Ver registro no DEDALUS
Exportar registro bibliográfico

Metrics


Metrics:

Rheological study of gels based on chitosan and carbon nanotubes (2015)

  • Authors:
  • USP affiliated authors: MARTINS, VIRGINIA DA CONCEIÇÃO AMARO - IQSC ; PLEPIS, ANA MARIA DE GUZZI - IQSC
  • USP Schools: IQSC; IQSC
  • DOI: 10.18362/bjta.v4.il-2.59
  • Subjects: QUITOSANA; NANOTECNOLOGIA
  • Language: Inglês
  • Imprenta:
  • Source:
  • Acesso online ao documento

    Online accessDOI or search this record in
    Informações sobre o DOI: 10.18362/bjta.v4.il-2.59 (Fonte: oaDOI API)
    • Este periódico é de acesso aberto
    • Este artigo NÃO é de acesso aberto
    Versões disponíveis em Acesso Aberto do: 10.18362/bjta.v4.il-2.59 (Fonte: Unpaywall API)

    Título do periódico: Revista de Direito Sanitário

    ISSN: 2316-9044,1516-4179

    • Melhor URL em Acesso Aberto:


    • Outras alternativas de URLs em Acesso Aberto:


        • Página do artigo
        • Evidência: oa journal (via doaj)
        • Licença: cc-by-nc-sa
        • Versão: publishedVersion
        • Tipo de hospedagem: publisher



    Exemplares físicos disponíveis nas Bibliotecas da USP
    BibliotecaCód. de barrasNúm. de chamada
    IQSC2724113-10P15957
    How to cite
    A citação é gerada automaticamente e pode não estar totalmente de acordo com as normas

    • ABNT

      VIGILATO, M A; HORN, M. M; MARTINS, Virginia da Conceição Amaro; PLEPIS, Ana Maria de Guzzi. Rheological study of gels based on chitosan and carbon nanotubes. Brazilian Journal of Thermal Analysis, São Carlos, Instituto International de Análise Térmica, v. 4, n. 1, p. 35-38, 2015. Disponível em: < http://dx.doi.org/10.18362/bjta.v4.il-2.59 > DOI: 10.18362/bjta.v4.il-2.59.
    • APA

      Vigilato, M. A., Horn, M. M., Martins, V. da C. A., & Plepis, A. M. de G. (2015). Rheological study of gels based on chitosan and carbon nanotubes. Brazilian Journal of Thermal Analysis, 4( 1), 35-38. doi:10.18362/bjta.v4.il-2.59
    • NLM

      Vigilato MA, Horn MM, Martins V da CA, Plepis AM de G. Rheological study of gels based on chitosan and carbon nanotubes [Internet]. Brazilian Journal of Thermal Analysis. 2015 ;4( 1): 35-38.Available from: http://dx.doi.org/10.18362/bjta.v4.il-2.59
    • Vancouver

      Vigilato MA, Horn MM, Martins V da CA, Plepis AM de G. Rheological study of gels based on chitosan and carbon nanotubes [Internet]. Brazilian Journal of Thermal Analysis. 2015 ;4( 1): 35-38.Available from: http://dx.doi.org/10.18362/bjta.v4.il-2.59

    Referências citadas na obra
    Akaki M, Nakano Y, Nagayasu E, Nagakura K, Kawai S, Aikawa M (2001) Invasive forms of Toxoplasma gondii, Leishmania amazonensis and Trypanosoma cruzi have a positive charge at their contact site with host cells. Parasitol Res 87:193–197
    Akbarzadeh A, Rezaei-Sadabady R, Davaran S, Joo SW, Zarghami N, Hanifehpour Y, Samiei M, Kouhi M, Nejati-Koshki K (2013) Liposome: classification, preparation, and applications. Nanoscale Res Lett 8:102
    Allison A, Gregoriadis G (1974) Liposomes as immunological adjuvants. Nature 252:252
    Allison AC, Gregoriadis G (1976) Liposomes as immunological adjuvants. Recent Results Cancer Res 56:58–64
    Alvar J, Cañavate C, Solar BG, Jiménez M, Lagura F, Vélez R, Molina R, Moreno J (1997) Leishmania and human immunodeficiency virus coinfection: the first 10 years. Clin Microbiol Rev 10:298–319
    Anzai K, Yoshida M, Kirino Y (1990) Change in intravesicular volume of liposomes by freeze-thaw treatment as studied. Biochim Biophys Acta 1021:21–26
    Aqil F, Munagala R, Jeyabalan J, Vadhanam MV (2013) Bioavailability of phytochemicals and its enhancement by drug delivery systems. Cancer Lett 334:133–141
    Bangham AD, Horne RW (1964) Negative staining of phospholipids and their structural modification by surface active agents as observed in the electron microscope. J Mol Biol 8:660–668
    Barbosa SC, Cilli EM, Dias LG, Stabeli RG, Ciancaglini P (2011) Labaditin, a cyclic peptide with rich biotechnological potential: preliminary toxicological studies and structural changes in water and lipid membrane environment. Amino Acids 40:135–144
    Barros NB, Migliaccio V, Facundo VA, Ciancaglini P, Stábeli RG, Nicolete R, Silva-Jardim I (2013) Liposomal-lupane system as alternative chemotherapy against cutaneous leishmaniasis: macrophage as target cell. Exp Parasitol 135:337–343
    Benech RO, Kheadr EE, Laridi R, Lacroix C, Fliss I (2002) Inhibition of Listeria innocua in cheddar cheese by addition of nisin Z in liposomes or by in situ production in mixed culture. Appl Environ Microbiol 68:3683–3690
    Bicalho LS, Longo JP, Cavalcanti CE, Simioni AR, Bocca AL, Santos MF, Tedesco AC, Azevedo RB (2013) Photodynamic therapy leads to complete remission of tongle tumor and inhibits metastases to region lymph nodes. J Biomed Nanotechnol 9:811–818
    Birnbaum DT, Kosmala JD, Henthorn DB, Brannon-Peppas L (2000) Controlled release of β-estradiol from PLAGA microparticles: the effect of organic phase solvent on encapsulation and release. J Control Release 65:375–387
    Bolean M, Simão AMS, Favarin BZ, Millán JL, Ciancaglini P (2010) The effect of cholesterol on the reconstitution of alkaline phosphatase into liposomes. Biophys Chem 152:74–79
    Bolean M, Simão AMS, Favarin BZ, Millán JL, Ciancaglini P (2011) Thermodynamic properties and characterization of proteoliposomes rich in microdomains carrying alkaline phosphatase. Biophys Chem 158:111–118
    Bolfarini GC, Siqueira-Moura MP, Demets GJ, Morais PC, Tedesco AC (2012) In vitro evaluation of combined hyperthermia and photodynamic effects using magnetoliposomes loaded with cucurbituril zinc phthalocyanine complex on melanoma. J Photochem Photobiol B 115:1–4
    Calderon LA, Silva-Jardim I, Zuliani JP, Silva AA, Ciancaglini P, Silva LHP, Stábeli RG (2009a) Amazonian biodiversity: a view of drug development for leishmaniasis and malaria. J Braz Chem Soc 20:1011–1023
    Calderon LA, Messias MR, Serrano RP, Zaqueo KD, Souza ES, Nienow SS, Cardozo-Filho JL, Diniz-Sousa R, Delaix-Zaqueo K, Stábeli RG (2009b) Amphibia, Anura, Hylidae, Phyllomedusinae, Phyllomedusa azurea: distribution extension and geographic distribution map. Check List 5:317–319
    Camolezi FL, Daghastanli KRP, Magalhães PP, Pizauro JM, Ciancaglini P (2002) Construction of an alkaline phosphatase-liposome system: a tool for biomineralization study. Int J Biochem Cell Biol 34:1091–1101
    Carrara VS, Cunha-Júnior EF, Torres-Santos EC, Corrêa AG, Monteiro JL, Demarchi IG, Lonardoni MVC, Cortez DAG (2013) Antileishmanial activity of amides from Piper amalago and synthetic analogs. Rev Bras Farm 23:447–454
    Chaize B, Colletier JP, Winterhalter M, Fournier D (2004) Encapsulation of enzymes in liposomes: high encapsulation efficiency and control of substrate permeability. Artif Cells Blood Substit Immobil Biotechnol 32:67–75
    Chakravarty J, Sundar S (2010) Drug resistance in leishmaniasis. J Global Infect Dis 2:167–176
    Ciancaglini P, Simão AMS, Bolean M, Millán JL, Rigos CF, Yoneda JS, Colhone MC, Stabeli RG (2012) Proteoliposomes in nanobiotechnology. Biophys Rev 4:67–81
    Colhone MC, Nobre TM, Zaniquelli MED, Stabeli RG, Ciancaglini P (2009) Incorporation of antigenic GPI-proteins from Leishmania amazonensis in membrane mimetic systems: influence of DPPC/cholesterol ratio. J Colloid Interface Sci 333:373–379
    Colhone MC, Silva-Jardim I, Stabeli RG, Ciancaglini P (2015) Nanobiotechnologic approach to a promising vaccine prototype for immunization against leishmaniasis: a fast and effective method to incorporate GPI-anchored proteins of Leishmania amazonensis into liposomes. J Microencapsul 32:143–150
    Cury TAC, Yoneda JS, Zuliani JP, Soares AM, Stábeli RG, Calderon LA, Ciancaglini P (2015) Cinnamic acid derived compounds loaded into liposomes: antileishmanial activity, production standardization and characterization. J Microencapsul 32:467–477
    da Silva JKR, Pinto LC, Burbano RMR, Montenegro RC, Guimarães EF, Andrade EHA, Maia JGS (2014) Essential oils of Amazon Piper species and their cytotoxic, antifungal, antioxidant and anti-cholinesterase activities. Ind Crops Prod 58:55–60
    Daghastanli KRP, Ferreira RB, Thedei G Jr, Maggio B, Ciancaglini P (2004) Lipid composition-dependent incorporation of multiple membrane proteins into liposomes. Colloids Surf B: Biointerfaces 36:127–137
    dos Santos LER, Colhone MC, Daghastanli KRP, Stabeli RG, Silva-Jardim I, Ciancaglini P (2009) Lipid microspheres loaded with antigenic membrane proteins of the Leishmania amazonensis as a potential biotechnology application. J Colloid Interface Sci 340:112–118
    Eloy JO, Claro de Souza M, Petrilli R, Barcellos JP, Lee RJ, Marchetti JM (2014) Liposomes as carriers of hydrophilic small molecule drugs: strategies to enhance encapsulation and delivery. Colloids Surf B: Biointerfaces 123C:345–363
    Facundo VA, Polli AR, Rodrigues RV, Militão JSLT, Stabelli RG, Cardoso CT (2008) Fixed and volatile chemical constituents from stems and fruits of Piper tuberculatum Jacq. and from roots of P. hispidum. Acta Amazon 38:743–748
    Faria PE, Felipucci DN, Simioni AR, Primo FL, Tedesco AC, Salata LA (2015) Effects of photodynamic process (PDP) in implant osseointegration: a histologic and histometric study in dogs. Clin Implant Dent Relat Res 17:879–890
    Felipe FCB, Filho JTS, Souza LEO, Silveira JA, Uchoa DEA, Silveira ER, Pessoa ODL, Viana GSB (2007) Piplartine, an amide alkaloid from Piper tuberculatum, presents anxiolytic and antidepressant effects in mice. Phytomedicine 14:605–612
    Ferreira MGPR, Kayano AM, Jardim IS, Silva TO, Zuliani JP, Facundo VA, Calderon LA, Silva AA, Ciancaglini P, Stábeli RG (2010) Antileishmanial activity of 3-(3,4,5-trimethoxyphenyl) propanoic acid purified from Amazonian Piper tuberculatum Jacq., Piperaceae, fruits. Braz J Pharmacog 20:1003–1006
    Fotoran WL, Santangelo RM, Medeiros MM, Colhone MC, Ciancaglini P, Barboza R, Marinho CR, Stábeli RG, Wunderlich G (2015) Liposomes loaded with P. falciparum merozoite-derived proteins are highly immunogenic and produce invasion-inhibiting and anti-toxin antibodies. J Control Release 217:121–127
    Gao W, Thamphiwatana S, Angsantikul P, Zhang L (2014) Nanoparticle approaches against bacterial infections. Wiley Interdiscip Rev Nanomed Nanobiotechnol 6:532–547
    Ghalandarlaki N, Alizadeh AM, Ashkani-Esfahani S (2014) Nanotechnology-applied curcumin for different diseases therapy. Biomed Res Int 2014:394264
    Gregoriadis G, Leathwood PD, Ryman BE (1971) Enzyme entrapment in liposomes. FEBS Lett 14:95–99
    Guimarães MA, Campelo YD, Véras LM, Colhone MC, Lima DF, Ciancaglini P, Kuckelhaus SS, Lima FC, de Moraes J, de Leite JR (2014) Nanopharmaceutical approach of epiisopiloturine alkaloid carried in liposome system: preparation and in vitro schistosomicidal activity. J Nanosci Nanotechnol 14:4519–4528
    Ierardi DF, Pizauro JM, Ciancaglini P (2002) Erythrocyte ghost cell-alkaline phosphatase: construction and characterization of a vesicular system for use in biomineralization studies. Biochim Biophys Acta 1567:183–192
    Kaur G, Rajput B (2014) Comparative analysis of the omics technologies used to study antimonial, amphotericin B, and pentamidine resistance in Leishmania. J Parasitol Res. doi: 10.1155/2014/726328
    Laguna F, Videla S, Jiménez-Mejías ME, Sirera G, Torre-Cisneros J, Ribera E, Prados D, Clotet B, Sust M, López-Vélez R, Alvar J (2003) Spanish HIV–Leishmania Study Group. Amphotericin B lipid complex versus meglumine antimoniate in the treatment of visceral leishmaniasis in patients infected with HIV: a randomized pilot study. J Antimicrob Chemother 52:464–468
    Longo JP, Leal SC, Simioni AR, de Fátima MAS, Tedesco AC, Azevedo RB (2012) Photodynamic therapy disinfection of carious tissue mediated by aluminum-chloride-phthalocyanine entrapped in cationic liposomes: an in vitro and clinical study. Lasers Med Sci 27:575–584
    Madni A, Sarfraz M, Rehman M, Ahmad M, Akhtar N, Ahmad S, Tahir N, Ijaz S, Al-Kassas R, Löbenberg R (2014) Liposomal drug delivery: a versatile platform for challenging clinical applications. J Pharm Pharm Sci 17:401–426
    Migliaccio V, Santos FR, Ciancaglini P, Ramalho-Pinto FJ (2008) Use of proteoliposome as a vaccine against Trypanosoma cruzi in mice. Chem Phys Lipids 152:86–94
    Parmar VS, Jain SC, Bisht KS, Jain R, Taneja P, Jha A, Tyagi OD, Prasad AK, Wengel J, Olsen CE, Boll PM (1997) Phytochemistry of the genus Piper. Phytochemistry 46:597–673
    Patil YP, Jadhav S (2014) Novel methods for liposome preparation. Chem Phys Lipids 177:8–18
    Paulovich FV, Maki RM, de Oliveira MCF, Colhone MC, Santos FR, Migliaccio V, Ciancaglini P, Daghastanli KR, Stabeli RG, Perinoto AC, Oliveira ON Jr, Zucolotto V (2011) Using multidimensional projection techniques for reaching a high distinguishing ability in biosensing. Anal Bioanal Chem 400:1153–1159
    Perinoto AC, Maki RM, Colhone MC, Santos FR, Migliaccio V, Daghastanli KR, Stabeli RG, Ciancaglini P, Paulovich FV, de Oliveira MCF, Oliveira ON Jr, Zucolotto V (2010) Biosensors for efficient diagnosis of leishmaniasis: innovations in bioanalytics for a neglected disease. Anal Chem 82:9763–9768
    Rahman YE, Rosenthal MW, Cerny EA, Moretti ES (1974) Preparation and prolonged tissue retention of liposome encapsulated chelating agents. J Lab Clin Med 83:640–647
    Rigos CF, Nobre TM, Zaniquelli MED, Ward RJ, Ciancaglini P (2008) The association of Na, K-ATPase subunits studied by circular dichroism, surface tension and dilatational elasticity. J Colloid Interface Sci 325:478–484
    Rocha MS, Lucci CM, Longo JP, Galera PD, Simioni AR, Lacava ZG, Tedesco AC, Azevedo RB (2012) Aluminum-chloride-phthalocyanine encapsulated in liposomes: activity against naturally occurring dog breast cancer cells. J Biomed Nanotechnol 8:251–257
    Rooijen N, Nieuwmegen R (1980) Liposomes in immunology: multilamellar phosphatidylcholine liposome as a simple biodegradable and harmless adjuvant without any immunogenic activity of its own. Immunol Commun 9:243–256
    Saddi KR, Alves GD, Paulino TP, Ciancaglini P, Alves JB (2008) Epidermal growth factor in liposomes may enhance osteoclast recruitment during tooth movement in rats. Angle Orthod 78:604–609
    Salay LC, Nobre TM, Colhone MC, Zaniquelli MED, Ciancaglini P, Stabeli RG, Leite JRSA, Zucolotto V (2011) Dermaseptin 01 as antimicrobial peptide with rich biotechnological potential: study of peptide interaction with membranes containing Leishmania amazonensis lipid-rich extract and membrane models. J Pept Sci 17:700–707
    Santos HL, Lamas RP, Ciancaglini P (2002) Solubilization of Na, K-ATPase from outer medulla of rabbit kidney using only C12E8. Braz J Med Biol Res 35:277–288
    Santos HL, Lopes ML, Maggio B, Ciancaglini P (2005) Na, K-ATPase reconstituted in liposomes: effects of lipid composition on hydrolytic activity and enzyme orientation. Colloids Surf B: Biointerfaces 41:239–248
    Santos FR, Ferraz DB, Daghastanli KRP, Ramalho-Pinto FJ, Ciancaglini P (2006) Mimetic membrane system to carry multiple antigenic proteins from Leishmania amazonensis. J Membr Biol 210:173–181
    Schwendener RA (2014) Liposomes as vaccine delivery systems: a review of the recent advances. Ther Adv Vaccines 2:159–182
    Seddon AM, Curnow P, Booth PJ (2004) Membrane proteins, lipids and detergents: not just a soap opera. Biochim Biophys Acta 1666:105–117
    Shehata T, Ogawara K, Higaki K, Kimura T (2008) Prolongation of residence time of liposome by surface-modification with mixture of hydrophilic polymers. Int J Pharm 359:272–279
    Simão AMS, Ciancaglini P, Yadav MC, Narisawa S, Bolean M, Pizauro JM, Hoylaerts MF, Millán JL (2010a) Proteoliposomes harboring alkaline phosphatase and nucleotide pyrophosphatase as matrix vesicles’ biomimetics. J Biol Chem 285:7598–7609
    Simão AMS, Yadav MC, Ciancaglini P, Millán JL (2010b) Proteoliposomes as matrix vesicles’ biomimetics to study the initiation of skeletal mineralization. Braz J Med Biol Res 43:234–241
    Storm G, Crommelin DJA (1998) Liposomes: quo vadis? Pharm Sci Technol Today 1:19–31
    Sundar S, Chakravarty J, Agarwal D, Rai M, Murray HW (2010) Single-dose liposomal amphotericin B for visceral leishmaniasis in India. N Engl J Med 362:504–512
    Tempone AG, Perez D, Rath S, Vilarinho AL, Mortara RA, de Andrade HF Jr (2004) Targeting Leishmania (L.) chagasi amastigotes through macrophage scavenger receptors: the use of drugs entrapped in liposomes containing phosphatidylserine. J Antimicrob Chemother 54:60–68
    Torchilin VP (2005) Recent advances with liposomes as pharmaceutical carriers. Nat Rev Drug Discov 4:145–160
    Vemuri S, Rhodes CT (1995) Preparation and characterization of liposomes as therapeutic delivery systems: a review. Pharm Acta Helv 70:95–111
    Vuillemard JC (1991) Recent advances in the large-scale production of lipid vesicles for use in food products: microfluidization. J Microencapsul 8:547–562
    Wadt LHO, Ehringhaus C, Kageyama PY (2004) Genetic diversity of “Pimenta Longa” genotypes (Piper spp., Piperaceae) of the Embrapa Acre germplasm collection. Genet Mol Biol 27:74–82
    Wagner A, Vorauer-Uhl K (2011) Liposome technology for industrial purposes. J Drug Deliv 2011:591325
    Wagner A, Vorauer-Uhl K, Katinger H (2002) Liposomes produced in a pilot scale: production, purification and efficiency aspects. Eur J Pharm Biopharm 54:213–219
    Watson D, Endsley A, Huang L (2012) Design considerations for liposomal vaccines: influence of formulation parameters on antibody and cell-mediated immune responses to liposome associated antigens. Vaccine 30:2256–2272
    Yeagle PL (1993) The membranes of cells, 2nd edn. Academic Press, New York
    Zawada Z (2004) A single-step method of liposome preparation. Cell Mol Biol Lett 9:603–615
    Zucolotto V, Daghastanli KRP, Hayasaka CO, Riul A Jr, Ciancaglini P, Oliveira ON Jr (2007) Using capacitance measurements as the detection method in antigen-containing layer-by-layer films for biosensing. Anal Chem 79:2163–2167