|Clinical and laboratory findings associated with severe scrub typhus.|
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|PMID: 20433689 Owner: NLM Status: MEDLINE|
|BACKGROUND: Scrub typhus is a mite-borne bacterial infection of humans caused by Orientia tsutsugamushi that causes a generalized vasculitis that may involve the tissues of any organ system. The aim of this study was to identify factors associated to severe complications from scrub typhus. METHODS: We conducted this prospective, case-control study on scrub typhus patients who presented to the Department of Internal Medicine at Chosun University Hospital between September, 2004 and December, 2006. Cases were 89 scrub typhus patients with severe complications and controls were 119 scrub typhus patients without severe complications. RESULTS: There were significant differences in the absence of eschar, white blood cell (WBC) counts, hemoglobin, albumin, serum creatinine, fibrinogen, C-reactive protein (CRP), and active partial thromboplastin time (aPTT) between the two groups. Multivariate analysis demonstrated that only the following four factors were significantly associated with the severe complications of scrub typhus: (1) age >or= 60 years (odd ratio [OR] = 3.13, P = 0.002, confidence interval [CI] = 1.53-6.41), (2) the absence of eschar (OR = 6.62, P = 0.03, CI = 1.22-35.8, (3) WBC counts > 10, 000/mm3 (OR = 3.6, P = 0.001, CI = 1.65-7.89), and (4) albumin <or= 3.0 g/dL (OR = 5.01, P = 0.004, CI = 1.69-14.86). CONCLUSIONS: Our results suggest that clinicians should be aware of the potential for complications, when scrub typhus patients are older (>or= 60 years), presents without eschar, or laboratory findings such as WBC counts > 10, 000/mm3, and serum albumin level <or= 3.0 g/dL. Close observation and intensive care for scrub typhus patients with the potential for complications may prevent serious complications with subsequent reduction in its mortality rate.|
|Dong-Min Kim; Seok Won Kim; Seong-Hyung Choi; Na Ra Yun|
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|Type: Journal Article; Research Support, Non-U.S. Gov't Date: 2010-04-30|
|Title: BMC infectious diseases Volume: 10 ISSN: 1471-2334 ISO Abbreviation: BMC Infect. Dis. Publication Date: 2010|
|Created Date: 2010-05-28 Completed Date: 2010-07-15 Revised Date: 2010-09-28|
Medline Journal Info:
|Nlm Unique ID: 100968551 Medline TA: BMC Infect Dis Country: England|
|Languages: eng Pagination: 108 Citation Subset: IM|
|Division of Infectious Diseases, Department of Internal Medicine, Chosun University School of Medicine, Gwangju City, Republic of Korea.|
|APA/MLA Format Download EndNote Download BibTex|
Orientia tsutsugamushi / isolation & purification*
Scrub Typhus / complications*, epidemiology, pathology*
Journal ID (nlm-ta): BMC Infect Dis
Publisher: BioMed Central
Copyright ?2010 Kim et al; licensee BioMed Central Ltd.
Received Day: 8 Month: 10 Year: 2009
Accepted Day: 30 Month: 4 Year: 2010
collection publication date: Year: 2010
Electronic publication date: Day: 30 Month: 4 Year: 2010
Volume: 10First Page: 108 Last Page: 108
Publisher Id: 1471-2334-10-108
PubMed Id: 20433689
|Clinical and laboratory findings associated with severe scrub typhus|
|Dong-Min Kim13||Email: email@example.com|
|Seok Won Kim2||Email: firstname.lastname@example.org|
|Seong-Hyung Choi1||Email: email@example.com|
|Na Ra Yun1||Email: firstname.lastname@example.org|
1Division of Infectious Diseases, Departments of Internal Medicine, Chosun University School of Medicine, Gwangju City, Republic of Korea
2Department of Neurosurgery, Chosun University School of Medicine, Gwangju City, Republic of Korea
3Research Center for Resistant Cell, Chosun University, School of Medicine, Gwangju City, Republic of Korea
Scrub typhus is a mite-borne bacterial infection of humans caused by Orientia tsutsugamushi that leads to generalized vasculitis which may involve the tissues of any organ systems [1,2]. Reported severe clinical manifestations or complications of scrub typhus include interstitial pneumonia, acute renal failure, meningoencephalitis, gastrointestinal bleeding, and multiple organ failures. Since patients with scrub typhus may die from such complications, we should pay close attention to this disease entity [3-6]. Most patients with scrub typhus can recover without specific complications with early diagnosis and management. Its early clinical manifestations are nonspecific and are characterized by fever, chill, headache, and myalgia. Recent studies on the clinical characteristics of scrub typhus have reported many abnormal laboratory findings [2,7]. However, there have been a few studies on the markers for the severity of scrub typhus . It is necessary to determine the predictors that identify markers of severe disease in order to reduce the mortality due to the high incidence of severe manifestations or complications and the delay in treatment. Based on the markers, severe disease-prone patients can be admitted earlier to a hospital or transferred to a well-equipped institution. Close observation and intensive care can prevent complications and severe morbidity or mortality. Therefore, this study was conducted to identify the markers associated with severe scrub typhus.
Between September 1, 2004 and December 31, 2006, we conducted a prospective study on patients suffering with possible scrub typhus infections who presented to the Department of Internal Medicine at Chosun University Hospital located in the southwestern part of Korea with acute febrile diseases. Of the patients, those aged ? 18 years who showed eschar or maculopapular skin rashes or were diagnosed clinically as having possible scrub typhus by the specialist in infectious diseases were enrolled for the study. The diagnosis of scrub typhus was confirmed when an indirect immunofluorescent antibody assay (IFA) IgM titer against O. tsutsugamushi increased to ? 1:80 or an IFA titer against O. tsutsugamushi increased four times or more .
Severe scrub typhus was defined if it showed the following conditions: (1) pneumonia that revealed parenchymal lung lesions on chest radiographs and cough or dyspnea, (2) renal failure that revealed estimated creatinine clearance less than 50 using the Cockcroft-Gault formula , (3) meningoencephalitis that exhibited altered mental states such as confusion, obtundation, stupor, or coma without evident causes such as shock or hypoglycemia, or the presence of both severe headaches and neck stiffness, or cerebrospinal fluid (CSF) counts of ? 5 leukocytes/mm3, (4) shock, which is defined by a systolic blood pressure less than 90 mmHg (or a fall in systolic blood pressure of > 40 mmHg), (5) myocarditis, (6) GI bleeding, or (7) death.
The confirmed scrub typhus patients were divided into two groups: a case group with severe scrub typhus and a control group without severe scrub typhus.
At presentation, a thorough history taking, physical examination, and hematologic laboratory tests were performed in the patients who were enrolled in this study. In addition, scrub typhus-like diseases, including murine typhus, leptospirosis, epidemic hemorrhagic fever, and systemic lupus erythematosus were excluded based on the laboratory tests and clinical features. Signed informed consent was obtained for each patient before the patients were included in the study. This study was approved by the Institutional Review Board of our hospital.
The collected data were stored using the computer program. Continuous data are expressed as mean ? SD, and the comparisons of the means between the two study groups were made using the unpaired t test. Nominal data are expressed as frequency or proportion, and the chi square test and the Fisher's exact test were applied to compare the differences in proportion between the two study groups. The associations between markers and severe scrub typhus were determined using the chi square test and the univariate logistic regression analysis. Input variables for the multivariate analysis were selected from significant variables obtained from the univariate analysis. In order to determine the markers related to the occurrence of severe scrub typhus, the multivariate logistic regression analysis was performed with the independent variables being those significantly associated with severe scrub typhus in the univariate analysis as independent variables. The linearity of continuous variables was explored and dichotomized using the mean as the cutoff point before the model fitting. The model was fitted using both backward and forward model selection methods. The odds ratio with 95% confidence intervals are presented to examine the statistical significance. Statistical analyses were performed using the SPSS software, version 12.0 (SPSS Inc, Chicago, IL).
A total of 333 patients fulfilled the criteria for possible scrub typhus infection during the study period. Of those, 87 patients did not meet the inclusion criteria (44 patients refused to enroll in our study, 40 patients were confirmed as disease other than scrub typhus, and 3 patients had concurrent infection with hemorrhagic fever with renal syndrome). We could not confirm as scrub typhus in 38 patients due to failure to demonstrate a fourfold or greater rise in antibody titer. Hence, a total of 208 patients were finally confirmed to have scrub typhus by serology.
Severe scrub typhus such as pneumonia, renal failure, meningoencephalitis, shock, gastrointestinal bleeding, myocarditis, and death was observed in 89 of 208 (42.8%) patients with a definitive diagnosis of scrub typhus. This content is summarized in table 1. Patients were divided into two groups: case group with severe scrub typhus (n = 89) and control group without severe scrub typhus (n = 119).
Presenting symptoms and signs and laboratory findings at the initial visit are summarized in Table 2. The mean age of the case group was 68.56 ? 11.1 years, which was greater than that of the control group. There was no significant difference in duration from disease onset to effective antibiotics (such as tetracyclines, macrolides, and rifamycins) between the cases and the controls. However, there were significant differences in the presence of eschar, WBC counts, hemoglobin, albumin, serum creatinine, fibrinogen, C-reactive protein (CRP), and active partial thromboplastin time (aPTT) between the two groups (Table 2); Many confidence intervals in variables of Table 2, 3 are relatively wide. The linearity of continuous variables was dichotomized using the mean as the cutoff point, and the univariate logistic regression model was fitted to test for correlations between the severe scrub typhus and the seven factors, showing that there were significant correlations (Table 3). The seven factors were as follows: (1) age ? 60 years, (2) the absence of eschar, (3) WBC counts > 10, 000/mm3, (4) hemoglobin ? 10 g/dL, (5) albumin ? 3.0 g/dL, (6) serum creatinine > 1.4 mg/dL, and (7) CRP > 10 mg/dL. Since the serum creatinine level was included in the definition of severe scrub typhus, six factors except this one were included in the multivariate model for severe scrub typhus. Since both backward and forward model selection methods produced similar results, data from the forward selection model are presented.
Multivariate analysis demonstrated that only the following four factors were significantly associated with the severe scrub typhus (Table 4): (1) age ? 60 years (OR = 3.13, P = 0.002, CI = 1.53-6.41), (2) the absence of eschar (OR = 6.62, P = 0.03, CI = 1.22-35.8), (3) WBC counts > 10, 000/mm3 (OR = 3.6, P = 0.001, CI = 1.65-7.89), and (4) albumin ? 3.0 g/dL (OR = 5.01, P = 0.004, CI = 1.69-14.86).
Scrub typhus is a noticeable mite-borne disease with its incidence being highest in Korea . There have so far been a few reports on severe complications and the mortality rate of scrub typhus . Varghese et al  have reported that in 50 patients with the elevated IgM antibody who presented with fever in the southern part of India, the elevated serum creatinine level is an independent predictor for fatal outcome of scrub typhus patients. However, in their study, age, albumin, the absence or presence of eschar were not evaluated, and its sample size was too small to determine the risk factors.
In this study, by multivariate analysis, age ? 60 years, the absence of eschar, WBC counts > 10, 000/mm3, and albumin ? 3.0 g/dL were found to be independently predictive variables for the occurrence of severe scrub typhus.
The occurrence rates of eschar are reported to differ among regions . Eschar could be detected relatively frequently in reports in Japan and Korea [12,13], but relatively less in Thailand and Taiwan [14,15].
In our study, mean duration from disease onset to effective antibiotic therapy (days) is not different between the scrub typhus patients with and without severe severity. Assuming that the hospital visit is delayed according to absence of rash or eschar, the length of time from the onset of clinical symptoms to the initial hospital visit was analyzed in the patients with eschar and those without eschar. In this analysis, the length of time from the onset of clinical symptoms to the hospital visit was 10.43 ? 6.442 days in the patients without eschar and 7.24 ? 4.32 days in those with eschar, and the difference was statistically significant (data not shown, P = 0.011). Most scrub typhus patients with eschar are presented with rash in our study. Patients with rash or eschar tend to go see a doctor earlier in the disease course. In a Mediterranean spotted fever report , a fatal outcome was significantly more likely for patients infected with the ISF strain than Malish strain. Eschar was observed in a significantly higher percentage of patients infected with the Malish strain (60%), compared with patients infected with the ISF strain (38%). In that study, even though ISF strain infected patients received effective antirickettsial treatment earlier in the course of the disease, fatality was much higher. In scrub typhus patients, there is a possibility of the differences in severity or clinical features like rash or eschar according to the serotypes or genotypes of O. tsutsugamushi; It is possible that scrub typhus patients contracted with more virulent strain have lower incidence of rash or eschar. Large scale studies are needed to confirm the difference in virulence according to their genotypes or serotypes.
Varghese et al  reported that median age of scrub typhus patients in the southern part of India was 36.5 (range: 12-75 years), and the mortality rate was 14%. In one study from Taiwan, Lai CH et al  reported that mean age of scrub typhus patients was around 43. Watt G et al  reported the case fatality rate of 15% ~30% in scrub typhus patients from Thailand. However, in our study, only one patient died of scrub typhus and there was no one who needed ventilation support or renal replacement therapy. In Korea the population of the farming villages in rural areas is getting old just like one study from Japan [2,11], the greatest number of scrub typhus patients in Korea was in the age group 50-69 years. Many papers reporting scrub typhus in Korea have presented mortality much less than 10% . Despite the fact that this study included older patients than other studies, the mortality rate was relatively lower. One plausible explanation for this result is that our patients visited the hospital earlier, were diagnosed with scrub typhus at the early stage, and subsequently received appropriate treatment quickly because more than 90% of our patients had an eschar or rash. Another explanation is that scrub typhus patients enrolled in our study were infected with O. tsutsugamushi of relatively lower virulence. However, further studies are needed to confirm the relationship between the presence of eschar and the mortality rate. In addition to the presence of eschar, WBC counts were significantly higher in the severe scrub typhus group, suggesting that this group was more seriously infected and was accompanied by more severe inflammation.
In this study, 16.3% of patients with a definitive diagnosis of scrub typhus showed albumin ? 3.0 g/dL, and the serum albumin level decreased significantly in the severe scrub typhus group (31.5% in the severe scrub typhus group vs. 5.1% in the control group; P < 0.001). Although the pathogenetic mechanisms for hypoalbuminemia in patients with scrub typhus have not yet been elucidated, it is postulated that vasculitis, the main pathology of scrub typhus, increases vascular permeability, and thus plasma protein leaked from the blood vessels with subsequently leading to hypoalbuminemia. Min et al  have demonstrated that patients with scrub typhus showed intestinal protein loss by measuring the concentrations of ?-1-antitrypsin in the stool, and that 11 of 14 patients with scrub typhus revealed intestinal albumin loss by 99mTc-human serum albumin (HSA) abdominal scintigraphy. The presumed mechanism for the intestinal albumin loss is the increase in permeability due to vasculitis of the capillaries and arterioles . It is well known that in patients with sepsis, hypoalbuminemia has a significant correlation with the severity and mortality rate of the disease, and that the mortality of patients with sepsis become higher with the increasing severity of hypoalbuminemia . Because hypoalbuminemia could be a complication of liver cirrhosis, we reassessed the serum albumin level excluding the patients with liver cirrhosis; But serum albumin level was still decreased significantly in the severe scrub typhus group (data not shown).
There are some limitations in this study. First, we could not ascess the mortality risk factors because of lack of the number of deceased patients. Second, we could not evaluate the differences in severity or mortality or difference in virulence according to genotypes or serotypes of O. tsutsugamushi. Third, only hospitalized patients were included. Fourth, the diagnosis of scrub typhus was based on serologic analysis alone, not by PCR or culture. Finally, the application of our results to other regions may be limited because of the geographic differences in prevailing serotype;In Korea, most of them is Boryong serotype a with high chance of eschar formation.
Nevertheless, these four parameters suggested in our study are simple and can be checked in most hospitals, even in developing countries. The presence of one or more of these four risk factors for severe scrub typhus should alert physicians to provide close monitoring and intensive care, which can prevent severe morbidity or mortality.
In summary, the results of this study suggest that clinicians should be aware of the potential for severe scrub typhus, when scrub typhus patients are older (? 60 years), present with the absence of eschar, or laboratory findings such as WBC counts > 10, 000/mm3, and serum albumin level ? 3.0 g/dL. Close observation and intensive care for scrub typhus patients with the potential for severe manifestations may prevent severe morbidity or mortality.
The authors declare that they have no competing interests.
DK made a substantial contribution to draft the manuscript and revised the draft all over the course of submission. SC and NY participated in revision of the manuscript. SK conceived of the study, participated in its design and coordination and drafted the manuscript. All authors read and approved the final manuscript.
The pre-publication history for this paper can be accessed here:
This work was supported by the Korea Science and Engineering Foundation (KOSEF) grant funded by the Korea government (MEST) through the Research Center for Resistant Cells (R13-2003-009).
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Distribution of severe scrub typhus cases
|Renal failure||32 (15.4%)|
|Gastrointestinal bleeding||6 (2.9%)|
Demographic, clinical characteristics and laboratory findings on admission of the 208 scrub typhus patients
|Characteristics||Severe scrub typhus (n = 89)||Non-severe scrub typhus (n = 119)|
|?Age, mean years ? SD*||68.56 ? 11.1||57.32 ? 15.7|
|?Gender, no. of male/no. of female (% of male)||28/61(31.5)||43/76(36.1)|
|?Duration of illness before admission, days||8.13 ? 5.4||6.95 ? 3.7|
|?Length of hospitalization, mean days ? SD*||11.5 ? 9.6||7.21 ? 2.8|
|?Mean duration from disease onset to effective antibiotic therapy (days)||8.34 ? 5.1||7.11 ? 3.7|
|Underlying diseases (Diabetes, Liver cirrhosis, COPD)||6(6.8%)||4(3.3%)|
|Clinical symptoms and signs|
|?Headache, no. (%) of patients||74 (83.1)||109 (91.6)|
|?Myalgia, no. (%) of patients||66 (74.2)||95(79.8)|
|?Skin rash, no. (%) of patients||78(87.6)||111 (93.3)|
|?Eschar, no.(%) of patients*||77 (86.5)||117 (98.3)|
|?WBC count (no. of cells ? 1, 000/mm3) *||9.4 ? 4.3||6.6 ? 3.1|
|?Hemoglobin (g/dL) *||12.0 ? 1.8||12.7 ? 1.3|
|?Platelet count (no. of cells ? 1, 000/mm3)||149.31 ? 77.3||153.7 ? 72.9|
|?AST (IU/L)||100.9 ? 70.0||104.1 ? 86.8|
|?ALT (IU/L)||75.0 ? 74.4||91.2 ? 86.5|
|?ALP (U/L)||136.4 ? 120.0||118.5 ? 87.1|
|?Bilirubin (mg/dL)||1.0 ? 1.0||0.8 ? 0.6|
|?Albumin (g/dL) *||3.3 ? 0.6||3.8 ? 0.5|
|?LDH (U/L)||818.5 ? 240.1||874.3 ? 264.2|
|?CPK (U/L)||232.3 ? 609.5||263.5 ? 698.5|
|?ADA (IU/L)||83.6 ? 24.9||79.6 ? 24.7|
|?Serum creatinine (mg/dL) *||1.5 ? 0.9||1.0 ? 0.2|
|?Fibrinogen (mg/dL) *||309.2 ? 97.4||348.2 ? 90.4|
|?CRP (mg/dL) *||10.5 ? 5.0||8.1 ? 5.6|
|?ESR (mm/hr)||19.4 ? 17.7||7.0 ? 15.0|
|?PT (sec)||12.2 ? 1.0||12.3 ? 1.3|
|?aPTT (sec) *||32.6 ? 5.8||30.5 ? 4.6|
Values are mean ? SD.
* There was significant difference in baseline characteristics between the two groups (P < .05).
AST = aspartate aminotransferase; ALT = alanine aminotransferase; LDH = Lactate dehydrogenase; CPK = Creatine Kinase; ADA = adenosine deaminase; CRP = C-reactive protein; COPD = Chronic obstructive pulmonary disease
Unadjusted relative risk for each selected factor on severe scrub typhus
|Factors||Severe scrub typhus (n = 89)||Non-severe scrub typhus (n = 119)||Odds ratio (CI)||P value|
|Age(year) > 60||71 (79.8%)||57 (47.9%)||4.3 (2.3-8.1)||< 0.001|
|Mean duration from disease onset to effective antibiotic therapy (days)||8.34 ? 5.1||7.11 ? 3.7||0.1|
|Underlying diseases (Diabetes, Liver cirrhosis, COPD)||6 (6.8%)||4 (3.3%)||2.1(0.6-7.8)||0.25|
|Headache||74 (83.1)||109 (91.6)||0.5 (0.2-1.1)||0.07|
|Skin rash||78(87.6)||111 (93.3)||0.5 (0.2-1.3)||0.2|
|Eschar||77 (86.5)||117 (98.3)||0.1 (0.02-0.5)||0.004|
|WBC count (> 10, 000/mm3)||37 (41.6%)||16 (13.4%)||4.6 (2.3-9.0)||< 0.001|
|Hemoglobin (? 10 g/dL)||10 (11.2%)||2 (1.7%)||0.14(0.03-0.63)||0.01|
|Platelet count (? 100, 000/mm3)||28(31.5%)||25(21.0%)||0.58(0.31-1.09)||0.09|
|AST (>40 IU)||79(88.8%)||108 (90.8%)||1.24(0.50-3.07)||0.64|
|ALT (>40 IU)||84(94.4%)||106 (89.1%)||1.0 (1.0-1.0)||0.16|
|ALP (>200 U/L)||19(21.6%)||17 (14.9%)||1.6(0.79-3.3)||0.19|
|Bilirubin (>1.0 mg/dL)||23(25.8%)||22 (18.5%)||1.54(0.79-2.98)||0.2|
|Albumin (? 3.0 g/dL)||28(31.5%)||6(5.1%)||8.5(3.32-21.64)||> 0.001|
|LDH (>800 U/L)||37(43.0%)||63(53.8%)||0.65(0.37-1.13)||0.13|
|CPK (>200 U/L)||24(27.9%)||31(26.7%)||1.06(0.57-1.98)||0.85|
|ADA (<100 IU/L)||13(22.0%)||13(19.4%)||1.17(0.50-2.78)||0.72|
|Serum creatinine (> 1.4 mg/dL)||31(34.8%)||3(2.5%)||20.7(6.06-70.4)||< 0.001|
|Fibrinogen (? 150 mg/dL)||6(7.2%)||3(2.8%)||0.37(0.09-1.51)||0.17|
|CRP (> 10 mg/dL)||37(44.6%)||29(24.8%)||2.44(1.34-4.46)||0.004|
|ESR (> 20 mm/hr)||33(39.8%)||41(35.3%)||1.21(0.68-2.16)||0.53|
|PT (> 15 sec)||2(2.2%)||2(1.7%)||1.31(0.18-9.49)||0.79|
|aPTT (>40 sec)||9(10.1%)||4 (3.4%)||3.15(0.94-10.59)||0.06|
Abbreviations as in Table 1
Unadjusted and adjusted relative risk of severe scrub typhus *
|Factors||Unadjusted Odds ratio||Adjusted||P value|
|Odds ratio||95% CI|
|Abscence of Eschar||9.1||6.62||1.22-35.8||0.03|
|WBC count (> 10, 000/mm3)||4.6||3.6||1.65-7.89||0.001|
|Albumin(? 3.0 g/dL)||8.5||5.01||1.69-14.86||0.004|
*Only significant risk factors in Table 2 except creatinine were selected for the analysis
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