Yazar "Yanıkoğlu, Reyhan" için listeleme
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Co-Binding of Methotrexate and Cyclophosphamide Via Folic Acid-Decorated Graphene Oxide Nanomaterials for Therapeutic Approach Against Breast Cancer
Yanıkoğlu, Reyhan; Karakaş, Canan Yağmur; İnsel, Mert Akın; Sevgi, Merve; Çağlar, Esmahan; Abdioğlu, Hasan Berkay; Işık, Yağmur; Çalık, Hilal; Zaman, Ali Can; Çiftçi, Fatih; Çakır, Rabia; Üvet, Hüseyin; Üstündağ, Cem Bülent (Wiley, 2025)In this study, we developed a graphene oxide (GO)-based nanocarrier system co-loaded with methotrexate (MTX) and cyclophosphamide (CP) and functionalized with folic acid (FA) for targeted drug delivery. The synthesized ... -
Correction to: Four‑Dimensional (4D) Bioprinting: A Systematic Scoping Review of Stimuli‑Responsive Constructs for Applications in Tissue Engineering and Drug Delivery
Moghaddas, Mohammad; Oktay, Büşra; Bingöl, Ayşe Betül; Yanıkoğlu, Reyhan; Çiftçi, Fatih; Üstündağ, Cem Bülent (Springer, 2025)The publication of this article unfortunately contained mistakes. There were several errors within the text. The corrected text is given below. Citation–claim mismatch errors In this section, we categorize errors where ... -
Development of Graphene Oxide-Based Anticancer Drug Combination Functionalized with Folic Acid as Nanocarrier for Targeted Delivery of Methotrexate
Yanıkoğlu, Reyhan; Karakaş, Canan Yağmur; Çiftçi, Fatih; İnsel, Mert Akın; Karavelioğlu, Zeynep; Varol, Rahmetullah; Yılmaz, Abdurrahim; Çakır, Rabia; Uvet, Hüseyin; Üstündağ, Cem Bülent (MDPI, 2024)Graphene has become a prominent material in cancer research in recent years. Graphene and its derivatives also attract attention as carriers in drug delivery systems. In this study, we designed a graphene oxide (GO)-based ... -
Four‑Dimensional (4D) Bioprinting: A Systematic Scoping Review of Stimuli‑Responsive Constructs for Applications in Tissue Engineering and Drug Delivery
Moghaddasi, Mohammad; Oktay, Büşra; Bingöl, Ayşe Betül; Yanıkoğlu, Reyhan; Çiftçi, Fatih; Üstündağ, Cem Bülent (Springer Nature, 2025)Four-dimensional (4D) bioprinting integrates with stimuli-responsive biomaterials to create dynamic constructs capable of adapting their shape, properties, or bioactivity in response to specific cues. This systematic ...
