Muhammad Anwar-ul- Haq
M. Phil. Scholar in Zoology Department of Biological & Environmental Sciences Emersion University Multan
The human history is full of the therapeutic application of the honey in folk as well as modern medicine. Honey is used as a significant stimulus throughout the world. The history of Honey-made medicine had linked with the history of human beings.
The new emerging nano-technology branch of science involves the creation of honey-nanoparticle complexes, which develop a new theme to enhance the bioavailability and efficacy of honey’s therapeutic compounds. The exploring the potential of honey-nanoparticle complexes for addressing a range of health challenges in the fields of medical science now a days. In recent days, the researchers are engaging to discover the new paradigm from the honey-combination nanomaterials because the honey due to its unique properties as an antioxidant are frequently and progressive used in the treatments of various diseases like antimicrobial, anti-inflammatory infections of various organs and organ system of the human body.
While the concept of honey-nanoparticle complexes holds considerable promise, but the several challenges and uncertainties must be addressed to fully realize their therapeutic potential. The more significant impact of honey-made nanomaterials is the efficacy and safety of honey conjugates, which is used in different preparations of the human disease targeted drugs but one of the major concerns is the lack of standardization in honey’s composition and quality. In other side the nano-experts claimed that this new research has shown that to be more effective in treating various diseases, including wounds, cancer, and neurodegenerative disorders.
They may also have potential as antimicrobial agents, reducing the need for traditional antibiotics. Additionally, the scalability and cost-effectiveness of honey-nanoparticle complex production must be carefully evaluated to ensure their viability as a therapeutic option. So, to fully realize the therapeutic potential of honey-nanoparticle complexes, it must be prioritized to further research and development. This includes investing in rigorous clinical trials, developing standardized methods for honey-nanoparticle complex production, and exploring new applications and delivery systems. Finally, it is concluded that, the therapeutic potential of honey-nanoparticle complexes is undeniable. However, it is essential that by adopting a critical and nuanced perspective approaches and acknowledging, both the opportunities and challenges associated with this targeted area of research of nanomaterials and by prioritizing further research and development to unlock the full potential of honey-nanoparticle complexes and provide innovative solutions to various health challenges.
