Wyszyńska Magdalena, Czelakowska Aleksandra, Rosak Przemysław, Kasperski Jacek, Łopacińska Maria, Ghanem Amir, Mertas Anna, Skucha-Nowak Małgorzata
Department of Dental Materials, Division of Medical Sciences in Zabrze, Medical University of Silesia in Katowice, 15 Poniatowskiego Street, 40-055 Katowice, Poland.
Department of Dental Prosthetics, Division of Medical Sciences in Zabrze, Medical University of Silesia in Katowice, 15 Poniatowskiego Street, 40-055 Katowice, Poland.
J Clin Med. 2023 Aug 26;12(17):5556. doi: 10.3390/jcm12175556.
Exhaled nitric oxide is helpful in the diagnosis of the inflammation process. The study aimed to analyze the impact of the COVID-19 disease on the oral bacterial flora of patients using complete dentures with a diagnostic device that measures the level of NO in exhaled air.
The study included patients using upper and lower acrylic complete dentures. All patients participating in the study were vaccinated against COVID-19. The patients were divided into two groups. A dental examination was conducted in each group. The NO concentration was measured using the Vivatmo Pro device. An oral microbiological examination was performed by taking a swab from the bottom of the mouth.
There were no statistically significant differences in the distribution of NO in relation to the number of bacteria from isolated families in the study and control groups and no statistically significant correlations between the level of NO and the number of bacteria from all families in the control and study group. Significantly higher NO values were present in the vaccinated and COVID-19-positive history population compared to the vaccinated and with no COVID-19 history population (patients with no clinical symptoms of infection or unaware they had COVID-19).
There are statistically significant differences in NO distribution in the considered populations: vaccinated and sick, and vaccinated and with a negative history of COVID-19. The measurement of NO in exhaled air can be a complementary, non-invasive diagnostic and inflammation monitoring method.
呼出一氧化氮有助于炎症过程的诊断。本研究旨在使用一种测量呼出空气中一氧化氮水平的诊断设备,分析新冠病毒疾病对使用全口义齿患者口腔细菌菌群的影响。
本研究纳入了使用上下丙烯酸全口义齿的患者。所有参与研究的患者均接种了新冠疫苗。患者被分为两组。对每组患者进行了牙科检查。使用Vivatmo Pro设备测量一氧化氮浓度。通过从口腔底部取样进行口腔微生物学检查。
在研究组和对照组中,一氧化氮分布与分离菌群的细菌数量之间无统计学显著差异,且对照组和研究组中一氧化氮水平与所有菌群的细菌数量之间无统计学显著相关性。与接种疫苗且无新冠病毒病史的人群(无感染临床症状或未意识到自己感染新冠病毒的患者)相比,接种疫苗且有新冠病毒阳性病史的人群中一氧化氮值显著更高。
在考虑的人群中,即接种疫苗且患病的人群以及接种疫苗且有新冠病毒阴性病史的人群,一氧化氮分布存在统计学显著差异。呼出空气中一氧化氮的测量可以作为一种补充性的、非侵入性的诊断和炎症监测方法。