Background
Acute cholangitis is an inflammation of the bile duct caused by biliary tract bacterial infection due to biliary tract obstruction. It is commonly related to biliary stones and biliary tract tumors; it can cause septic shock and multiple organ dysfunction in severe cases. Acute cholangitis has a high mortality rate up to 10% even after aggressive treatment [
1]. Timely biliary drainage and the use of appropriate antibiotics are the keys to improving the prognosis [
2,
3].
The pathogens of acute cholangitis ascend from the intestinal tract, mainly Gram-negative bacilli and Gram-positive cocci. Patients could be infected by either a single pathogen or a mixture of Gram-negative and Gram-positive bacteria. Both Gram-negative and Gram-positive bacteria can cause serious infections, resulting in sepsis or septic shock [
4,
5]. Currently, it is difficult for clinicians to determine the type of pathogens in acute cholangitis patients. The 2013 and 2018 Tokyo guidelines state that if a patient develops severe cholangitis, the choice of empiric antibiotics should be anti-Gram-negative bacteria while covering Gram-positive bacteria [
6,
7]. The guidelines emphasized that severe cholangitis could be due to a mixed infection of Gram-negative and Gram-positive, but there is no evidence to support it. After reviewing the literature, only a few reports compare the clinical features of Gram-negative and Gram-positive bacteria in acute cholangitis. There are no reports on the comparison of mixed infections of Gram-negative and Gram-positive bacteria vs. monomicrobial bacterial infections in acute cholangitis.
This study used retrospective data collection and analysis for two purposes: (1) to compare between Gram-negative and Gram-positive infections in acute cholangitis in terms of severity and organ dysfunction to provide evidence support for guidelines and to suggest proper empirical antibiotics; (2) to provide a prognostic evaluation of different types of bacterial infections in acute cholangitis and early prognostic judgment.
Methods
Study setting
In this retrospective observational study, all patients diagnosed with acute cholangitis admitted to the First Affiliated Hospital of Chongqing Medical University from July 2013 to July 2020 were investigated. The First Affiliated Hospital of Chongqing Medical University (CHMU) is a Grade III, Grade A general hospital in China. The Institutional Review Board of the First Affiliated Hospital of Chongqing Medical University approved this study.
Patient selection
Patients with community-acquired infection of acute cholangitis who met the diagnostic criteria of Tokyo Guidelines from July 2013 to July 2020 were selected [
8]. All enrolled patients received standardized treatment in accordance with the Tokyo Guidelines [
9], including the treatment with antimicrobials and anti-shock immediately, combined with ERCP (Endoscopic Retrograde Cholangiopancreatography) or surgical drainage to remove the biliary obstruction as soon as possible. Blood cultures or bile cultures were taken from all patients, and the blood samples were drawn before antibiotics administration. Bile was collected from patients for bile culture during surgery. Some patients were excluded due to: (a) being under the age of 18 years; (b) had no ERCP or surgical drainage performed; (c) no bile culture and blood culture taken; (d) fungal infection; (e) treatment was given in other hospitals before admission; (f) organ failure before onset; (g) abandoned treatment or transfer to other hospitals.
According to the pathological results of blood culture and bile culture, enrolled cases were divided into a No-growth group (no bacteria were cultured from bile and blood) and a bacterial growth group (bacteria were cultured from bile or blood). The bacterial growth group was divided into three subgroups: a Gram-negative group (only Gram-negative bacteria were cultured from bile and blood), a Gram-positive group (only Gram-positive bacteria were cultured from bile and blood), and a mixed Gram negative and positive group (Gram-negative and Gram-positive bacteria were cultured from bile or blood, including bile and blood culture of one is Gram-negative bacteria and the other is Gram-positive bacteria).
Data collection
The following clinical data were collected from each patient (a) age and gender; (b) co-morbidities/past medical history (cardiovascular disease, chronic pulmonary disease, history of malignancies, diabetes mellitus, chronic liver disease, chronic renal insufficiency, neurologic disorder, connective tissue disease); (c) history of any biliary procedures (including cholecystectomy, biliary stent placement, and biliary anastomosis); (d) the etiology of cholangitis (stones, tumor, or biliary stricture); (e) recurrence history; (f) clinical symptoms (fever, abdominal pain, and jaundice); (g) admission of appropriate initial antimicrobial therapy or not, which was defined as immediate admission of antimicrobials covering the causative microorganisms of blood or bile cultures; (h) biliary drainage procedure (ERCP or surgical operation); (i) the degree of illness (according to the Tokyo Guidelines cholangitis condition classification standard [
8]); (j) blood or bile culture results; (k) organ function impairment; (l) intensive care unit admission time; (m) the length of hospital stay; (n) the prognosis (death or recovery). APACHE II (Acute Physiology And Chronic Health Evaluation II) and SOFA (Sequential Organ Failure Assessment) scores were performed on patient admission to evaluate the degree of illness and organ damage.
Definitions used
Organ function impairment in this study was defined according to the Tokyo Guidelines organ damage standards [
8], which is neurological dysfunction with disturbance of consciousness, respiratory dysfunction: PaO2/FiO2 < 300, renal dysfunction with oliguria and serum creatinine > 2.0 mg/ dL, hepatic dysfunction with PT-INR > 1.5, and hematological dysfunction with platelet count < 100,000/mm3.
SEPSIS-3 criteria were used to define septic shock [
10] as vasoactive drugs were still needed under adequate fluid resuscitation to maintain mean arterial pressure greater than or equal to 65 mmHg.
Statistical analysis
SPSS 26.0 software (IBM, Armonk, NY, USA) was used for data processing and GraphPad drawing. The measured data were tested for normality by the explorative method. When the normal distribution was presented as mean ± standard deviation (x ± s), the non-parametric Kruskal–Wallis test was used to compare the groups when the normal distribution was not presented as median (quant). Enumeration data were expressed as frequency (percentage) and compared the groups using χ2 or Fisher’s exact test. The binary logistic regression model was used to analyze the risk of different pathogenic culture results on organ dysfunction. A Cox proportional-hazards regression model was used to assess the influence of different cultures on the risk of death. Cumulative probability curves were constructed for subjects with different culture results. P < 0.05 was considered statistically significant.
Discussion
We compared patients with acute cholangitis of different pathogenic origins regarding the severity of the disease, organ dysfunction, and the difference in prognosis. The results showed that mixed infection with Gram-negative and Gram-positive bacteria was more severe than monomicrobial negative or positive bacterial infections, more prone to organ dysfunction, and had a higher risk of death. There was no difference between the monomicrobial cultures with Gram-negative bacteria and Gram-positive bacteria.
There was no difference between Gram-negative and Gram-positive bacteria in our study regarding disease severity, organ dysfunction, and prognosis. Only a few reports in the literature compared the clinical characteristics and prognosis of acute cholangitis with Gram-negative and Gram-positive bacteria [
5]. There were reports on the clinical characteristics of Gram-negative bacteria and Gram-negative bacteria in other diseases. Se Yoon Park showed that necrotizing fasciitis caused by Gram-negative pathogen had poorer outcomes than the Gram-positive counterpart [
11]. Chao-Yung Yang [
12] reported that the severe sepsis, septic shock, and 28-day mortality rate caused by Gram-positive and Gram-negative were the same. Ching-Yu Lee [
13] also stated that Gram-negative and Gram-positive hematogenous pyogenic spondylodiscitis clinical outcomes were not different. Additionally, Zerelda Esquer Garrigo's [
14] study showed no statistically significant differences in 1-year survival rates between Gram-negative and Gram-positive bacteria groups in cardiovascular implantable electronic device infections.
Gram-negative bacterial infections are the most common in acute cholangitis [
15], while Gram-positive bacterial infection has gradually attracted attention recently [
5,
16‐
19]. Moreover, many studies reported that the infection rate with Gram-positive bacteria was higher for cholangitis in liver transplantation patients than Gram-negative bacteria [
20]. Lipopolysaccharides (LPS) are important outer membrane components of Gram-negative bacteria that cause disease and organ dysfunction [
21]. Gram-positive pathogens can cause organ damage by releasing exotoxin and other bacterial components, such as peptidoglycan and lipoteichoic acids, which can also cause systemic inflammation [
21]. Gram-negative and Gram-positive bacteria are different bacterial species, and the pathogenic toxins are different, but both types of bacteria can induce inflammation in the body and ultimately lead to organ dysfunction. So in monomicrobial infection, the effect of causing damage to the body may be the same, leading to no difference in organ dysfunction. The current guidelines for acute cholangitis address Gram-negative bacteria first, but according to the clinical manifestations and severity of the disease, Gram-positive infections also need to be considered. Monomicrobial infections pose a challenge to the choice of antibacterial drugs because many antibiotics mainly cover either gram-positive bacteria or gram-negative bacteria.
In our study, the mixed Gram-negative and Gram-positive bacteria culture rate was 35.1%, second only to Gram-negative, accounting for 49.5%, which was consistent with other studies [
22]. Some studies even found that the proportion of mixed infections was higher than that of monomicrobial infections [
23].
Mixed Gram-negative and Gram-positive bacterial infection in cholangitis showed the most severity, probability of causing organ dysfunction, and the worst prognosis in our study. In acute cholangitis, no existing studies compared monomicrobial bacterial infections with mixed Gram-negative and Gram-positive bacteria infections regarding organ dysfunction and prognosis. However, it has been suggested in the literature that a variety of bacteria cultured in bile may not be clinically meaningful and non-pathogenic [
24]. Nevertheless, in other disease research, the same conclusions as this research were reached. M. Norizuki concluded that the combined infection of Gram-positive and Gram-negative bacteria had higher mortality than monomicrobial infection with Gram-negative or Gram-positive bacteria (57% vs. 27%) [
25]. Other studies also confirmed that mixed Gram-negative and Gram-positive bacteria infection was more likely to cause septic shock and had a higher mortality rate and severity [
26].
The pathogenesis of infections caused by Gram-negative and Gram-positive bacteria is not the same [
21]. Mixed microbial infection of the two microorganisms could cause the pathogenic factors to work together, elevating the disease’s severity. Studies have shown that patients with mixed infection had more serious organ function damage and a higher occurrence of sepsis, which may be related to the synergistic effect of the cell wall fragments of Gram-negative and Gram-positive bacteria [
26‐
28]. On the other hand, patients with mixed infections may have poor immunity, and once they are infected, their condition becomes more severe. Therefore, mixed infection with Gram-negative and Gram-positive bacteria should be considered in severe acute cholangitis (Grade III). This finding provides evidence to support the Tokyo Guidelines anti-infective treatment guidelines for cholangitis [
6,
7], which states that if the patient is infected with severe cholangitis, antibiotic treatment should also cover Gram-positive bacteria.
The present study has some limitations as it is a single-center retrospective study with a small number of included cases and a lack of regional representation, which requires further verification by a multi-center study with larger sample size. Not all patients have completed both blood culture and bile culture, and some patients only have blood culture or bile culture. We excluded many patients who had no etiological examination, as many patients take anti-infective drugs before admission, resulting in difficulties in getting a positive culture and bias in the results. Infection with drug-resistant bacteria affects the severity of the disease, damage to organ function, and prognosis. Moreover, this study did not rule out the impact of drug-resistant bacteria on the outcome.
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