Abstract
Salivary pepsin is a promising marker for the non-invasive diagnosis of laryngopharyngeal reflux (LPR). For reliable results regarding pepsin in saliva, it is critical to standardize the collection, storage, and pre-processing methods. In this study, we optimized the saliva collection protocols, including storage conditions, i.e., solution, temperature, and time, and the pre-processing filter for pepsin. Moreover, we prepared a simple immunochromatographic strip for the rapid detection of pepsin and evaluated its sensing performance. As a result, we selected a polypropylene (PP) filter as the pre-processing filter for salivary pepsin in low resource settings, such as those where point of care testing (POCT) is conducted. This filter showed a similar efficiency to the centrifuge (standard method). Finally, we detected the pepsin using gold nanoparticles conjugated with monoclonal pepsin antibody. Under optimized conditions, the lower limit of detection for pepsin test strips was determined as 0.01 μg/mL. Furthermore, we successfully detected the salivary pepsin in real saliva samples of LPR patients, which were pre-processed by the PP filter. Therefore, we expect that our saliva collection protocol and pepsin immunochromatographic strip can be utilized as useful tools for a non-invasive diagnosis/screening of LPR in POCT.
Highlights
Laryngopharyngeal reflux (LPR) is the backflow of gastric contents, such as food or stomach acid, into the larynx and pharynx, causing mucosal damage and several upper airway inflammatory disorders [1,2]
To evaluate the performance of the selected filter, we compared the pepsin levels in the saliva of laryngopharyngeal reflux (LPR) patients (n = 8), which were pre-processed by the PP filter and a centrifuge, utilizing a pepsin enzyme-linked immunosorbent assay (ELISA) assay
LPRpepsin diagnostics, it is mandatory to the standardize saliva collection, storage, best results in saliva-based diagnostics, it is mandatory to standardize saliva collection, storage, and pre-processing methods for salivary pepsin
Summary
Laryngopharyngeal reflux (LPR) is the backflow of gastric contents, such as food or stomach acid, into the larynx (voice box) and pharynx (throat), causing mucosal damage and several upper airway inflammatory disorders [1,2]. The symptoms of LPR usually include hoarseness, globus pharyngeus, chronic cough, dysphagia, throat clearing, and sore throat [3,4]. The diagnosis of LPR has been based on laryngeal symptoms and laryngoscopic findings, including subglottic edema, erythema, posterior commissure hypertrophy, and thick mucus [5,6]. These methods lack sensitivity and selectivity for LPR detection [7]. Sensors 2020, 20, 325 invasiveness, high cost, and discomfort [8,9]. It is necessary to develop an accurate, less costly, non-invasive diagnostic method for the diagnosis of LPR
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