Wu W, Liu M, Geng JJ, Wang M. Teicoplanin combined with conventional vancomycin therapy for the treatment of pulmonary methicillin-resistant Staphylococcus aureus and Staphylococcus epidermidis infections. World J Clin Cases 2021; 9(34): 10549-10556 [PMID: 35004986 DOI: 10.12998/wjcc.v9.i34.10549]
Corresponding Author of This Article
Mei Wang, MHSc, Attending Doctor, Laboratory Medicine, Bejing Tongren Hosptial, Capital Medical University, No. 2 West Ring South Road, Beijing 100176, China. email@example.com
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This article is an open-access article which was selected by an in-house editor and fully peer-reviewed by external reviewers. It is distributed in accordance with the Creative Commons Attribution Non Commercial (CC BY-NC 4.0) license, which permits others to distribute, remix, adapt, build upon this work non-commercially, and license their derivative works on different terms, provided the original work is properly cited and the use is non-commercial. See: http://creativecommons.org/licenses/by-nc/4.0/
Author contributions: Wu W and Wang M designed the research study; Liu M performed the research; Geng JJ analyzed the data and wrote the manuscript.
Institutional review board statement: The study was reviewed and approved by the Beijing Tongren Hospital, Capital Medical University Institutional Review Board (Approval No. TRECKY2020-100).
Informed consent statement: All study participants provided informed written consent prior to study enrollment.
Conflict-of-interest statement: No conflict of interest.
Data sharing statement: No additional data are available.
Open-Access: This article is an open-access article that was selected by an in-house editor and fully peer-reviewed by external reviewers. It is distributed in accordance with the Creative Commons Attribution NonCommercial (CC BY-NC 4.0) license, which permits others to distribute, remix, adapt, build upon this work non-commercially, and license their derivative works on different terms, provided the original work is properly cited and the use is non-commercial. See: https://creativecommons.org/Licenses/by-nc/4.0/
Corresponding author: Mei Wang, MHSc, Attending Doctor, Laboratory Medicine, Bejing Tongren Hosptial, Capital Medical University, No. 2 West Ring South Road, Beijing 100176, China. firstname.lastname@example.org
Received: July 28, 2021 Peer-review started: July 28, 2021 First decision: August 19, 2021 Revised: August 24, 2021 Accepted: October 14, 2021 Article in press: October 14, 2021 Published online: December 6, 2021
Vancomycin and teicoplanin are both antibiotics that have significant antimicrobial effects on Gram-positive cocci.
To explore the value of teicoplanin combined with conventional (vancomycin only) anti-infective therapy for the treatment of methicillin-resistant Staphylococcus aureus and Staphylococcus epidermidis pulmonary infections.
A total of 86 patients with methicillin-resistant Staphylococcus aureus or methicillin-resistant Staphylococcus epidermidis pulmonary infections, treated in our hospital between January 2018 and February 2020, were assigned to the study and control groups using a random number table method, with 43 patients in each group. The control group received conventional treatment (vancomycin), and the study group received both teicoplanin and conventional treatment. The following indicators were assessed in both groups: the time required for symptom relief, treatment effectiveness, serum levels of inflammatory factors (procalcitonin, interleukin-1β, tumor necrosis factor-α, C-reactive protein), clinical pulmonary infection scores before and after treatment, and the incidence of adverse reactions.
Patients in the study group were observed to have faster cough and expectoration resolution, white blood cell count normalization, body temperature normalization, and rales disappearance than patients in the control group (all P < 0.05); the total rate of effectiveness was 93.02% in the study group, higher than the 76.74% in the control group (P < 0.05). The pre-treatment serum levels of procalcitonin, interleukin-1β, tumor necrosis factor-α, and C-reactive protein as well as the clinical pulmonary infection scores were similar among the patients in both groups. However, the post-treatment serum levels of procalcitonin, interleukin-1β, tumor necrosis factor-α, and C-reactive protein as well as the clinical pulmonary infection scores were significantly lower in the study group than in the control group (P < 0.05). There was no significant difference in the incidence of adverse reactions between the groups.
Compared with conventional (vancomycin only) therapy, teicoplanin and vancomycin combination therapy for patients with pulmonary methicillin-resistant Staphylococcus aureus and methicillin-resistant Staphylococcus epidermidis infections can improve patient clinical symptoms, modulate serum inflammatory factor levels, and improve treatment efficacy, without increasing the risk of adverse reactions.
Core Tip: Vancomycin and teicoplanin are both essential drugs in the clinical treatment of methicillin-resistant Staphylococcus aureus and Staphylococcus epidermidis lung infections and have significant antimicrobial effects on Gram-positive cocci. Here, we discuss the efficacy and safety of these two key antibiotics.
Citation: Wu W, Liu M, Geng JJ, Wang M. Teicoplanin combined with conventional vancomycin therapy for the treatment of pulmonary methicillin-resistant Staphylococcus aureus and Staphylococcus epidermidis infections. World J Clin Cases 2021; 9(34): 10549-10556
Pulmonary infections caused by methicillin-resistant Staphylococcus aureus (MRSA) and Staphylococcus epidermidis (MRSE) are common in our hospital. These infections are typically resistant to treatment with cefradine, oxacillin, or methicillin. In recent years, the incidence of these infections has been rising continuously, and they have become challenges that seriously threaten patients’ lives, health, and prognoses[1-3].
Vancomycin and teicoplanin are important drugs in the clinical treatment of MRSA and MRSE lung infections and have significant antimicrobial effects on Gram-positive cocci. However, the overall efficacy of treatment with vancomycin alone is not good; increasing the dosage to ensure a therapeutic effect also increases the risk of adverse reactions, resulting in a significant limitation to its use as a single-drug treatment[4-6]. Teicoplanin is a novel glycopeptide antibacterial preparation for use in place of vancomycin. This novel drug has enhanced antibacterial activity against MRSA and MRSE due to the addition of fatty acid side chains to its chemical structure, which also increases its molecular mass and half-life, relative to vancomycin[7,8]. Additionally, teicoplanin has a longer dosing interval than vancomycin, which has increased its safety and reduced its risk of adverse events (e.g., renal toxicity and Redman syndrome) compared with vancomycin[9,10].
Thus, we selected 86 patients with pulmonary MRSA or MRSE infections treated in our hospital and compared the treatment outcomes in patients receiving conventional antimicrobial treatment (vancomycin only) with those receiving treatment with vancomycin and teicoplanin.
MATERIALS AND METHODS
Patients were eligible to participate in the study if they had pulmonary MRSA or MRSE infections confirmed by lung computed tomography, X-ray examination, and blood cultures, were less than 80 years of age, and agreed to demonstrate good compliance and cooperate throughout the study. Patients were excluded if they had mixed pulmonary infections caused by multiple drug-resistant bacteria species, evidence of immune system dysfunction, an expected survival time of less than 2 wk, kidney or other organ lesions, malignancies, allergies to the study medications, cardiovascular or cerebrovascular diseases, or if they failed to demonstrate compliance throughout the investigation. This study was approved by the ethics committee of our hospital.
Patients in both groups received routine interventions after hospitalization, including treatments to reduce expectoration and suppress coughing; supplemental oxygen was also provided. The control group received intravenous vancomycin (0.5 g in 250 mL of normal saline, every 8 h). Peak drug concentrations were measured after 3 d of treatment, and the dosage was adjusted to maintain 5–10 mg/L of vancomycin. Patients in the study group were similarly dosed with vancomycin and also received intravenous teicoplanin (0.4 g in 250 mL of normal saline, every 12 h for 3 d, then once per day for the duration of treatment). Both groups were treated for 7 d.
Both groups were monitored to determine the period of time from the beginning of treatment to symptom relief. The indicators of symptom relief were normalization of white blood count and body temperature and the disappearance of cough, expectoration, and rales. We also monitored the patients for lung lesion resolution (resolution of 90% of the lesions was scored as marked effectiveness; resolution of 50%–89% of the lesions was considered effective) using radiography. Thus, the total effectiveness rate was determined as the percentage of patients in each group demonstrating effective and markedly effective outcomes. We also compared the baseline and post-treatment levels of serum inflammatory factors between the groups, including procalcitonin, interleukin-1β, tumor necrosis factor-α, and C-reactive protein; we also assessed the pre- and post-treatment clinical pulmonary infection scores (CPISs). Serum levels of inflammatory markers were determined using appropriate enzyme-linked immunosorbent assays. Finally, the experience of adverse events during treatment was compared between the groups.
All statistical analyses were performed using SPSS (version 22.0, SPSS, Chicago, IL, United States). A P value < 0.05 was considered statistically significant. Means were compared using t-tests, and qualitative data (percent values) were compared using the χ2 test.
A total of 86 patients with pulmonary MRSA or MRSE infections, treated in our hospital between January 2018 and February 2020, were randomly assigned (using a random number table) to the study and control groups; 43 patients were assigned to each group. The study group comprised 24 men and 19 women. At baseline, the average age of the participants in the study group was 58.59 ± 10.77 (range: 46–71) years, and the average body mass index was 22.19 ± 3.07 (range: 18.2–26.4) kg/m2. The average duration of their disease was 6.05 ± 2.13 (range: 2–10) d. The comorbidities among this group included chronic obstructive pulmonary disease (n = 11), coronary heart disease (n = 2), cerebrovascular disease (n = 4), chronic bronchitis (n = 11), and other diseases (n = 2).
The control group included 26 men and 17 women, with an average age of 60.07 ± 11.35 (range: 43–76) years and an average body mass index of 21.95 ± 3.23 (range: 17.8–27.1) kg/m2. The average duration of disease in this group was 5.89 ± 2.32 (range: 1–10 d). The comorbidities in this group included chronic obstructive pulmonary disease (n = 10), coronary heart disease (n = 4), cerebrovascular disease (n = 5), chronic bronchitis (n = 9), and other diseases (n = 4). Based on these baseline data, there were no significant differences between the two groups.
Time to symptom relief
In the study group, the routine blood test results returned to normal after treatment, with complete resolution of clinical symptoms. Post-treatment X-ray examinations also showed that > 90% of the lung lesions resolved, indicating marked effectiveness. In the control group, the routine blood test results also returned to normal, the clinical symptoms improved significantly, and the post-treatment X-rays showed an effective rate of 50%–89% for lung lesion resolution.
The study group demonstrated significantly faster cough and expectoration disappearance, white blood count normalization, body temperature normalization, and rales disappearance than the control group (all P < 0.05; Table 1).
Table 1 Average symptom relief time for patients treated with either vancomycin only or vancomycin and teicoplanin (mean ± SD).
Vancomycin + teicoplanin
Cough and expectoration resolution (d)
8.29 ± 2.15
6.12 ± 1.56
WBC normalization (d)
8.68 ± 2.44
6.77 ± 2.13
Body temperature normalization (d)
5.68 ± 1.18
4.07 ± 1.09
Rales resolution (d)
8.89 ± 2.02
6.64 ± 1.43
WBC: White blood cell count.
The total effective rate of the study group (93.02%) was higher than that of the control group (76.74%; P < 0.05) (Table 2).
Table 2 Treatment effects for patients treated with vancomycin (only) or vancomycin and teicoplanin, n (%).
Number of cases
Serum inflammatory factors and CPISs
In the study group, the baseline serum levels of the inflammatory factors and the CPISs were similar to those in the control group (Table 3). After treatment, the serum levels of the inflammatory factors and the CPIS scores were significantly lower than those in the control group (P < 0.05; Table 3).
Table 3 Inflammation marker levels in patients treated with vancomycin (only) or vancomycin and teicoplanin.
There was no significant difference in the incidence of adverse events between the study (11.63%) and control (6.98%) groups (P > 0.05), as shown in Table 4.
Table 4 Adverse events experienced by patients treated with vancomycin (only) or with vancomycin and teicoplanin, n (%).
Number of cases
Dizziness and headache
Vomiting and nausea
Pulmonary MRSA and MRSE infections are types of antimicrobial-resistant infections that are common in our hospital and are associated with shock, ventilator use, invasive surgeries, and anesthesia. Most patients with these infections experience some degree of dyspnea, fever, expectoration, and other manifestations[12,13]. Moreover, the incidence of pulmonary infections caused by MRSA and MRSE has continued to increase over recent years due to the increasing frequency of antibiotic misuse. The most effective way of treating these types of infections remains a research hotspot.
The drugs currently used to treat pulmonary infections are glycopeptide antibacterial agents, including the wide use of vancomycin, a drug that inhibits bacterial cell wall synthesis by stopping the synthesis of the cell wall glycopeptide polymerase. Vancomycin has a significant antibacterial effect on Gram-positive bacteria, especially Staphylococcus epidermidis and Staphylococcus aureus. However, it also has a nephrotoxic effect on the patient. The administration frequency of this drug should be kept as low as possible, particularly in elderly patients and those with other severe illnesses, to reduce the drug’s kidney toxicity.
Teicoplanin is another important drug used in the clinical treatment of pulmonary infections and is also a novel glycopeptide antibacterial agent. Compared with vancomycin, the peptide skeleton of teicoplanin contains additional fatty acid side chains, which have a 90% binding rate to serum albumin and high lipophilicity. This characteristic of this drug promotes the absorption of the drug by tissues and cells. Sezai et al used vancomycin and teicoplanin to treat patients with MRSA pulmonary infections and demonstrated complete bacterial clearance in 87.80% (a total effective rate of up to 90.24%) of the patients in the test group, which was significantly higher than the 68.29% with complete clearance in the control group. The patients in the test group also demonstrated significantly lower post-treatment serum procalcitonin and C-reactive protein levels than before treatment. Ogawa et al also confirmed that the application of high-dose teicoplanin can effectively downregulate the levels of inflammatory factors and improve bacterial clearance in patients with pulmonary MRSA infections.
Compared with our conventional (vancomycin only) treatment, treating pulmonary MRSA and MRSE infections with vancomycin and teicoplanin resulted in a higher total effective rate than for the conventional treatment. These results are consistent with the results of the above-mentioned studies. In addition, the time to symptom relief was shorter than in the control group, and the post-treatment CPISs were lower than those in the control group. However, there was no significant difference in the incidence of adverse reactions between the two groups. This indicates that combining teicoplanin and vancomycin treatments in patients with pulmonary MRSA and MRSE infections can effectively improve the treatment effect, relative to the conventional treatment, while ensuring patient safety.
We believe that the additional benefit provided by teicoplanin can be explained as follows. The main antibacterial mechanism of teicoplanin is its ability to inhibit transglycosylation during bacterial cell wall synthesis, thereby damaging the integrity and strength of the cell wall. This results in bacterial growth inhibition and the ultimate killing of the bacteria. Teicoplanin demonstrates strong tissue penetration, high protein binding, and a long half-life. Therefore, even once-daily administration can maintain an ideal blood concentration and bioavailability. Some studies also indicate that good lipophilic properties of teicoplanin facilitate drug penetration into tissues and cells. Thus, the drug effectively regulates the transfer of disaccharides and peptides required for cell wall mucins and stops cell wall biosynthesis, thereby promoting bacterial death. The mechanism of action of teicoplanin is similar to that of other glycopeptide antibacterial agents, including its non-specific binding to the outer structure of peptide glycolipids and binding with the amino terminal of the aminoacyl D-alanyl-D-alanine in the bacterial cell wall. This inhibits the formation of the peptide glycolipid, glycogen transfer, and bacterial cell wall biosynthesis, inhibiting bacterial growth.
Furthermore, procalcitonin, interleukin-1β, tumor necrosis factor-α, and C-reactive protein are indicators of the degree of inflammatory response in the body. Inflammation can increase the permeability of vascular endothelial cells, promote the exudation of numerous inflammatory substances from tissues, and aggravate the disease. In this study, the levels of these inflammatory indicators in the study group were significantly lower than in the control group after treatment. These results indicate that teicoplanin has high value in the treatment of pulmonary MRSA and MRSE infections in part because it downregulates the inflammatory response.
Our study demonstrated that, compared to conventional therapy, the combined teicoplanin/vancomycin treatment of patients with pulmonary MRSA and MRSE infections results in improved clinical responses, regulates the levels of serum inflammatory factors, and improves the disease treatment effect, without increasing the risk of adverse events.
Vancomycin and teicoplanin are important drugs in the clinical treatment of methicillin-resistant Staphylococcus aureus and Staphylococcus epidermidis lung infections.
Single-drug treatment of lung infections is not effective.
We want to compare the therapeutic effects of conventional antibacterial therapy (vancomycin only) and vancomycin plus teicoplanin.
We selected 86 patients with methicillin-resistant Staphylococcus aureus (MRSA) or Staphylococcus epidermidis lung infections and divided them into a study group and a control group, with 43 cases in each group.
The study group was more effective than the control group.
The combined teicoplanin/vancomycin treatment of patients with pulmonary methicillin-resistant Staphylococcus aureus (MRSA) and Staphylococcus epidermidis infections resulted in improved clinical responses.
The combined application of antibacterial drugs increases the cure rate of the disease.
Provenance and peer review: Unsolicited article; Externally peer reviewed.
Sezai A, Shiono M, Inoue T, Hata M, Iida M, Niino T, Saito A, Hattori T, Wakui S, Soeda M, Negishi N, Sezai Y. Efficacy of continuous cleansing with teicoplanin on post-CABG methicillin-resistant staphylococcus aureus (MRSA) mediastinitis: report of a case.Ann Thorac Cardiovasc Surg. 2004;10:191-194.
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