The level of of procalcitonin (PCT) and high-sensitivity C-reactive protein (hs-CRP) in the acute exacerbation of COPD (AECOPD) was investigated. Total of 20 patients with acute exacerbation of COPD who were admitted to the Department of Respiratory Medicine, Binzhou Center Hospital in the period of October 2012 to April 2015 were enrolled in the AECOPD group. According to the color of the sputum, the patients with AECOPD were divided into purulent sputum group (n=8) and non-purulent sputum group (n=12). In addition, 15 healthy people from the outpatient medical center were also selected as healthy control group. The levels of serum PCT and hs-CRP in both groups were determined by chemiluminescence and immunoturbidimetry, respectively for the comparison analysis. The serum PCT concentration in AECOPD group was 2.07±5.57 ng/ml, while that in healthy control group was 0.21±0.17 ng/ml. Significant difference was found between serum PCT levels in the two groups (p<0.05). The serum concentration of hs-CRP in AECOPD group was 3.66±3.95 mg/l, which is significantly higher than that of the healthy control group (0.49±0.17) (p<0.001). In AECOPD group, the sensitivity of PCT, hs-CRP and white blood cell count was 75, 40 and 40%, respectively, while the specificity was 80, 100 and 100%, respectively, indicating that PCT has higher sensitivity than hs-CRP and white blood cell count (p<0.05). However, no significant difference was found in specificity among these three methods (p>0.05). PCT level of the patients in purulent sputum group was 3.72±8.80 ng/ml, while that of the patients in non-purulent sputum group was 0.97±1.06 ng/ml. The serum hs-CRP level of patients in purulent sputum group was 4.94±4.60 mg/l, while that of the patients in non-purulent sputum group was (2.80±3.38 mg/l). Both the above parameters showed no significant difference between the purulent sputum group and the non-purulent sputum group (p>0.05). In conclusion, serum PCT and hs-CRP levels can be used as auxiliary diagnosis index for acute exacerbation of COPD. Measurement of serum PCT and hs-CRP levels in patients with AECOPD may be helpful in guiding antibacterial drug therapy.
Chronic obstructive pulmonary disease (COPD) is a preventable and treatable disease characterized by the airflow obstruction. COPD mainly affects the lungs, but can also bring adverse effects to other parts of the body. Due to the high morbidity, mortality, and heavy social and economic burden on the family of patients, COPD has become a critical threat to public health. There are many etiological factors behind the acute exacerbations of chronic obstructive pulmonary disease (AECOPD) and the pathogenesis has been revealed to be complex in these cases. Many studies have revealed that ~80% cases of AECOPD were caused by viral or bacterial infection, of which 50% caused by the bacterial infections (
PCT, which is a propeptide glycoprotein of calcitonin (CT) is usually produced by thyroid C cells (
In this study, we have evaluated the serum PCT and hs-CRP levels and further comparison were done between AECOPD patients and the healthy controls. The sensitivity and specificity of two biological markers were also compared. In addition, the levels of serum PCT and hs-CRP in AECOPD patients with different sputum traits were compared and the clinical values of these two indicators in acute exacerbation of COPD are also discussed.
In this group, a total of 20 patients were selected, who were admitted to the Department of Respiratory Medicine, Binzhou Center Hospital in the time period of October 2012 to April 2015. Out of these 20 patients, 12 were males and 8 were female patients. The age range was 52–93 years with a mean age of 72.40±18.78 years.
In this group, a total of 15 cases were selected including 9 males and 6 females from the outpatient health center. The age range was 60 to 79 years with a mean age of 68.87±5.87 years. The following information were collected from each patient regarding age, gender, primary underlying disease, complications, sputum color, body temperature, respiratory rate, blood pressure, heart rate, state of consciousness, blood gas analysis, white blood cell count and percentage, and medical imaging results. This study was approved by the Ethics Committee of Binzhou Center Hospital. Signed written informed consents were obtained from all participants before the study.
Selection criteria for AECOPD group. The selection criteria were decided by comprehensive analysis of the clinical manifestations, history of exposure to risk factors, physical signs and the laboratory tests. The main symptoms of COPD includes chronic cough, expectoration/or dyspnea and history of exposure to risk factors. Incomplete reversible airflow obstruction was considered to be a prerequisite for the diagnosis of COPD. Pulmonary function tests were considered as the gold standard tests for the diagnosis of COPD. If the levels of FEV1/FVC were <70% after the treatment of bronchodilator, it was considered as an incomplete reversible airflow obstruction. Pulmonary function test was applied to all the patients with a history of smoking and (or) environmental occupational pollution contact history, cough, expectoration or dyspnea. AECOPD is defined as a persistent exacerbation of a patient's condition beyond the usual condition, requiring a change in conventional medication of basic COPD, and also include the relevant description which is mentioned in the 2002 guidelines by the European Respiratory Society (
The patients with other chronic respiratory diseases such as bronchiectasis, active tuberculosis, asthma, pulmonary embolism and so on, patients with bacterial infections encountered outside the respiratory system, patients with lung cancer, thyroid myeloid cell carcinoma and other malignant tumor were excluded from the AECOPD group. Patients with serious immune deficiency and immune system diseases such as connective tissue disease, gout, and so on, patients with mental illness hindering other participants to complete the tests. The ones with respiratory disease and other related diseases should be excluded from healthy control group.
Natural sputum method was applied to collect the sample. Sputum was collected in the morning after cold water gargle and deep cough. Sterile container was used to collect sputum specimens without saliva. Patients with opacity or milky sputum were classified as non-purulent sputum group. Patients with dry cough and no sputum were also classified as non-purulent sputum. Patients with yellow, green or brown sputum were classified as purulent sputum.
Collection and preservation of blood samples: venous blood ~3 ml was withdrawn from patients by the next day after the admission with an empty stomach. The blood samples were placed into plugged sterile test tubes and centrifuged at 2,500 × g after solidification at room temperature 25°C. The serum samples were stored at −20°C for further tests.
Chemiluminescence method was used to measure the serum PCT levels. PCT assay kit (chemiluminescence method) produced by Shenzhen New Industry Biomedical Engineering Co., Ltd. was used for the analysis. The normal reference value provided by the laboratory was 0–0.20 ng/ml, which was applied in this study. Lumino analyzer (Lumino, Los Gatos, CA, USA) was used as the PCT detector. According to the manual instruction, all the operations were performed by the professional personnel with quality control services.
Serum hs-CRP levels were measured by immunoturbidimetry. The high sensitivity CRP reagent provided by Dade Behring Marburg GmbH (Marburg, Germany), was used in this study. The normal reference value provided by the laboratory was 0–2.1 mg/l, which was applied in this study. For the estimation of hs-CRP detector, 7600 automatic biochemical analyzer (Hitachi, Tokyo, Japan) was used according to the manual instruction; all the operations (double standard and double tube measurement) were performed by professional personnel.
All measurement data were expressed as mean ± standard deviation (SD). The count data i.e. sensitivity, specificity were analyzed by the Chi-square test. The data were analyzed with SPSS version 11.0 statistical software (IBM, Armonk, NY, USA). The test standard α=0.05, p<0.05 was considered to be statistically significant.
The serum PCT concentration in 20 AECOPD patients was 2.07±5.57 ng/ml, while that in 15 healthy controls was 0.21±0.17 ng/ml. The significant difference was found between the two groups with statistical significant p-value of <0.05. The concentration of serum hs-CRP was 3.66±3.95 mg/l in AECOPD group and 0.49±0.17 mg/l in 15 healthy controls, respectively. There was also statistically significant difference between the two groups with significant p-value of <0.001 (
Among the 20 AECOPD patients, 15 cases had higher PCT levels than 0.15 ng/ml and the positive rate was 75%. Eight cases had higher hs-CRP levels than 2.1 mg/l and the positive rate was 40%. Eight cases had white blood cell count numbers higher than 10×109/l and the positive rate was 40%. Therefore, the sensitivity of PCT, hs-CRP, white blood cell count was 75, 40 and 40%, respectively. Among the 15 health individuals, 3 cases had higher PCT levels than 0.15 ng/ml and the positive rate was 20%. Not a single case had hs-CRP levels higher than 2.1 mg/l and the positive rate was 0. Again not a single case had white blood cell count number higher than 10×109/l and the positive rate was 0%. Therefore, the specificity of PCT, hs-CRP, white blood cell count was 80, 100 and 100%, respectively. The sensitivity and specificity of serum PCT, hs-CRP of WBC count in diagnosis of AECOPD were evaluated in both groups (
Among the patients with acute exacerbation of COPD, the concentration of PCT in patients with purulent sputum was 3.72±8.8 ng/ml while the serum concentration of PCT was 0.97±1.06 ng/ml in non-purulent sputum patients. The data revealed nonsignificant difference between these two groups. PCT concentration in patients with purulent sputum was 4.94±4.60 mg/l, while the serum concentration of hs-CRP was 2.80±3.38 mg/l in non-purulent sputum patients. Again, no significant difference was found between these two groups (
Besides lower respiratory tract bacterial infections, AECOPD can also be caused by viral infections, other atypical pathogens and by some non-infectious factors. However, it is difficult to obtain accurate etiological factors for AECOPD cases in many patients. In addition, it is difficult to distinguish the clinical manifestations of viruses and other atypical pathogen infections, and bacterial infections. Studies that tried to identify other biomarkers that reflect bacterial infection in AECOPD patients failed to get positive results (
As a sensitive biomarker of nonspecific inflammatory reactions, the levels of serum CRP are closely related to the severity of inflammatory reactions. Serum CRP levels can also be increased by inflammation, infection and the tissue damage. The further increased degree depends on the intensity of inflammatory stimulus (
As a biological indicator, PCT levels increase during the bacterial infections, but no significant change was found in the viral infections and non-specific inflammatory diseases (
It is generally accepted that the tracheal and the bronchial infections are the main reasons of acute exacerbation of COPD, and bacterial infection is considered to be the most common cause of acute exacerbation of COPD. However, bacterial colonization is common during stable phases in the lower respiratory tract of patients with COPD. Routine bacterial culture of sputum is often unreliable in demonstrating the bacterial infections, which are responsible for acute exacerbations of COPD. In a prospective study, Stockley
In conclusion, we believe that the serum PCT levels, and hs-CRP levels can be used as an auxiliary indicator in diagnosis of acute exacerbation of COPD. The measurement of serum PCT levels and hs-CRP levels of AECOPD patients may be helpful to guide antimicrobial treatment.
The comparison of PCT and hs-CRP levels between AECOPD group and healthy control group.
| Groups | Cases | PCT (ng/ml) | hs-CRP (mg/l) |
|---|---|---|---|
| AECOPD group | 20 | 2.07±5.57 | 3.66±3.95 |
| Healthy control group | 15 | 0.21±0.17 | 0.49±0.17 |
| Z-value | −2.069 | −3.384 | |
| P-value | 0.039 | <0.001 |
PCT, procalcitonin; hs-CRP, high-sensitivity C-reactive protein; AECOPD, acute exacerbation of COPD.
The sensitivity and specificity of serum PCT, hs-CRP and WBC count in diagnosis of AECOPD.
| Positive cut-off | PCT (%) | hs-CRP (%) | WBC (%) |
|---|---|---|---|
| Sensitivity | 75 |
40 | 40 |
| Specificity | 80 | 100 | 100 |
The sensitivity of PCT is significantly higher than that of hs-CRP (p<0.05). PCT, procalcitonin; hs-CRP, high-sensitivity C-reactive protein; AECOPD, acute exacerbation of COPD; WBC, white blood cell.
The comparison of serum PCT and hs-CRP levels between patients with and without purulent sputum.
| Groups | Cases | PCT (ng/ml) | hs-CRP (mg/l) |
|---|---|---|---|
| Purulent sputum group | 8 | 3.72±8.8 | 4.94±4.60 |
| None-purulent sputum group | 12 | 0.97±1.06 | 2.80±3.38 |
| Z-value | −0.194 | −1.389 | |
| P-value | 0.851 | 0.181 |
PCT, procalcitonin; hs-CRP, high-sensitivity C-reactive protein.