Clinical significance of abnormal chest radiographic findings for acute kidney injury in patients with scrub typhus
Article information
Abstract
Background
Abnormal chest radiographs are frequently encountered in patients with scrub typhus. This study aimed to investigate whether chest radiography on admission is significant as a predictive factor for acute kidney injury (AKI) in patients with scrub typhus.
Methods
From 2010 to 2016, 467 patients were diagnosed with scrub typhus in our hospital. We divided the patients into two groups: normal chest radiograph (NCR) and abnormal chest radiograph (AbNCR), based on chest radiography findings. The incidence, clinical characteristics, and severity of AKI were compared between AKI and non-AKI groups according to the RIFLE classification.
Results
Of the 467 patients, 96 (20.6%) constituted the AbNCR group. Compared with NCR patients, AbNCR patients were older (71 ± 11 vs. 62 ± 13 years, P < 0.001) and had higher total leukocyte counts (9.43 × 103/mL vs. 6.98 × 103/mL, P < 0.001). The AbNCR group had significantly longer duration of hospital stay (8.9 ± 5.5 vs. 6.3 ± 2.8 days, P < 0.001) and higher incidence of AKI (46.9% vs. 15.1%, P < 0.001). The common abnormal chest radiographic findings were pulmonary abnormalities, such as pulmonary congestion and pleural effusion. The overall AKI incidence was 21.6%, of which 12.4%, 7.9%, and 1.3% cases were classified as risk, injury, and failure, respectively. In a multivariable logistic regression analysis for association with AKI, old age, presence of chronic kidney disease or hypertension, leukocytosis, hypoalbuminemia, and chest radiographic abnormalities on admission were significant predictors of AKI.
Conclusion
Chest radiographic abnormalities on admission were independently associated with AKI in patients with scrub typhus.
Introduction
Scrub typhus is an acute febrile disease caused by infection with Orientia tsutsugamushi, and is characterized by focal and disseminated vasculitis that can involve many vital organs [1-3]. The spectrum of clinical severity for scrub typhus is vast, ranging from mild infection to a severe and fatal course [1-3]. Depending on the organs involved, patients may present with pneumonitis, acute respiratory distress syndrome, meningitis, myocarditis, acute kidney injury (AKI), or even multiple organ failure [3-5].
The incidence of AKI among scrub typhus cases has been reported to range from 21% to 43% [6-8]. Old age, comorbidities, and biomarkers, including serum neutrophil gelatinase-associated lipocalin, are associated with AKI development [8,9]. Also, pulmonary involvement is a well-known complication of scrub typhus and may vary in severity from mild bronchitis to severe acute respiratory distress syndrome requiring mechanical ventilation. Chest abnormalities associated with scrub typhus are interstitial pneumonia, cardiomegaly, pulmonary edema, pleural effusion, and focal atelectasis [10-13]. However, there are limited data about the association between chest radiographic abnormalities and AKI in patients with scrub typhus.
Therefore, we investigated the association between chest radiographic abnormalities and AKI in patients with scrub typhus.
Methods
Patient selection
Between 2010 and 2016, we reviewed 501 patients who presented with acute febrile illness and rash and were diagnosed with scrub typhus, which was confirmed by positive immunoglobulin M enzyme-linked immunosorbent assay (IgM ELISA; InBios International Inc., Seattle, WA, USA). Patients who were transferred to another hospital during treatment or had concomitant infections like leptospirosis, malaria, or dengue fever were excluded from the study. We also excluded patients who were not followed-up during complete renal function recovery or for at least three months after discharge. Patients who were transferred from a local hospital or who underwent anteroposterior (AP) chest X-ray on admission were also excluded from this study. Therefore, a total of 467 patients were enrolled in this study and were divided into two groups, normal chest radiograph (NCR) or abnormal chest radiograph (AbNCR), according to the chest radiography findings on admission. This study was approved by the Institutional Review Board of the Presbyterian Medical Center, Jeonju, South Korea (approval number: 2019-11-046).
Clinical and laboratory information
Patients’ baseline demographic, clinical, and laboratory data were reviewed upon admission and during the follow-up period. AKI was defined based on the RIFLE (acronym indicating Risk of renal dysfunction; Injury to the kidney; Failure of kidney function, Loss of kidney function and End-stage kidney disease) criteria, and patients were categorized into risk (R), injury (I) or failure (F) categories [14]. Estimated glomerular filtration rate (eGFR) was estimated using the abbreviated Modification of Diet in Renal Disease (MDRD) equation [15]. When baseline serum creatinine was not available, it was calculated using the standard four-variable MDRD formula, assuming an eGFR of 75 mL/min/1.73 m2. RIFLE category was assigned according to each patient’s worst values for serum creatinine, eGFR, and urine output criteria. Renal replacement therapy was initiated using standard indications. Chest radiograph images were reviewed by two radiologists and a final decision was reached by consensus. Plain chest radiographs were used to identify the following abnormalities: septal lines, pulmonary congestion, patchy consolidation, and focal atelectasis (Fig. 1). The presence of fissure thickening, pleural effusion, or cardiomegaly was also recorded. Previous abnormalities such as sequalae from pulmonary tuberculosis were excluded from this study. All data are presented as means ± standard deviations unless otherwise specified. Patient baseline characteristics from two groups were compared using the t test, chi-square test, or Fisher exact test, as appropriate. Clinically relevant parameters or the variables that were significantly associated with AKI from univariable analyses were included in the multivariable logistic regression analysis. A P value < 0.05 was considered statistically significant. Statistical analyses were carried out using IBM SPSS version 22.0 (IBM Corp., Armonk, NY, USA).
Results
Comparison of clinical characteristics between the NCR and AbNCR groups
Compared with NCR patients, AbNCR patients were older (71 ± 11 vs. 62 ± 13 years, P < 0.001) and more frequently had a history of chronic kidney disease (8.3% vs. 3.0%, P = 0.025) (Table 1). The duration of hospital stay was longer for AbNCR patients than NCR patients (8.9 ± 5.5 vs. 6.3 ± 2.8 days, P < 0.001). AbNCR patients had higher total leukocyte counts (9.43 × 103/mL vs. 6.98 × 103/mL, P < 0.001) and lower serum albumin levels than NCR patients (3.11 ± 0.50 vs. 3.72 ± 0.48 g/dL, P < 0.001). The incidence of AKI was higher in the AbNCR group than in the NCR group (46.9% vs. 15.1%, P < 0.001). Plasma alanine aminotransferase concentrations (ALT) were not different between the two groups.
Comparison of clinical characteristics between the AKI and non-AKI groups
Compared with non-AKI patients, AKI patients were older (71 ± 10 vs. 62 ± 13 years, P < 0.001) and were associated with a higher incidence of comorbidities, such as hypertension, diabetes, and chronic kidney disease (Table 2). AKI patients had worse renal function and were associated with a higher frequency of AbNCR (45% vs. 14%, P < 0.001) on admission. Inflammatory markers, such as total leukocyte count (10.01 × 103/mL vs. 6.78 × 103/mL, P < 0.001), were higher in AKI patients than in patients who did not develop AKI. Plasma ALT concentrations were not different between the two groups.
Clinical characteristics of AKI in patients with scrub typhus
Applying the RIFLE criteria, 58 (57.4%), 37 (36.6%), and 6 (5.9%) patients were classified into the R, I, and F categories, respectively. Prior to admission, 100 patients had AKI and six patients developed AKI during hospitalization. All except one patient recovered within three months without renal replacement therapy. Univariable analyses identified several significant factors associated with AKI: age, presence of comorbidities, such as hypertension, diabetes, or chronic kidney disease, occurrence of at least one episode of hypotension, thrombocytopenia, total leukocyte count, hypoalbuminemia, or chest radiographic abnormalities on admission. After adjusting for these factors in multivariable logistic regression analysis, age, chronic kidney disease, hypertension, hypoalbuminemia, leukocytosis, and chest radiographic abnormalities on admission were significant predictors of AKI (Table 3).
Chest radiographic findings in scrub typhus cases
Chest radiographs obtained on admission showed abnormalities in 20.6% (96/467) of patients. During hospitalization, 122 (26.1%) patients developed chest radiographic abnormalities (Table 4). The most common findings were pulmonary abnormalities (88.5%, 108/122), of which pulmonary congestion (36.9%, 45/122) and patchy consolidation (32.8%, 40/122) were common findings. Of the 122 patients with AbNCRs, 65 (53.3%) showed pleural effusions.
Discussion
Patients with AKI had a higher frequency of chest radiographic abnormalities than those without AKI, and the presence of chest radiographic abnormalities on admission was a significant predictor of AKI in scrub typhus patients. Therefore, our findings provide a rationale for checking chest radiographs on admission as a tool for predicting AKI in patients with scrub typhus.
Scrub typhus is endemic to geographically distinct regions, including Asia-Pacific countries. Common clinical manifestations of scrub typhus include fever, eschar, maculopapular rash, headache, myalgia, cough, nausea, vomiting, conjunctival injection, and dizziness [16]. It can cause multiorgan complications, including AKI, which has an associated incidence of 21% to 43% [4-6]. In this study, AKI incidence was 21.6%, which was similar to previous results. Additionally, old age, chronic kidney disease, hypertension, leukocytosis, hypoalbuminemia, and chest radiographic abnormalities on admission were significant predictors of AKI. Although there have been reports of chest radiographic findings in patients with scrub typhus, there is a paucity of literature about the clinical significance of chest radiography findings for AKI in patients with scrub typhus on admission. To our knowledge, this is the first study to show a correlation between renal and pulmonary involvement in patients with scrub typhus.
Although the exact pathophysiologic mechanisms are poorly understood, the underlying pathologic process contributing to pulmonary involvement in patients with scrub typhus is interstitial pneumonia, with or without vasculitis [12]. Hwang et al [17] reported that the lungs of mice infected with rickettsia showed marked dilatation and congestion of the septal capillaries, extravasation of red blood cells into the alveoli, and septal widening by lymphocytes and histiocytes. The incidence of chest radiographic abnormalities in patients with scrub typhus varies from 42% to 72%, with diverse radiologic findings, including pulmonary edema with air-space consolidation, interstitial pneumonia, cardiomegaly, and pleural effusion [12,18-20], of which bilateral diffuse areas of reticulonodular opacity and septal lines are the most common findings [12,13]. In our study, chest radiographic abnormality incidences on admission and during hospitalization were 20.6% and 26.1%, respectively, which were lower than previously reported, which may be due to referral bias. Previous studies have reported chest radiographic abnormality incidences from tertiary care centers; thus, those data were obtained from severe scrub typhus cases. In contrast, our hospital is a secondary care center and is located adjacent to a rural area. Thus, many patients may visit our hospital when they have an early-stage infection that has not progressed to severe disease. Indeed, Hwang et al [21] reported that the AKI incidence among scrub typhus cases in a tertiary care center was 35.9%.
Although severe scrub typhus is not clearly defined, severity is usually determined by organ involvement [22,23]. Patients with severe scrub typhus can experience multiple simultaneous organ failure because the central pathological mechanism of scrub typhus is widespread vasculitis or perivasculitis of multiple organs. Thus, Song et al [13] reported that patients with interstitial pneumonia tended to have a higher incidence of acute renal failure than patients without interstitial pneumonia. We investigated the correlation between renal and pulmonary involvement. Fifty patients (10.7%) experienced simultaneous pulmonary and renal involvement during hospitalization. Furthermore, chest radiographic abnormalities on admission were closely associated with AKI in scrub typhus patients. Therefore, it is essential to check chest radiographs for patients with scrub typhus to monitor renal function. Besides chest radiographic abnormalities on admission, old age, presence of chronic kidney disease, hypertension, leukocytosis, and hypoalbuminemia were significant predictors of AKI, which is consistent with previous findings. Thus, it is necessary to closely monitor renal function in scrub typhus patients who present with these risk factors.
Our study has some limitations. First, this was a retrospective study focused on a single center. Second, we did not enroll patients that were treated in an outpatient clinic. Thus, it is possible that we excluded patients with mild scrub typhus cases. A large prospective randomized controlled study is warranted to investigate the clinical significance of chest radiographic abnormalities in patients with scrub typhus.
The incidence of scrub typhus-associated AKI in our study was 21.6%. The incidences of chest radiographic abnormalities on admission and during hospitalization were 20.6% and 26.1%, respectively. Of the chest radiographic abnormalities, pulmonary abnormalities were most commonly observed, and the presence of chest radiographic abnormalities on admission was a risk factor for predicting AKI in scrub typhus patients. Therefore, performing chest radiograph on admission may aid in predicting AKI in these patients.
Notes
Conflicts of interest
All authors have no conflicts of interest to declare.
Authors’ contributions
Hyun Ju Yang and In O Sun designed the study. Sung-Min Kim, Jin Sol Choi, Ju Hwan Oh, and Mi Sook Lee participated in the data collection and performed the statistical analysis. In O Sun and Kwang Young Lee wrote the manuscript. A Young Cho and In O Sun provided intellectual content of the critical importance to the work and technical support. All authors read and approved the final manuscript.