Elektroeğrilmiş Nanoliflerin İlaç Taşıyıcı Sistem Olarak ve Doku Mühendisliğinde Kullanımı

Uzunlukları çaplarına kıyasla oldukça fazla olan nanolifler, sahip oldukları yüksek yüzey/hacim oranı ile ilaç taşıyıcı sistemler ve doku mühendisliği de dahil olmak üzere birçok alanda kullanım potansiyeline sahiptir. Farklı yöntemlerle üretilme imkanı olan nanoliflerin en cazip üretim metodu elektroeğirme yöntemidir. Bu yöntemle üretilen nanoliflerin fizikokimyasal özellikleri; uygulanan voltaj, polimer çözeltisinin akış hızı, kapiller ve kolektör arasındaki mesafe, polimerin fizikokimyasal özellikleri ve kullanılan çözücü gibi birçok parametreden etkilenmektedir. Elektroeğrilmiş nanoliflerin etkin madde salım özellikleri, etkin maddenin difüzyonu ve taşıyıcı polimerin degredasyonu ile belirlenmektedir. Ayrıca nanoliflerin etkin madde salım özelliklerini lifin matriks veya depo yapısında olması, yüzeyinde aktif bileşenlerin bulunması etkilemektedir. Sahip olduğu fiziksel özellikler nedeniyle nanolifler, hücrelerin fizyolojik çevresini taklit etmek amacıyla yapay ekstraselüler matriksler geliştirilerek doku ve organların rejenerasyonunu ya da üretimini hedefleyen doku mühendisliği alanında kullanımı için oldukça elverişlidir. Bu amaçla nanoliflerin yüzey özellikleri değiştirilerek biyobenzer yapılar elde edilebilmektedir. Nanolifler, etkin maddenin hedeflenen salım profilini sağlaması ve biyobenzer özellik kazanarak doku mühendisliğinde kullanımına imkan vermesi ile gelecek vaat eden sistemlerdir.

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