Biblio
“Developmental cardiac responses to GABA in the red swamp crayfish Procambarus clarkii and the relevance to crayfish burrow ecology”, Journal of the Arizona-Nevada Academy of Science, pp. 158–163, 1999.
, “Influence of hypoxia on cardiac functions in the grass shrimp (Palaemonetes pugio Holthuis)”, Comparative Biochemistry and Physiology Part A: Molecular & Integrative Physiology, vol. 124, pp. 569–573, 1999.
, “Ontogeny of neurohormonal regulation of the cardiovascular system in the crayfish Procambarus clarkii”, Journal of Comparative Physiology B, vol. 171, pp. 577–583, 2001.
, “Perspectives on cardiac physiological ontogeny in crustaceans”, Zoology, vol. 104, pp. 103–113, 2001.
, “Physiological development of the embryonic and larval crayfish heart”, The Biological Bulletin, vol. 206, pp. 78–86, 2004.
, “Screening for toxic industrial chemicals using semipermeable membrane devices with rapid toxicity assays”, Analytica chimica acta, vol. 543, pp. 229–235, 2005.
, “Cardiac development in crayfish: ontogeny of cardiac physiology and aerobic metabolism in the red swamp crayfish Procambarus Clarkii”, Journal of Comparative Physiology B, vol. 176, pp. 405–414, 2006.
, “Differential Distribution and Toxicity of Nanomaterials In Vivo”, in American Institute of Chemical Engineers.(AIChE) Annual Meeting. San Francisco (USA) November, 2006.
, “Metabolic, respiratory and cardiovascular responses to acute and chronic hypoxic exposure in tadpole shrimp Triops longicaudatus”, Journal of experimental biology, vol. 209, pp. 1639–1650, 2006.
, “Biodistribution and toxicity of nanomaterials in vivo: effects of composition, size, surface functionalization, and route of exposure”, in NSTI-Nanotech, 2007.
, “In vivo evaluation of carbon fullerene toxicity using embryonic zebrafish”, Carbon, vol. 45, pp. 1891–1898, 2007.
, “Fullerene C 60 exposure elicits an oxidative stress response in embryonic zebrafish”, Toxicology and applied pharmacology, vol. 229, pp. 44–55, 2008.
, “In vivo biodistribution and toxicity depends on nanomaterial composition, size, surface functionalisation and route of exposure”, Journal of Experimental Nanoscience, vol. 3, pp. 195–206, 2008.
, “Potential anti-inflammatory properties of biologically synthesized nanoparticles of gold or silver”, Nanotech, vol. 2, pp. 501–504, 2008.
, “Proactively designing nanomaterials to enhance performance and minimise hazard”, International Journal of Nanotechnology, vol. 5, pp. 124–142, 2008.
, “Defining nanomaterial interactions using biological systems”, SPIE Newsroom, 2009.
, “Exposure assessment: recommendations for nanotechnology-based pesticides”, International journal of occupational and environmental health, vol. 16, pp. 467–474, 2010.
, “Integrative strategies to understand nanomaterial-biological interactions”, International Perspectives on Environmental Nanotechnology, p. 51, 2010.
, “Development of an option in Nanotechnology: Elements of Student learning”, in 2011 11th IEEE International Conference on Nanotechnology, 2011.
, “Informatics and standards for nanomedicine technology”, Wiley Interdisciplinary Reviews: Nanomedicine and Nanobiotechnology, vol. 3, pp. 511–532, 2011.
“Interaction of biosynthesized gold nanoparticles with genomic DNA isolated from E. coli and S. aureus”, in Nanotechnology (IEEE-NANO), 2011 11th IEEE Conference on, 2011.
, “Systematic evaluation of nanomaterial toxicity: utility of standardized materials and rapid assays”, ACS nano, vol. 5, pp. 4688–4697, 2011.
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