Diagnosing external ventricular drain-related ventriculitis by means of local inflammatory response: soluble triggering receptor expressed on myeloid cells-1

This prospective observational study was conducted in the Intensive Care Unit (ICU) of Hospital Universitario y Politecnico la Fe (Valencia, Spain), a 21-bed medical ICU. We included consecutive adult patients who were admitted during a three-year period (from April 2008 to March 2011) and required the neurosurgical insertion of an EVD. Previously, informed consent was obtained from patients or from their relatives. The study was approved by the Ethical Committee for Clinical Research of the Hospital Universitario y Politecnico La Fe (Valencia, Spain).

On admission, we recorded data related to demographics, medical history, current disease and indication for placement of EVD, type of EVD, antibiotic therapy (as surgical prophylaxis at the moment of EVD insertion or as continued treatment), the presence of other invasive devices and severity scales (Acute Physiology and Chronic Health Evaluation II (APACHE II)). Daily, we performed a clinical surveillance for the presence of any infection, which included clinical examination, analysis of temperature and hemodynamic parameters, and a blood test with leukocyte count, C-reactive protein (CRP) and procalcitonin (PCT) determination.

At admission and three times a week, we took samples of CSF for cytological and biochemical analysis, microbiological qualitative culture and sTREM-1 determination.

If any other kind of infection was suspected, samples of blood, tracheal aspirate, urine, surgical wound or other possible samples were collected for microbiological culture. The diagnosis of an infection different from EVD-related ventriculitis was made according to the Centers for Disease Control and Prevention criteria [18].

Blood samples were centrifuged (1,500 rpm, 10 minutes) and serum was frozen at -80°C. PCT was measured by TRACE (Time-Resolved Amplified Crypate Emission) technology in a Kyptor analyzer (Brahms Diagnostica, Berlin, Germany). Measurement of CRP was performed with an immunoturbidimetric method using a commercial kit (Tina-quant CRP, Roche Diagnostics, Mannheim, Germany).

CSF samples were centrifuged (1,500 rpm, 10 minutes) to remove formed elements, and the supernatant was frozen at -80°C until required for analysis. Levels of sTREM-1 were determined by immunoassay with a combination monoclonal/polyclonal antibody of the immunoglobulin G1 (IgG1) type raised against TREM-1 (R&D Systems, Inc., Minneapolis, MN, USA).

As a result of the potential bias derived from the association between EVD-related infection risk and time of EVD duration, we also performed a case°Control study with ventriculitis patients (cases) and non-ventriculitis (and also non-colonized) patients (control subjects) matched by age, comorbidities, severity scales and EVD duration to adjust ventriculitis and non-ventriculitis patients for these parameters.

All recorded data were analyzed using the statistical program SPSS 17.0.

Seventy-three patients who required the insertion of an EVD were admitted to our ICU and all of them were included in the study. The main reasons for ICU admission were subarachnoid hemorrhage (42.5%) or intracranial hemorrhage (46.6%). A secondary intraventricular hemorrhage was present in 92% of cases. The mean score on the APACHE II scale on the day of admission to the ICU was 20.3 ± 6.8. EVD-related ventriculitis was diagnosed in six patients (8.2%) and EVD-colonization was detected in ten patients (13.7%). The median of EVD-days until infection or colonization was 11 days (IQR: 8 to 15.5) and 9 days (IQR: 6.75 to 9.25), respectively. Basal characteristics of the study population are described in Table 1.

The main characteristics of EVD-related ventriculitis cases are depicted in Table 2. The EVD was replaced in all cases. All patients received parenteral antibiotic therapy and four of them also received intrathecal treatment with amikacin or colistin as adjuvant therapy.

Most cases of EVD-related ventriculitis were due to Gram-negative bacteria (A. baumannii, Klebsiella pneumoniae, Serratia marcenses, P. eruginosa or Enterobacter cloacae) and only one case due to S. epidermidis. Two of these cases were preceded by colonization of the EVD by the same microorganism (Table 2).

EVD-colonization not followed by EVD-ventriculitis was diagnosed in 10 patients, mainly due to coagulase-negative Staphylococci (60%) and the rest of the cases due to Corynebacterium jeikeium, A. baumannii, Escherichia coli and Alternaria alternata.

Values of the different biomarkers used in the diagnosis of EVD-related ventriculitis are shown in Tables 2 and 3.

In patients with ventriculitis, median serum PCT at diagnosis was 0.32 ng/ml (IQR: 0.18 to 0.64) versus 0.16 ng/ml (IQR: 0.1 to 0.36) for the rest of the patients; P = 0.195 and the median serum CRP was 122.5 mg/dl (IQR: 54.7 to 227) versus 65 mg/dl (IQR: 23 to 150.2); P = 0.344.

In infected patients, the median of glucose in CSF was 8 mg/dl (IQR: 1 to 19.5) versus 76 mg/dl (IQR: 61 to 88) in non-infected patients; P <0.001. The median ratio CSF/serum glucose was 0.083 (0.008 to 0.11) versus 0.627 (0.466 to 0.708); P <0.001. There was no difference in the classical cut-off point established for the diagnosis of bacterial meningitis (ratio CSF/serum glucose <0.6) (P = 0.057) and the best cut-off point in our sample was 0.21 (sensitivity and specificity 100%). When measured three days before the diagnosis, the ratio CSF/serum glucose did not show differences (median ratio 0.549 (IQR: 0.41 to 0.723) versus 0.59 (IQR: 0.466 to 0.708); P = 0.533). The median of proteins in CSF was 500 mg/dl in patients with EVD-related ventriculitis (IQR: 341 to 658.5) versus 70.5 in the rest of the patients (IQR: 25.5 to 145.25); P = 0.001. The classical cut-off point for bacterial meningitis (CSF proteins >50 mg/dl) did not show differences (P = 0.074) between the groups and the best cut-off point in our sample was 267.6 mg/dl (100% sensitivity and 99.87% specificity). There were no differences three days before the diagnosis (median 62 mg/dl (IQR: 43.75 to 104.25) versus 68 mg/dl (IQR: 44 to 128.9); P = 0.688). In most cases, CSF was intensely bloody and a cell-index could not be calculated.

The median CSF sTREM-1 at the moment of ventriculitis diagnosis was 4,320 pg/ml (IQR: 2,987 to 4,886) versus 266 pg/ml (IQR: 118 to 689) in the rest of the cases; P <0.001. Patients with intraventricular hemorrhage were analyzed separately and the results were similar: median CSF sTREM-1 4,320 pg/ml (IQR: 2,987 to 4,886) in patients with EVD-related ventriculitis and intraventricular hemorrhage (100%), 307.58 pg/ml (IQR: 144.7 to 644.4) in patients with EV-colonization and intraventricular hemorrhage (70%) and 277.19 pg/ml (IQR: 118 to 720.5) in controls with intraventricular hemorrhage (94.7%); P <0.001. There were no differences between cases due to gram-positive versus gram-negative bacteria (2,513.8 pg/ml versus 4,584.4 pg/ml (IQR: 3,601 to 5,101.4); P = 0.143). Figure 1 shows the results for the three different groups (EVD-related ventriculitis, EVD-colonization and controls). The best cut-off point of sTREM-1 in CSF for the diagnosis of EVD-related infection was 2,388.79 pg/mL (sensitivity 100%, specificity 98.5%, positive predictive value (PPV) 85.71%, negative predictive value (NPV) 100% and area under the curve (AUC) 0.995) (Table 4 and Figure 2).

Three days before the diagnosis, the median of sTREM-1 in CSF was 486.2 pg/ml (IQR: 202 to 532.6) in infected patients versus 292.9 pg/ml (IQR: 126 to 603) in the rest of the cases (P = 0.423). Cases of EVD-related ventriculitis preceded by colonization did not show a trend in the value of sTREM-1 in CSF (167 pg/ml (IQR: 136 to 197) versus 486 pg/ml (IQR: 339 to 518) in ventriculitis not preceded by colonization; P = 0.064).

Values of CSF sTREM-1 and other biomarkers were similar between patients with EVD-colonization and controls (Table 3). Data related to serum PCT and leukocytes or CSF sTREM-1, leukocytes, glucose and proteins were analyzed by means of the Mann Whitney U test and no differences were found (P = 0.932, P = 0.550, P = 0.459, P = 0.317, P = 0.747 and P = 0.176, respectively).

The case°Control study confirmed the results. The six cases of EVD-related ventriculitis and the ten cases of EVD-colonization were successfully matched by clinical data, severity scales and time of EVD duration with six and ten controls, respectively. The median value of sTREM-1 in CSF was significantly higher in EVD-related ventriculitis cases (4,320.2 pg/ml (IQR: 2,987.9 to 4,886) versus 745.75 pg/ml (IQR: 261.25 to 997.9); P = 0.004). There were no differences in the CSF sTREM-1 value when comparing EVD-colonization and controls (231.24 pg/ml (IQR: 98.4 to 452.7) versus 372.67 pg/ml (IQR: 165.83 to 752.7); P = 0.336).