evolution of HT is spontaneous haemostasis, since 50%–80% of cases have stopped bleeding when the laparotomy takes place.20 This, together with an elevated morbidity (15%–40%) related to unnecessary laparotomies,20 and given that 77% of patients are haemodynamically stable when they arrive at the emergency department3 suggests that NST should be the first therapeutic choice. At present, NST is the treatment of choice in more than 80% of the studies published with closed hepatic traumas1,3,5–9,12 with a success rate over 90%.6,7,12 However, a NST patient must fulfil a series of selection criteria that consist of the following in most studies3–8,20: (1) the patient must be haemodynamically stable (systolic blood pressure >90mm Hg; heart rate <100 beats/min., normal base excess and lactates) when he or she arrives at the emergency department or following initial resuscitation (≤2000ml fluids, according to the Advanced Trauma Life Support ([ATLS®]); and (2) no signs of peritoneal irritation. Some authors3,7 think that an NST would fail in high-risk patients, which could be identified by a haemoperitoneum of more than 500cm3, age>65 years, pseudoaneurysms or an intravenous radiological contrast leakage. In our study, 98 of the 146 cases (67%) underwent NST, 97 of which had closed traumas, and the other case had a gunshot wound. All cases met the criteria to be included in this group. As per the AAST grading scale, 79% of those that underwent NST (15 cases) were grade I; 75.4% (43 cases) were grade II; 68.8% (33 cases) grade III; 41.7% (5 cases) grade IV; 25% (2 cases) grade V and no case was grade VI. At present, there is controversy concerning the treatment of choice for penetrating HT caused by gunshot wounds. Some authors3,18,22 always use NST when the closed trauma meets the criteria described above for NST: i.e. the patient is haemodynamically stable, has no signs of peritoneal irritation and no hollow viscera injuries. This is supported by the treatment's effectiveness in penetrating traumas caused by knife wounds, together with an elevated incidence of complications that surgical treatment has.3,7,8,11,18,19,22,23 We do not agree with this, and all our patients with knife wounds were submitted to surgical treatment. This is more controversial for penetrating traumas caused by gunshot wounds. The criteria necessary for NST are the same as those described above for closed traumas and knife wounds. Some authors3,11,15,18,19 believe that 30% of isolated liver injuries caused by gunshot wounds (excluding hollow viscera injury by CT) can be treated conservatively in haemodynamically stable patients, and that the role of arteriogram with bleeding vessel embolisation is essential in cases in which contrast extravasation appears on the CT scan.3,18 Only one patient with a gunshot wound received an NST, given that he or she was haemodynamically stable and that the presence of related intra-abdominal injuries was ruled out using the CT scan. The patient evolved satisfactorily and the CT scan showed that the trauma had resolved.

NST failure ranges between 3% and 11% in most studies2,6,10,20 and may be due to the liver injury itself (recurrent bleeding for 40%–50% of cases) or related abdominal injuries which had not been diagnosed previously. In our study, 102 patients initially underwent NST, although 4 patients had to be reintervened, meaning that 98 patients received an NST. Therefore, in our study there was 3.9% of NST failure. This could be explained because the percentage of cases that directly underwent surgical treatment is higher than that in other studies.7,12,20

Surgery is indicated if the patient has haemodynamic shock that does not respond to initial resuscitation with fluid therapy, if NST fails, and in patients with related intra-abdominal injuries subsidiary to surgical treatment.

Immediate haemostasis is essential during surgery, which is often achieved with temporary packing. If hepatic haemostasis is not achieved with packing, the liver hilum is clamped (Pringle manoeuvre). Suprahepatic and/or retrohepatic caval injuries should be suspected if bleeding continues.2–5 Once bleeding is controlled, a decision must be made as to whether the patient should undergo injury repair surgery or damage control surgery (i.e. packing maintenance). This decision depends on how complex the injuries are, the surgeon's experience in hepatic surgery, and the patient's situation. Damage control surgery should be chosen when the surgeon is inexperienced, if the patient has to be referred to another centre for temporary bleeding control, if haemostasis is not achieved with conventional techniques, and if the patient is in a situation of coagulopathy, acidosis and hypothermia. This is because it is a quick and easy technique.2,3,5,6 Focussing on treating injuries, especially those in veins, haemostasis with compression is achieved in most cases and is often controlled by electrocoagulation with an argon scalpel, local haemostasis manoeuvres (clips and sutures) and haemostatic agents.3–5 Profuse arterial bleeding needs haemostatic suture or ligation of vessels.2,6 Haemostasis is achieved for 80%–85% of hepatic injuries using these techniques (generally grade I–II injuries). In the remaining 15%–20%, packing may need to be used, or even in exceptional cases a selective ligature of the relevant hepatic artery should be performed.5 Once bleeding is controlled, debridement should be performed in the areas of necrosis as necessary. Conventional, regulated hepatectomies are not indicated as patients generally have refractory hypovolemic shock with uncontrolled coagulopathy and severe acidosis. It may be indicated when the trauma has almost caused the resection and it is performed by an experienced hepatic surgeon.2–5 For severe hepatic lesions (grade IV–V), including large hepatic veins and retrohepatic caval vein, the technique of choice to control bleeding is liver packing.3,5,9 In fact, patient survival improves the earlier that packing is applied. Liver packing is performed for 4%–8% of cases that need surgery,4,9,12 and in those cases, the abdomen is closed temporarily. Intra-abdominal pressure must be monitored to prevent intra-abdominal hypertension-induced compartment syndrome.3,5 Packing must be maintained 24–48hours to avoid bleeding recurrence, but packing removal should not exceed 72hours, as it has been shown to increase infectious complications. In most studies, a survival rate of 42%–66% has been achieved for hepatic packing of complex liver injuries.3,9 In our study, 48 of the 146 cases (33%) underwent surgical treatment. In 31 cases surgery was indicated due to related injuries (21.3%) and in the remaining 17 (11.7%) due to the hepatic injury.

Postoperative mortality is less than 10% in most studies,1,6–8,10,13,20 where mortality caused by hepatic injuries and for other causes are analysed separately, the former usually being less than 4%. In our study, overall mortality was 3.4% (5 cases); 2 patients died because of a grade VI liver injury (1.4%) and the remaining 3 cases because of related abdominal injuries (2 cases) and extra-abdominal problems (1 case). Mortality was greater in patients who underwent surgery (8.3%; n=4/48 patients) compared to those who received an NST (1%; 1/98).

In summary, HT treatment has changed over the past 30 years, with the systematic surgical approach changing to NST in most cases, reducing postoperative morbidity and mortality. The essential factor for using an NST is to control the patient's haemodynamic stability, leaving surgical treatment for haemodynamically unstable patients.

The authors have no conflicts of interest to declare.