5 Must Know Facts For Your Next Test

1. Saliva contains antimicrobial proteins, such as lysozyme and immunoglobulin A (IgA), which help inhibit the growth of pathogens in the mouth.
2. Certain DNA viruses, like Epstein-Barr virus (EBV) and cytomegalovirus (CMV), can be transmitted through saliva, emphasizing its role in viral spread.
3. The pH level of saliva is usually slightly acidic to neutral, providing an optimal environment for oral enzymes to function effectively.
4. Saliva production can be influenced by various factors including hydration levels, medication use, and stress, affecting oral health and disease susceptibility.
5. In addition to aiding digestion, saliva also plays a role in taste sensation by dissolving food particles and allowing them to interact with taste receptors.

Review Questions

• How does saliva contribute to oral health and the prevention of infections?
  • Saliva plays a vital role in maintaining oral health by providing lubrication for chewing and swallowing, as well as containing antimicrobial substances like lysozyme and IgA. These components help reduce the growth of bacteria and viruses in the oral cavity. Additionally, saliva acts as a natural cleanser, washing away food particles and debris, which further protects against infections and cavities.
• Discuss the significance of saliva in the transmission of DNA viruses, particularly those linked to clinical conditions.
  • Saliva is significant in the transmission of DNA viruses such as Epstein-Barr virus (EBV) and cytomegalovirus (CMV), which can be present in high concentrations in this fluid. These viruses are primarily spread through close contact and can lead to various clinical conditions, including infectious mononucleosis and congenital infections. Understanding this transmission route helps public health efforts focus on prevention strategies.
• Evaluate how alterations in saliva composition can affect the virulence of DNA viruses and their impact on overall health.
  • Alterations in saliva composition can significantly affect the virulence of DNA viruses by either enhancing or inhibiting their replication and transmission. For example, changes that lower antimicrobial proteins may allow viruses like CMV to replicate more freely within the oral cavity. This can lead to higher viral loads during shedding periods, increasing the likelihood of transmission and potentially exacerbating health issues in susceptible populations. Thus, monitoring salivary changes can provide insights into viral behavior and public health implications.

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