Acute bronchitis and acute respiratory infections are among the most common diseases for which patients seek medical advice. Respiratory infections cause 30% to 40% of all doctor visits in the UK and 75–100 million doctor visits per year in the US [
Ectoine is a natural extremolyte with inflammation-reducing properties. It was first found in microorganisms from extreme osmotic habitats. Ectoine binds strongly to water molecules and forms a hydrate shield that prevents dehydration and proteins’ irreversible denaturation [
The ectoine inhalation solution (Ectoin® inhalation solution, bitop AG, Dortmund, Germany) used in this study is a registered medical device indicated for the treatment of airway inflammations. In patients with neutrophilic lung inflammations, the application of ectoine inhalation solution significantly reduced the levels of two inflammatory factors—sputum neutrophils and nitrogen oxides [
This study investigated ectoine inhalation solution for the treatment of acute bronchitis and/or acute respiratory infections. Its effectiveness, tolerability, and safety were compared with those of normal saline inhalation solution.
This prospective, patient-preference, observational study involved nine study centers in Germany from December 2015 to April 2016 (Clinicaltrials.gov identifier: NCT
We aimed to recruit 120 patients older than 5 years of age who suffered from acute bronchitis and/or acute respiratory infections. The study lasted 17 days, comprising an inclusion visit (V1, day 1), a final visit (V2, day 7), and a follow-up questionnaire (FU, day 17). Treatment lasted 7 days, being administered from V1 to V2.
The ectoine inhalation solution (Ectoin® inhalation solution, bitop AG, Dortmund, Germany) used in this study contained ectoine (1.3%) and sea salt in water. The saline inhalation solution (PARI NaCl inhalation solution, PARI GmbH, Starnberg, Germany) contained 0.9% NaCl in water. Patients applied the inhalation solution two to four times a day, with each application of 2.5 ml nebulized solution being dispensed using the inhalation device CompAIR™ (OMRON Medizintechnik Handelsgesellschaft mbH, Mannheim, Germany).
The general health of patients was assessed by the investigators at V1 and V2 on a 4-point scale (0 = very poor, 1 = poor, 2 = moderate, and 3 = good). Patients rated their general health in patient diaries and FU questionnaires on a scale from 0% (very poor) to 100% (very good).
The Bronchitis Severity Score (BSS) was used to assess the severity of five major bronchitis symptoms: cough, chest pain when coughing, dyspnea, expectoration, and auscultation findings on a 5-point scale (0 = no symptoms, 1 = mild, 2 = moderate, 3 = severe, and 4 = very severe). Symptoms were assessed by the investigators at V1 and V2, and by patients in the patient diaries and the FU questionnaire.
The general effectiveness of the treatment was evaluated by investigators and patients independently at V2 using the Integrative Medicine Outcome Scale as “complete recovery”, “major improvement”, “slight/moderate improvement”, “no change”, or “deterioration”.
Sputum samples were analyzed using the Human XL Cytokine Array (R&D Systems, Minneapolis, MN, USA). Sputum samples were collected at V1 and V2 as described previously [
The tolerability of the treatment was assessed by investigators and patients independently at V2 as “poor”, “satisfactory”, “good”, or “very good”. All adverse events were documented, and their relations to the treatment were evaluated by the investigators.
Data were analyzed using the statistical software package SPSS version 23 (IBM Corp, Armonk, NY, USA). Data were entered in the database by two persons independently to avoid errors. The corrected database underwent a plausibility test for the range of single variables. The level of statistical significance was set to 5% for all tests. The BSS and individual symptoms scores were analyzed descriptively and tested for normal distribution using the Kolmogorov–Smirnov test. The Wilcoxon signed-ranks test was used to detect significant differences between baseline and final symptom scores. The variables of the general effectiveness, general tolerability of the treatment, and sputum samples were analyzed descriptively. Comparisons of the baseline-adjusted symptom scores between the two groups were analyzed using the Mann–Whitney
In all, 135 patients were recruited; 79 patients (58.5%) received ectoine inhalation solution and 56 (41.5%) saline inhalation solution. Patients were 5 to 87 years of age; the mean age was similar between the ectoine (45.0 years) and the saline groups (45.3 years). Most patients were adults (ectoine: 91.1%, saline: 94.6%). There were more female than male patients in both groups (ectoine: 63.3% female, 36.7% male; saline: 63.6% female, 36.4% male); the distribution of female and male patients was similar between both groups. About 50% of patients suffered from bronchitis and 50% from bronchitis and acute respiratory infections (ectoine group: 46.8% and 48.2% of patients; saline group: 48.2% and 48.2% of patients, respectively); the diagnoses of two patients in each group were not specified. There were more patients who smoked >10 cigarettes/day in the ectoine group (7.6%) than in the saline group (3.6%). There were also more asthma patients in the ectoine group (6.3%) than in the saline group (1.8%) (Table
Patient characteristics at baseline.
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79 (58.5%) | 56 (41.5%) | |
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Mean ± SD | 45.0 ± 20.0 | 45.3 ± 18.8 |
Median | 49.0 | 47.5 | |
Minimum | 5 | 5 | |
Maximum | 87 | 83 | |
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5–11 years old | 3 (3.8%) | 2 (3.6%) |
12–17 years old | 4 (5.1%) | 1 (1.8%) | |
≥18 years old | 72 (91.1%) | 53 (94.6%) | |
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Female | 50 (63.3%) | 35 (63.6%) |
Male | 29 (36.7%) | 20 (36.4%) | |
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Acute bronchitis | 37 (46.8%) | 27 (48.2%) |
Acute bronchitis and acute respiratory infections | 40 (48.2%) | 27 (48.2%) | |
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6 (7.6%) | 2 (3.6%) | |
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5 (6.3%) | 1 (1.8%) |
N: number; SD: standard deviation.
One patient in each group did not appear at V2. Six patient diaries and 13 FU questionnaires were not submitted. Data of these patients were included in the analysis using the last-value-carried-forward method.
The physicians’ assessments showed that the BSS and the individual scores for the symptoms of cough, chest pain when coughing, auscultation findings, dyspnea, and expectoration decreased significantly in both groups from V1 to V2 (
Reductions in symptom scores from V1 to V2 and from V1 to FU.
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Ectoine | 5.13 ± 3.11 | 5.35 ± 3.75 |
Saline | 4.71 ± 3.57 | 5.40 ± 2.98 | |
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Ectoine | 1.48 ± 1.06 | 1.66 ± 1.09 |
Saline | 1.38 ± 1.25 | 1.60 ± 1.10 | |
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Ectoine | 1.00 ± 1.05 | 1.06 ± 1.16 |
Saline | 0.94 ± 0.92 | 1.08 ± 0.81 | |
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Ectoine | 0.91 ± 0.96 | 0.83 ± 1.16 |
Saline | 0.69 ± 0.88 | 0.76 ± 0.78 | |
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Ectoine | 0.61 ± 0.94 | 0.57 ± 1.08 |
Saline | 0.54 ± 0.91 | 0.53 ± 0.90 | |
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Ectoine | 0.99 ± 0.97 | 1.13 ± 1.08 |
Saline | 1.04 ± 1.01 | 1.15 ± 0.98 |
BSS: Bronchitis Severity Score; FU: follow-up; SD: standard deviation; V1: Visit 1; V2: Visit 2.
Symptom scores (mean ± SD;
The patients’ assessments also indicate that symptoms improved more in the ectoine group than in the saline group. However, comparisons of the baseline-adjusted scores did not yield significant differences between the two groups (
The area under the curve of baseline-adjusted symptom scores shown in Figure
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15.58 ± 13.88 | 11.81 ± 15.73 |
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4.24 ± 4.52 | 3.77 ± 5.20 |
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3.64 ± 4.42 | 2.94 ± 4.07 |
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2.61 ± 3.71 | 1.40 ± 4.29 |
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1.74 ± 5.39 | 2.08 ± 5.59 |
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3.36 ± 4.29 | 1.62 ± 3.70 |
BSS: Bronchitis Severity Score; SD: standard deviation.
Baseline-adjusted symptom scores (mean ± SEM; analyses of the area under the curve are presented in Table
Symptoms of patients treated with ectoine improved earlier than those of patients treated with saline. The first significant reduction in the score for the symptoms of cough, chest pain when coughing, dyspnea, and auscultation findings was reported beginning on day 2 in the ectoine group (
After treatment, more patients in the ectoine group (73.0%) than in the saline group (67.3%) assessed their condition as “completely recovered” or “greatly improved”. Similarly, more physicians (76.6%) assessed patients treated with ectoine as being “completely recovered” or “greatly improved” than did so (72.2%) for patients treated with saline.
The physicians’ assessments showed that the patients’ general health improved in both groups from V1 to V2. The mean general health score increased by 40.7% in the ectoine group and by 35.8% in the saline group from V1 to V2. In analogy to the physicians’ assessments, the patients’ assessments also showed that general health improved in both groups. From V1 to V2, the general health score increased by 30.6% in the ectoine group and by 30.6% in the saline group. From V1 to FU, it increased by 79.3% in the ectoine group and by 80.2% in the saline group. The first significant increase in the general health scores was reported beginning on day 2 in both groups.
Almost all patients and physicians assessed the ectoine inhalation solution (96.1% of patients and 97.4% of physicians) and the saline inhalation solution (96.4% of patients and 96.4% of physicians) as being “good” or “very good”.
Two treatment-related adverse events occurred in the ectoine group and one in the saline group. In the ectoine group, one patient had nausea and headache immediately after inhalation, and the other patient had a dry cough that interrupted inhalation. In the saline group, one patient had a burning sensation in the throat 20 minutes after inhalation. No interventions were needed for these events. No fatalities or serious adverse events occurred in this study.
Sputum samples were obtained from 11 patients. Samples from four patients receiving ectoine and two receiving saline were adequate for the assay. Our analysis showed that the changes from V1 to V2 in the levels of three growth factors—angiopoietin-1, epidermal growth factor, and interleukin-10—in the ectoine group were greater than those in the saline group (data not shown).
The results of this study suggested that ectoine inhalation solution seems to be slightly more effective than normal saline inhalation solution in the treatment of acute bronchitis and acute respiratory infections. The first significant reductions in symptom scores occurred earlier in the ectoine group than in the saline group. Patients and physicians rated the effectiveness of ectoine slightly more favorably than that of saline inhalation solution. Symptom score reductions were slightly greater in the ectoine group than in the saline group. The analysis of the area under the curve for the symptoms of dyspnea and auscultation findings was significantly greater in the ectoine than in the saline group, albeit in the range expected when testing more than 20 independent variables.
Because this study did not include a placebo control, we compared the BSS reductions observed in this study with those from previous studies. Similar to our study, those studies were also conducted using natural, nonpharmacological treatment modalities for bronchitis. In two studies investigating an herbal preparation from
This observational study was designed in accordance with the German Medical Devices Act, section 23b, and aimed to investigate the study medications under routine clinical practice. A placebo control is not allowed in this study design; instead, we compared ectoine inhalation solution with an active control—normal saline inhalation solution. Although this study was nonrandomized, the similar demographic characteristics at baseline allowed for a comparison of the effectiveness between the two treatments.
In this pilot study, conducted under real-life conditions, ectoine inhalation solution seems to be slightly more effective than saline inhalation solution for the treatment of acute bronchitis and acute respiratory infections. It acts faster than saline inhalation solution does. Furthermore, patients and physicians assessed ectoine inhalation solution slightly more favorably than saline inhalation solution.
Bronchitis Severity Score
Follow-up
Standard deviation
Visit.
The data used to support the findings of this study are available from the corresponding author upon request.
Binh-Hai Tran, Van-Anh Dao, and Kija Shah-Hosseini declare that they have no conflicts of interest. Andreas Bilstein is an employee of bitop AG (Dortmund, Germany). Klaus Unfried reports grants from bitop AG (Dortmund, Germany). Ralph Mösges reports personal fees from ALK, grants from ASIT biotech, personal fees from Allergopharma, personal fees from Allergy Therapeutics, grants and personal fees from Bencard, grants from Leti, grants, personal fees, and nonfinancial support from Lofarma, nonfinancial support from Roxall, grants and personal fees from Stallergenes, grants from Optima, personal fees from Friulchem, personal fees from Hexal, personal fees from Servier, personal fees from Klosterfrau, nonfinancial support from Atmos, personal fees from Bayer, nonfinancial support from Bionorica, personal fees from FAES, personal fees from GSK, personal fees from MSD, personal fees from Johnson & Johnson, personal fees from Meda, personal fees and nonfinancial support from Novartis, nonfinancial support from Otonomy, personal fees from Stada, personal fees from UCB, nonfinancial support from Ferrero, grants from bitop AG, grants from Hulka, personal fees from Nuvo, and grants from Ursapharm, outside the submitted work.
This study was funded by bitop AG (Dortmund, Germany). We thank Yann Reydelet for his contribution to the project management and Gena Kittel for editing the manuscript. We also thank the patients who participated in this study.