हमारा समूह 1000 से अधिक वैज्ञानिक सोसायटी के सहयोग से हर साल संयुक्त राज्य अमेरिका, यूरोप और एशिया में 3000+ वैश्विक सम्मेलन श्रृंखला कार्यक्रम आयोजित करता है और 700+ ओपन एक्सेस जर्नल प्रकाशित करता है जिसमें 50000 से अधिक प्रतिष्ठित व्यक्तित्व, प्रतिष्ठित वैज्ञानिक संपादकीय बोर्ड के सदस्यों के रूप में शामिल होते हैं।
ओपन एक्सेस जर्नल्स को अधिक पाठक और उद्धरण मिल रहे हैं
700 जर्नल और 15,000,000 पाठक प्रत्येक जर्नल को 25,000+ पाठक मिल रहे हैं
Jun Pyo
Lead is a toxic heavy metal that can have detrimental effects on various organs and tissues in the human body. However, its impact on middle ear epithelial cells, which play a crucial role in maintaining ear health and function, remains poorly understood. This study aimed to investigate the effect of lead on human middle ear epithelial cells.
Primary cultures of human middle ear epithelial cells were exposed to different concentrations of lead for a specified period. Cellular viability, morphology, and function were assessed using various assays. The expression levels of genes related to inflammation, oxidative stress, and cell damage were analyzed using quantitative PCR. Additionally, the production of pro-inflammatory cytokines was measured using enzyme-linked immunosorbent assays.
The results revealed that lead exposure significantly reduced the viability of middle ear epithelial cells in a dosedependent manner. The cells exhibited morphological changes, including cellular shrinkage and membrane damage. Furthermore, lead exposure upregulated the expression of inflammation-related genes and increased the production of pro-inflammatory cytokines. Increased oxidative stress markers were also observed in lead-exposed cells.
In conclusion, this study demonstrates that lead exposure adversely affects human middle ear epithelial cells by compromising cell viability, inducing morphological alterations, and triggering inflammatory responses. These findings provide valuable insights into the potential role of lead in the development or exacerbation of middle ear disorders. Understanding the mechanisms underlying lead toxicity in the middle ear may contribute to the development of targeted interventions for mitigating its detrimental effects.