AI Article Synopsis
- Microorganisms first colonize the nasopharynx before causing respiratory infections, with humans inhaling significant bacterial loads daily, leading to high treatment costs for lung infections in the U.S.
- Curcumin is highlighted as an effective photosensitizer for combating bacteria and biofilms, particularly in the upper respiratory tract where it may help treat conditions like adenoids.
- The study aims to optimize photodynamic therapy (PDT) for rhinosinusitis by simulating bacterial coinfection in vitro and evaluating clinical outcomes using nasal lighting, showing potential for clinical application in treatment.
Article Abstract
A first step for microorganisms to reach the respiratory system and cause infectious disease is colonization in the nasopharynx. Humans inhale a bacterial load of up to 10 per cubic meter of air per day [1], including transient microorganisms between the upper and lower airways. This can lead to lung infections, amounting to billions of dollars in annual direct treatment costs in the United States, depending on the etiologic agent [2,3]. Curcumin has been described as a photosensitizer (PS) that, activated at 450 nm, is efficient against planktonic bacteria [4] and biofilms [5]. At the same time, effects on microbial interactions are commonly detected in the upper respiratory tract and should be considered for the treatment of adenoids [6]. We, therefore, propose in this study to optimize photodynamic therapy (PDT) conditions in vitro by simulating bacterial coinfection conditions in nasal cavities evaluated by the response surface method, where we can evaluate interactions of treatment variables. From this, the clinical case of the treatment of rhinosinusitis was carried out using PDT with nasal lighting. The absence of symptoms that characterize the disease was monitored and evaluated by the Kepler Meyer method. The study points out considerations that can be evaluated for the treatment to be a possibility of clinical indication in the control of rhinosinusitis.
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| http://dx.doi.org/10.1016/j.pdpdt.2022.102892 | DOI Listing |
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