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Documents dont l'auteur est "Kakkar, Ashok"

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Nombre de documents: 16

A

Avti, P. K., Maysinger, D., & Kakkar, A. (2013). Alkyne-Azide “click” chemistry in designing nanocarriers for applications in biology. Molecules (Basel, Switzerland), 18(8), 9531-9549. Disponible

Avti, P. K., & Kakkar, A. (octobre 2011). Dendrimers as anti-inflammatory agents [Communication écrite]. Dendrimer Symposium: Significance in the Context of Nanotechnology, Faculty of Pharmaceutical Sciences, University of São Paulo, São Paulo, Brazil. Publié dans Brazilian Journal of Pharmaceutical Sciences, 49(spe). Disponible

B

Bdard, M., Avti, P. K., Lam, T., Rouleau, L., Tardif, J.-C., Rhaume, E., Lesage, F., & Kakkar, A. (2015). Conjugation of multivalent ligands to gold nanoshells and designing a dual modality imaging probe. Journal of Materials Chemistry B, 3(9), 1788-1800. Lien externe

L

Lam, T., Avti, P. K., Pouliot, P., Maafi, F., Tardif, J.-C., Rhéaume, É., Lesage, F., & Kakkar, A. (2016). Fabricating water dispersible superparamagnetic iron oxide nanoparticles for biomedical applications through ligand exchange and direct conjugation. Nanomaterials, 6(6), 1-15. Disponible

Lam, T., Avti, P. K., Pouliot, P., Tardif, J.-C., Rheaume, E., Lesage, F., & Kakkar, A. (2016). Magnetic resonance imaging/fluorescence dual modality protocol using designed phosphonate ligands coupled to superparamagnetic iron oxide nanoparticles. Journal of Materials Chemistry B, 4(22), 3969-3981. Lien externe

Lam, T., Avti, P. K., Pouliot, P., Tardif, J.-C., Rheaume, É., Lesage, F., & Kakkar, A. (2016). Surface engineering of SPIONs: role of phosphonate ligand multivalency in tailoring their efficacy. Nanotechnology, 27(41), 11 pages. Lien externe

Li, B., Abran, M., Matteau-Pelletier, C., Rouleau, L., Lam, T., Sharma, R., Rheaume, É., Kakkar, A., Tardif, J.-C., & Lesage, F. (2011). Low-cost three-dimensional imaging system combining fluorescence and ultrasound. Journal of Biomedical Optics, 16(12), 126010. Lien externe

M

Moeini, M., Cloutier-Tremblay, C., Lu, X., Kakkar, A., & Lesage, F. (2020). Cerebral tissue pO2 response to treadmill exercise in awake mice. Scientific Reports, 10(1), 13358 (11 pages). Disponible

Moeini, M., Lu, X., Belanger, S., Picard, F., Boas, D., Kakkar, A., & Lesage, F. (2019). Cerebral tissue pO₂ response to stimulation is preserved with age in awake mice. Neuroscience Letters, 699, 160-166. Lien externe

Moeini, M., Lu, X., Avti, P. K., Damseh, R., Bélanger, S., Picard, F., Boas, D., Kakkar, A., & Lesage, F. (2018). Compromised microvascular oxygen delivery increases brain tissue vulnerability with age. Scientific Reports, 8(1), 8219 (17 pages). Disponible

Moeini, M., Tabatabaei, M., Kakkar, A., & Lesage, F. (avril 2016). Capillary substrate of brain tissue oxygenation changes with age [Communication écrite]. Biomedical Optics 2016, Fort Lauderdale, Florida. Lien externe

N

Ng, V. W. K., Avti, P. K., Bedard, M., Lam, T., Rouleau, L., Tardif, J.-C., Rheaume, E., Lesage, F., & Kakkar, A. (2014). Miktoarm star conjugated multifunctional gold nanoshells: Synthesis and an evaluation of biocompatibility and cellular uptake. Journal of Materials Chemistry B, 2(37), 6334-6344. Lien externe

Ng, V. W. K., Berti, R., Lesage, F., & Kakkar, A. (2013). Gold: A versatile tool for in vivo imaging. Journal of Materials Chemistry B, 1(1), 9-25. Lien externe

R

Rouleau, L., Berti, R., Ng, V. W. K., Matteau-Pelletier, C., Lam, T., Savoural, P., Kakkar, A., Lesage, F., Rheaume, É., & Tardif, J.-C. (2013). VCAM-1-targeting gold nanoshell probe for photoacoustic imaging of atherosclerotic plaque in mice. Contrast Media and Molecular Imaging, 8(1), 27-39. Lien externe

W

Wang, Y.-C., Théberge-Julien, G., Tardif, J.-C., Rhéaume, É., Lesage, F., & Kakkar, A. (2022). Multifaceted ligand design facilitates chemical- or peptide-mediated linking of hollow gold nanoshells with tuned interparticle distance, interference and cytotoxicities. Materials advances, 3(19), 7272-7284. Disponible

Wang, Y.-C., Rheaume, É., Lesage, F., & Kakkar, A. (2018). Synthetic methodologies to gold nanoshells: An overview. Molecules, 23(11). Disponible

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