Bioengineering / Biyomühendislik

Permanent URI for this collectionhttps://hdl.handle.net/11147/4529

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Author: search.filters.author.Hanoğlu, Berçem DilanHas files: Yes

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  • Article
    Novel Coronavirus Disease: Overview and Recent Situation
    (İstanbul Üniversitesi-Cerrahpaşa Sağlık Bilimleri Fakültesi, 2020) Öksel, Ceyda; Bilgi, Eyüp; Başlar, Muhammet Semih; Çeşmeli, Selin; Tomak, Aysel; Hanoğlu, Berçem Dilan
    In the last days of 2019, local hospitals in Wuhan city (population of 11 million) reported several pneumonia cases with unknown etiology among people linked to the Huanan Seafood Wholesale Market. The virus, which is thought to be the source of the unknown viral infection, was first identified as a new type of coronavirus on January 7, 2020. With the first case reported in Thailand about a week later, the virus’s spread outside the borders of China became apparent. In an alarmingly short time, the new type of coronavirus disease (called COVID-19) started to gain worldwide recognition with the detection of various COVID-19 cases in multiple countries, including Japan, South Korea, USA, Singapore, France, Germany, Italy, Spain, and England. As a result of its rampant spread and fatal clinical manifestations, the coronavirus outbreak was declared a pandemic on March 11, 2020, by the World Health Organization (WHO). Turkey announced its first confirmed case of COVID-19 on the same date that WHO characterized COVID-19 as a pandemic. As of April 2020, the COVID-19 pandemic has traveled to 209 countries and territories around the world, infecting more than 3 million people. Since specific treatment and vaccine for COVID-19 are not yet available, early case detection and preventive healthcare practices (isolation, social distancing, and personal hygiene) play a critical role in combating the COVID-19 outbreak. This review is intended to build an overall picture of the COVID-19 outbreak based on the available scientific knowledge.
  • Article
    Citation - WoS: 69
    Citation - Scopus: 73
    Nanoparticle-Protein Corona Complex: Understanding Multiple Interactions Between Environmental Factors, Corona Formation, and Biological Activity
    (Taylor & Francis, 2021) Öksel Karakuş, Ceyda; Tomak, Aysel; Çeşmeli, Selin; Hanoğlu, Berçem Dilan; Winkler, David
    The surfaces of pristine nanoparticles become rapidly coated by proteins in biological fluids, forming the so-called protein corona. The corona modifies key physicochemical characteristics of nanoparticle surfaces that modulate its biological and pharmacokinetic activity, biodistribution, and safety. In the two decades since the protein corona was identified, the importance of nano particles surface properties in regulating biological responses have been recognized. However, there is still a lack of clarity about the relationships between physiological conditions and cor ona composition over time, and how this controls biological activities/interactions. Here we review recent progress in characterizing the structure and composition of protein corona as a function of biological fluid and time. We summarize the influence of nanoparticle characteristics on protein corona composition and discuss the relevance of protein corona to the biological activity and fate of nanoparticles. The aim is to provide a critical summary of the key factors that affect protein corona formation (e.g. characteristics of nanoparticles and biological environ ment) and how the corona modulates biological activity, cellular uptake, biodistribution, and drug delivery. In addition to a discussion on the importance of the characterization of protein corona adsorbed on nanoparticle surfaces under conditions that mimic relevant physiological environment, we discuss the unresolved technical issues related to the characterization of nano particle-protein corona complexes during their journey in the body. Lastly, the paper offers a perspective on how the existing nanomaterial toxicity data obtained from in vitro studies should be reconsidered in the light of the presence of a protein corona, and how recent advances in fields, such as proteomics and machine learning can be integrated into the quantitative analysis of protein corona components.