Quantum Dots and Nanocrystals

Abstract [1].

Clift MJ, Boyles MS, Brown DM, Stone V. (2010). An investigation into the potential for different surface-coated quantum dots to cause oxidative stress and affect macrophage cell signalling in vitro. Nanotoxicology, 4:139-49. Abstract [2].

Derfus, A. M., Chan, W. C. W., Bhatia, S. N. 2003. Probing the cytotoxicity of semiconductor quantum dots. Nano Letters, 4(1), 11-18.

Dubertret, B., Skourides, P., Norris, D. J., Noireaux, V., Brivanlou, A. H. & Libchaber, A. (2002). In vivo imagine of quantum dots encapsulated in phospholipid micelles. Science, 28(5599), 1759-1762.

Fowler, B. A. (2009). Monitoring of human populations for early markers of cadmium toxicity: A review Toxicology & Applied Pharmacology , 238(3): 294-300. DOI:10.1016/j.taap.2009.05.004. Abstract [3].

- NEW - Gao, J., Wang, Y., Hovsepyan, A., and J. J., Bonzongo (2011). Effects of engineered nanomaterials on microbial catalyzed biogeochemical processes in sediments. Journal of Hazardous Materials, 186(1): 940-945 Abstract. [4]

Geys,J., Nemmar, A., Verbeken, E., Smolders, E., Ratoi, M., Hoylaerts, M. F., Nemery, B., and Hoet, P. H. M. (2008). Acute Toxicity and Prothrombotic Effects of Quantum Dots: Impact of Surface ChargeEnvironmental Health Perspectives, 116(12): 1607–1613.Article [5].

Green, M. & Howman, E. (2005). Semiconductor quantum dots and free radical induced DNA nicking. Chemical Communications, 1, 121-1213.

Gagne, F.; Auclair, J.; Turcotte, P.; et al. (February 2008). Ecotoxicity of CdTe quantum dots to freshwater mussels: Impacts on immune system, oxidative stress and genotoxicity. Aquatic Toxicology, 86(3): 333-340.

Gopee, N.V., Roberts, D.W., Webb, P. et al. (2007). Migration of Intradermally Injected Quantum Dots to Sentinel Organs in Mice. Toxicological Sciences, 98(1):249-257. Abstract [6].

Gopee, N.V., Roberts, D.W., Webb, P. Cozart, C.R., Siitonen, P.H., Latendresse, J.R., Warbitton, A.R., Yu, W.W., Colvin, V.L., Walker, N.J., Howard, P.C.(2009). Quantitative determination of skin penetration of PEG-coated CdSe quantum dots in dermabraded but not intact SKH-1 hairless mouse skin. Toxicological Sciences, 11(1):37-48. Abstract [7].

Guo, G.N., Liu, W., Liang, J.G., He, Z.K., Xu, H.B., Yang, X.L. (April 2007). Probing the cytotoxicity of CdSe quantum dots with surface modification. Material Letters, 61(8-9): 1641-1644. Abstract [8].

Hardman, R. (2005). A toxicological review of quantum dots: Toxicity depends on physico-chemical and environmental factors. Environmental Health Perspectives, 114(2): 165-172.
Article [9]

Hinther, A., VAwda, S., Skirrow, R. C., Veldhoen, N., Collins, P. Cullen, J. T., Van Aggelene, G., Helbing, C. C. (2010). Nanometals induce stress and alter thyroid hormone action in amphibia at or below North American water quality guidelines. Environmental Science & Technology, Article ASAP, DOI: 10.1021/es101902n. Abstract [10]

Holbrook, RD; Murphy, KE; Morrow, JB; Cole, KD. (June 2008). Trophic transfer of nanoparticles in a simplified invertebrate food web. Nature Nanotechnology, 3(6): 352-355. Abstract [11]

Hoshino, A., Hanaki, K., Suzuki, K., Yamamoto, K. (2004a). Applications of T-lymphoma labeled with fluorescent quantum dots to cell tracing markers in mouse body. Biochemical and Biophysical Research Communications, 314, 46-53.

Hoshino, A., Fujioka, K., Oku, T., Suga, M., Sasaki, Y. F., Ohta, T., Hasuhara, M., Suzuki, K., & Yamamoto, K. (2004b). Physicochemical properties and cellular toxicity of nanocrystal quantum dots depend on their surface modification. Nano Letters, 4(11): 2163-2169.

Jaiswal, J. K., Mattoussi, H., Mauro, J. M., Simon, S. M., (2003). Long-term multiple color imaging of live cells using quantum dot bioconjugates. Nature Biotechnology, 21, 47-51.

Kato, S., Itoh, K., Yaoi, T., Tozawa, T., Yoshikawa, Y., Yasui, H., Kanamura, N., Hoshino, A., Manabe, N., Yamamoto, K., and Fushiki, S.(2010). Organ distribution of quantum dots after intraperitoneal administration, with special reference to area-specific distribution in the brain. Nanotechnology, 21(33): 335103. doi: 10.1088/0957-4484/21/33/335103.
Abstract [12].

Kennel, SJ; Woodward, JD; Rondinone, AJ; et al. (May 2008). The fate of MAb-targeted (CdTe)-Te-125m/ZnS nanoparticles in vivo. Nuclear medicine and biology, 35(4): 501-514. Abstract [13].

King-Heiden TC, Wiecinski PN, Mangham AN, Metz KM, Nesbit D, Pedersen JA, Hamers RJ, Heideman W, Peterson RE. (2010). Quantum dot nanotoxicity assessment using the zebrafish embryo. Environmental Science & Technology, 43(5):1605-11. PMID: 19350942. Abstract [14].

Larson, D. R., Zipfel, W. R., Williams, R. M., Clark, S. W., Bruchez, M. P., Wise, F. W., et al. (2003). Water-soluble quantum dots for multiphoton fluorescence imaging in vivo. Science, 300(5624), 1434-1436.

Li, HC; Zhou, QF; Liu, W; et al. (May 2008). Progress in the toxicological researches for quantum dots. Science in China Series B-Chemistry , 51(5): 393-400. Abstract [15].

Linse, S., Cabaleiro-Lago, C., Xue, W.F.(May 2007). Nucleation of protein fibrillation by nanoparticles. Proceedings of the National Academy of Sciences of the United States of America, 104(21): 8691-8696. Article [16]

Liu YF, Yu JS.(2010). In situ synthesis of highly luminescent glutathione-capped CdTe/ZnS quantum dots with biocompatibility. Journal of Colloidal Interface Science, 351(1):1-9. PMID: 20719328. Abstract [17].

Lovrick, J., Bazzi, H.S., Cuie, Y., Fortin, G. R., Winnik, F. M. & Maysinger, D. (2005). Differences in subcellular distribution and toxicity of green and red emitting CdTe quantum dots. Journal of Molecular Medicine, 83, 377-385.

Mahto, S. J., Park, C., Yoon, T. H., and Rhee, S. Y. (2010). Assessment of cytocompatibility of surface-modified CdSe/ZnSe quantum dots for BALB/3T3 fibroblast cells Toxicology in Vitro, 24(4):1 070-1077. Abstract [18].

Michalet, X., Pinaud, F. F., Bentolila, L. A., Tsay, J. M., Doose, S., Li, J. J., Sundaresan G., Wu, A. M., Gambhir, S. S. & Weiss, S. (2005). Quantum dots for live cells, in vivo imaging, and diagnostics. Science, 307, 538-544.

Pace, H. E., Lesher, E. K.,
Ranville, J. F.(2010). Influence of stability on the acute toxicity of CdSe/ZnS nanocrystals to Daphnia magnaEnvironmental Toxicology & Chemistry , 29(6): 1338-1344. Abstract [19].

Pons T, Pic E, Lequeux N, Cassette E, Bezdetnaya L, Guillemin F, Marchal F, Dubertret B.(2010). Cadmium-free CuInS2/ZnS quantum dots for sentinel lymph node imaging with reduced toxicity. ACS Nano, 4(5):2531-8. Abstract [20].

Prasad BR, Nikolskaya N, Connolly D, Smith TJ, Byrne SJ, Gérard VA, Gun'ko YK, Rochev Y. (2010) Long-term exposure of CdTe quantum dots on PC12 cellular activity and the determination of optimum non-toxic concentrations for biological use. Journal of Nanobiotechnology, 8:7. PMID: 20338051Abstract [21].

- NEW - Tarl W. Prow, Nancy A. Monteiro-Riviere, Alfred O. Inman, Jeffrey E. Grice, Xianfeng Chen, Xin Zhao, Washington H. Sanchez, Audrey Gierden, Mark A. F. Kendall, Andrei V. Zvyagin, Detlev Erdmann, Jim E. Riviere & Michael S. Roberts (2011). Quantum dot penetration into viable human skin, Nanotoxicology, Online ahead of print, doi:10.3109/17435390.2011.569092. Abstract [22].

Rouse, JG; Haslauer, CM; Loboa, EG, et al. (March 2008). Cyclic tensile strain increases interactions between human epidermal keratinocytes and quantum dot nanoparticles. Toxicol In Vitro, 22(2):491-7. Abstract [23].

Rushton, E. K., Oberdorster, G., & Finkelstein, J. (2005). Nanoparticles are capable of producing reactive oxygen species, upregulation of inflammatory cytokine expression and causing increased cytotoxicity. Paper presented at the 2nd International Symposium on Nanotechnology and Occupational Health. Oct. 3-6, Minneapolis, MN.

Ryman-Rasmussen, J.P., Riviere, J.E., and Monteiro-Riviere, N.A. (August 2006). Surface Coatings Determine Cytotoxicity and Irritation Potential of Quantum Dot Nanoparticles in Epidermal Keratinocytes. Journal of Investigative Dermatology, Abstract [24]. Article [25]

Ryman-Rassmussen, j.r., Riviere, J.E. & Monteiro-Riviere, N.A. (2006). Penetration of intact skin by quantum dots with diverse physiochemical properties. Toxicological Sciences. Prepublication online. Abstract [26]

Rzigalinski BA, Strobl JS. (2009). Cadmium-containing nanoparticles: perspectives on pharmacology and toxicology of quantum dots. Toxicology and Applied Pharmacology, 238(3):280-8.Abstract [27].

Shiohara, A., Hoshino, A., Hanaki, K., Suzuki, K. & Yamamoto, K. (2004). On the cyto-toxicity caused by quantum dots. Microbiology and Immunology, 48 (9), 669-675.

Sweet, L., Strohm, B. (June 2006). Nanotechnology - Life-cycle risk management. Human and Ecological Risk Assessment, 12 (3): 528-551

Su Y, Hu M, Fan C, He Y, Li Q, Li W, Wang LH, Shen P, Huang Q. (2010). The cytotoxicity of CdTe quantum dots and the relative contributions from released cadmium ions and nanoparticle properties. Biomaterials, 3118):4829-34.PMID: 20346495. Abstract [28].

Tang, M., Xing, T., Zeng, J. et al. (July 2008). Unmodified CdSe Quantum Dots Induce Elevation of Cytoplasmic Calcium Levels and Impairment of Functional Properties of Sodium Channels in Rat Primary Cultured Hippocampal Neurons. Environmental Health Perspectives, 116(7): 915-922. Abstract [29].

Voura, E. B., Jaiswal, J. K., Mattoussi, H., Simon, S. M. (2004). Tracking metastatic tumor cell extravasation with quantum dot nanocrystals and fluorescence emission-scanning microscopy. Nat. Med., 10, 993-998.

Xiao J, Bai Y, Wang Y, Chen J, Wei X.(2010). Systematic investigation of the influence of CdTe QDs size on the toxic interaction with human serum albumin by fluorescence quenching method.Spectrochim Acta A Mol Biomol Spectrosc, 76(1):93-7. PMID: 20359940. Abstract [30].

Yacobi, NR; Phuleria, HC. et al. (December 2007). Nanoparticle effects on rat alveolar epithelial cell monolayer barrier properties. Toxicology in Vitro, 21(8): 1373-1381.

Yang, R.S.H., Chang, L.Z., et al. (September 2007). Persistent Tissue Kinetics and Redistribution of Nanoparticles, Quantum Dot 705, in Mice: ICP-MS Quantitative Assessment. Environmental Health Perspectives, 115(9): 1339-1343. Abstract [31].

- NEW - Yeh TK, Wu JP, Chang LW, Tsai MH, Chang WH, Tsai HT, Yang CS, Lin P. (2011). Comparative tissue distributions of cadmium chloride and cadmium-based quantum dot 705 in mice: Safety implications and applications.. Nanotoxicology, 5(1):91-7, PMID: 21155710. Abstract [32].

Zhang LW, Monteiro-Riviere NA. (June 2008). Assessment of quantum dot penetration into intact, tape-stripped, abraded and flexed rat skin. Skin Pharmacology and Physiology, 21(3):166-80. Abstract [33].

Zhang LW, Yu WW, Colvin VL, Monteiro-Riviere NA. (April 2008). Biological interactions of quantum dot nanoparticles in skin and in human epidermal keratinocytes. Toxicol Appl Pharmacol., 228(2):200-11. Abstract [34].

Zhang, TT; Stilwell, JL; Gerion, D; Ding, LH; Elboudwarej, O; Cooke, PA; Gray, JW; Alivisatos, AP; Chen, FF (April 2006). Cellular effect of high doses of silica-coated quantum dot profiled with high throughput gene expression analysis and high content cellomics measurements. Nano Letters, 6 (4): 800-808. Abstract [35]. Article [36]

Zhang, Y., Chen, W., Zhang, J., Liu, J., Chen, G., Pope, C. (February 2007). In Vitro and In Vivo Toxicity of CdTe Nanoparticles. Journal of Nanoscience and Nanotechnology 7,2: 497-503

Zhang, T., Stilwell, J.L. et al. (2006). Cellular Effect of High Doses of Silica-Coated Quantum Dot Profiled with High Throughput Gene Expression Analysis and High Content Cellomics Measurements. Nano Lett., 6 (4): 800-808. Abstract [37]

Last updated May 2011 - Maria Powell