• 제목/요약/키워드: nanotoxicity

검색결과 20건 처리시간 0.03초

Integration of metabolomics and transcriptomics in nanotoxicity studies

  • Shin, Tae Hwan;Lee, Da Yeon;Lee, Hyeon-Seong;Park, Hyung Jin;Jin, Moon Suk;Paik, Man-Jeong;Manavalan, Balachandran;Mo, Jung-Soon;Lee, Gwang
    • BMB Reports
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    • 제51권1호
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    • pp.14-20
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    • 2018
  • Biomedical research involving nanoparticles has produced useful products with medical applications. However, the potential toxicity of nanoparticles in biofluids, cells, tissues, and organisms is a major challenge. The '-omics' analyses provide molecular profiles of multifactorial biological systems instead of focusing on a single molecule. The 'omics' approaches are necessary to evaluate nanotoxicity because classical methods for the detection of nanotoxicity have limited ability in detecting miniscule variations within a cell and do not accurately reflect the actual levels of nanotoxicity. In addition, the 'omics' approaches allow analyses of in-depth changes and compensate for the differences associated with high-throughput technologies between actual nanotoxicity and results from traditional cytotoxic evaluations. However, compared with a single omics approach, integrated omics provides precise and sensitive information by integrating complex biological conditions. Thus, these technologies contribute to extended safety evaluations of nanotoxicity and allow the accurate diagnoses of diseases far earlier than was once possible in the nanotechnology era. Here, we review a novel approach for evaluating nanotoxicity by integrating metabolomics with metabolomic profiling and transcriptomics, which is termed "metabotranscriptomics."

질병 유발 독성 물질(산화아연 나노선) 검출 기술 개발 (Disease inducing material ; Zinc Oxide nanowire detection)

  • 유준석;박진성;장규환;이상명;나성수
    • 한국소음진동공학회:학술대회논문집
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    • 한국소음진동공학회 2014년도 춘계학술대회 논문집
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    • pp.81-82
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    • 2014
  • Recently it is often reported about toxic nanomaterials to organisms. In other words, it is called nanotoxicity, toxic nanomaterials have extremely toxic properties. Zinc oxide is widely used as a promising nanomaterials, but some researchers are warning that nanotype zinc oxide has nanotoxicity. One of typical zinc oxide materials is a zinc oxide nanowire, especially, there is no technique which is detecting a zinc oxide nanowire because of its geometric. In here, we use reduced graphene oxide in order to detect zinc oxide nanowire and use DNA immobilized cantilever sensor, we detect graphene wrapped zinc oxide nanowire. Detection of a zinc oxide nanowire is measured by shifting of cantilever's resonance frequency based on vibration theory. It is proved that cantilever sensor is valid for nanomaterial detection. We showed that detection of a zinc oxide nanowire is successful.

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KPFM을 통한 수은이온 검출 방법 (Mercury ion detection technique using KPFM)

  • 박찬호;장규환;이상명;유준석;나성수
    • 한국소음진동공학회:학술대회논문집
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    • 한국소음진동공학회 2014년도 추계학술대회 논문집
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    • pp.358-360
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    • 2014
  • For the several decades, various nanomaterials are broadly used in industry and research. With the growth of nanotechnology, the study of nanotoxicity is being accelerated. Particularly, mercury ion is widely used in real life. Because the mercury is representative high toxic material, it is highly recommended to detect the mercury ion. In previous reported work, thymine-thymine mismatches (T-T) capture mercury ion and create very stable base pair ($T-Hg^{2+}-T$). Here, we performed the high sensitive sensing method for direct label free detection of mercury ions and DNA binding using Kelvin Probe Force Microscope (KPFM). In this method, 30 base pairs of thymine (T-30) is used for mercury specific DNA binding ($T-Hg^{2+}-T$). KPFM is able to detect the mercury ion because there is difference between bare T-30 DNA and mercury mediated DNA ($T-Hg^{2+}-T$).

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어류수정란 발달에 미치는 나노독성 연구동향: (1) 탄소계 및 기타 나노물질 (Effect of Nanomaterials on the Early Development of Fish Embryos: (1) Carbon and Other Nanomaterials)

  • 신유진;안윤주
    • 한국물환경학회지
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    • 제28권5호
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    • pp.762-767
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    • 2012
  • The ecotoxicity assessment of nanomaterials (NMs) in the environment is actively conducted throughout the world because of the concerns about their potential risk from usage and release into the environment, as well as their unique physiochemical properties. Ecotoxicity tests for NMs have been conducted using various species and methods; however, in spite of these efforts, the characteristics and toxicity of NMs have not been defined. The fish embryo toxicity test (FET) has been conducted extensively to evaluate the toxicity of NMs as an alternative to a whole-body test in fish. In this study, we collected and analyzed the trends of nanotoxicity on the early development of freshwater fish. The model nanomaterials are carbon NMs ($C_{60},\;C_{70},\;C_{60}$(OH)n and carbon nanotube). Their adverse effects were extensively investigated based on the properties of NMs, test species, and diverse exposure conditions.

토양선충 Caenorhabditis elegans를 이용한 나노독성 연구동향 (Research Trends for Nanotoxicity Using Soil Nematode Caenorhabditis elegans)

  • 김신웅;이우미;안윤주
    • 대한환경공학회지
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    • 제34권12호
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    • pp.855-862
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    • 2012
  • Free-living 선충으로 알려진 Caenorhabditis elegans는 주로 토양 공극수에서 서식하며, 토양 영양단계, 에너지 흐름, 그리고 분해자로서 중요한 역할을 하는 것으로 알려져 있다. 최근 들어, C. elegans는 나노독성연구에 널리 사용되고 있는 추세이다. 본 연구에서는 C. elegans를 이용한 나노독성과 그에 대한 기작에 관련된 선행연구를 조사하였으며, 총 20건의 연구를 확인하였다. 대부분의 연구는 K-medium, S-medium, 그리고 NGM (Nematode Growth Medium) plate를 노출매체로 이용하고 있으며, 나노물질에 노출된 C. elegans로부터 관찰된 영향으로는 노화억제, 광독성영향, 유전독성, 그리고 표피자극 등이 포함되었다. C. elegans를 이용한 독성기작 연구는 개체 생활사 영향 평가, 산화스트레스 영향 평가, 유전독성영향 평가, 나노물질의 생체 내 분포, 그리고 나노물질 특성에 의한 독성영향 평가로 분류할 수 있다. 본 연구에서는 다양한 세포활성, 잘 알려진 유전정보, 그리고 투명한 구조로 인한 나노물질 관찰의 용이성을 바탕으로, C. elegans를 이용한 나노독성연구의 장점을 확인하였다. C. elegans는 나노독성을 평가하기에 적합한 시험종으로 고려되고 있다.

Effect of Chemical Stabilizers in Silver Nanoparticle Suspensions on Nanotoxicity

  • Bae, Eun-Joo;Park, Hee-Jin;Park, Jun-Su;Yoon, Je-Yong;Kim, Young-Hun;Choi, Kyung-Hee;Yi, Jong-Heop
    • Bulletin of the Korean Chemical Society
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    • 제32권2호
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    • pp.613-619
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    • 2011
  • Colloidal silver nanoparticles (AgNPs) have been commercialized as the typically stabilized form via the addition of a variety of surfactants or polymers. Herein, to examine the effects of stabilizing AgNPs in suspension, we modified the surface of bare AgNPs with four type of surfactants (NaDDBS, SDS, TW80, CTAB) and polymers (PVP, PAA, PAH, CMC). The modified AgNPs was applied to compare suspension stability and nanotoxicity test using Escherichia coli (E. coli) as a model organism. Modification of AgNPs surface using chemical stabilizer may be not related with molecular weight, but chemical structure such as ionic state and functional group of stabilizer. In this study, it is noteworthy that AgNPs modified with a cationic stabilizer (CTAB, PAH) were importantly toxic to E. coli, rather than anionic stabilizers (NaDDBS, SDS). Comparing similar anionic stabilizer, i.e., NaDDBS and SDS, the result showed that lipophilicity of chemical structure can affect on E. coli, because NaDDBS, which contains a lipophilic benzene ring, accelerated the cytotoxicity of AgNPs. Interestingly, none of the stabilizers tested, including biocompatible nonionic stabilizers (i.e., TW80 and cellulose) caused a reduction in AgNP toxicity. This showed that toxicity of AgNPs cannot be reduced using stabilizers.

Some nanotoxicity effects of copper (60-80 nm) and copper oxide (40 nm) nanoparticles on Artemia salina

  • Isil Canan Cicek Cimen;Durali Danabas;Mehmet Ates
    • Advances in nano research
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    • 제16권5호
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    • pp.501-508
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    • 2024
  • In this study, nanotoxicity tests were made by exposure of Artemia salina to copper (Cu 60-80 nm) and copper oxide (CuO 40 nm) nanoparticles (NPs) at different concentrations (0.2, 1, 5, 10, 25, and 50 mg/L). The LC50 value of Cu (60-80 nm) NPs on the A. salina individuals at the beginning (0), 24th, 48th and 72nd hours and elimination period was 52.37 mg/L while the LC50 value of CuO (40 nm) NPs was 55.39 mg/L. The results of UV-Vis absorbance values showed that all statistical data revealed that maximum effect was observed between 24-30 hours and 25 ppm absorbance concentration was more effective. The multiple R, correlation coefficient (R2) and adjusted R2 values of Cu NP for the suitable Quadratic model were, respectively; 92.96 %, 86.42 % and 76.71 % while they are 98.31 %, 96.64 % and 94.25 % for CuO NP. Also, the data, was indicated effect size significantly changed based on the type and size of NP. Considering the microscope results, it was clearly noticed that A. salina organisms took the NPs in to their body. The accumulation in the gut of A. salina was observed and the images were taken with phase contrast microscope for both of NPs. The highest decrease for survival rates of A. salina individuals exposed to Cu NP was observed in the 10 ppm concentration (43.47 %) and in the 5 ppm concentration (46.20 %) for CuO NP. The results revealed that Cu and CuO NPS showed different toxic effects and that Cu NPs were more toxic than CuO.

수환경에서 나노입자의 생태독성 연구동향 (Research Trends of Ecotoxicity of Nanoparticles in Water Environment)

  • 이우미;안윤주
    • 한국물환경학회지
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    • 제26권4호
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    • pp.566-573
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    • 2010
  • Nanotechnology has been applied to various fields in our life. Although there is a limitation of nanoparticle monitoring so far, it is expected that nanoparticles are widely distributed in environmental multimedia. Nanoparticle is known to be more toxic than its corresponding bulk material. For this reason, developed countries and international organizations are preparing for future regulation. To evaluate the safety of nanoparticles, nanotoxicity studies are internationally underway. In this study, we evaluated the research trends of ecotoxicity of nanoparticles in water environment. Test species include fish, water flea, and algae. Nanoecotoxicological studies are rapidly increasing and the experimental designs become more sophisticated. Physicochemical properties of nanoparticles should be measured and the ionization potential is important for metal-based nanoparticles. We analyzed the research trends based on the type of nanoparticles and test species. Also experimental aspects of nanoecotoxicology are considered.

Microfluidic Image Cytometry (μFIC) Assessments of Silver Nanoparticle Cytotoxicity

  • Park, Jonghoon;Yoon, Tae Hyun
    • Bulletin of the Korean Chemical Society
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    • 제33권12호
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    • pp.4023-4027
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    • 2012
  • Cytotoxicity assessment of silver nanoparticles (AgNPs) was performed using MTT-based microfluidic image cytometry (${\mu}FIC$). The $LC_{50}$ value of HeLa cells exposed to AgNPs in the microfluidic device was estimated as 46.7 mg/L, which is similar to that estimated by MTT-based IC for cells cultured in a 96 well plate (49.9 mg/L). These results confirm that the ${\mu}FIC$ approach can produce cytotoxicity data that is reasonably well-matched with that of the conventional 96 well plate system with much higher efficiency. This ${\mu}FIC$ method provides many benefits including ease of use and low cost, and is a more rapid in vitro cell based assay for AgNPs. This may aid in speeding up data acquisition in the field of nanosafety and make a significant contribution to the quantitative understanding of nanoproperty-toxicity relationships.

Size-dependent toxicity of silver nanoparticles to Glyptotendipes tokunagai

  • Choi, Seona;Kim, Soyoun;Bae, Yeon-Jae;Park, June-Woo;Jung, Jinho
    • Environmental Analysis Health and Toxicology
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    • 제30권
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    • pp.3.1-3.6
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    • 2015
  • Objectives This study aims to evaluate the size-dependent toxicity of spherical silver nanoparticles (Ag NPs) to an endemic benthic organism, Glyptotendipes tokunagai. Methods Ag nanoparticles of three nominal sizes (50, 100, and 150 nm) capped with polyvinyl pyrrolidone (PVP-Ag NPs) were used. Their physicochemical properties, acute toxicity (48 hours), and bioaccumulation were measured using third instar larvae of G. tokunagai. Results The aggregation and dissolution of PVP-Ag NPs increased with exposure time and concentration, respectively, particularly for 50 nm PVP-Ag NPs. However, the dissolved concentration of Ag ions was not significant compared with the median lethal concentration value for $AgNO_3$ (3.51 mg/L). The acute toxicity of PVP-Ag NPs was highest for the smallest particles (50 nm), whereas bioaccumulation was greatest for the largest particles (150 nm). However, larger PVP-Ag NPs were absorbed and excreted rapidly, resulting in shorter stays in G. tokunagai than the smaller ones. Conclusions The size of PVP-Ag NPs significantly affects their acute toxicity to G. tokunagai. In particular, smaller PVP-Ag NPs have a higher solubility and stay longer in the body of G. tokunagai, resulting in higher toxicity than larger PVP-Ag NPs.