Douglas de Britto scite author profile

Chitosan, a versatile hydrophilic polysaccharide derived from chitin, has a broad antimicrobial spectrum to which gram-negative, gram-positive bacteria and fungi are highly susceptible. In the current review, three possible and accepted antimicrobial mechanisms for chitosan are presented and briefly discussed. The activity dependence on polymeric molecular weight (MW) and degree of acetylation (DA) are described. The chitosan minimum inhibitory concentrations (MIC) are summarized according to recent data found in the literature. The potential to improve inhibitory growth of bacteria by using water soluble chitosan derivatives is also discussed. The data indicate that the effectiveness of chitosan varies and is dependent on species of target microorganisms.

show abstract

A novel method for obtaining a quaternary salt of chitosan

Britto

Assis

2007

Carbohydrate Polymers

182

114

View full text Add to dashboard Cite

Kinetics of the thermal degradation of chitosan

2007

View full text Add to dashboard Cite

Extração, estruturas e propriedades de alfa- e beta-quitina

et al. 2007

View full text Add to dashboard Cite

Recebido em 8/3/06; aceito em 14/6/06; publicado na web em 10/1/07 EXTRACTION, STRUCTURES AND PROPERTIES OF α-AND β-CHITIN. The fact that α-and β-chitin adopt different arrays in the solid state is explored to emphasize their different properties and distinct spectral characteristics and X ray diffraction patterns. The methods for their extraction from the biomass in view of the preservation of their native structures and aiming to fulfill the claims of purity and uniformity for potential applications are discussed. The different arrays adopted by α-and β-chitin also result in distinct reactivities toward the deacetylation reaction. Thus, the deacetylation of β-chitin is more efficient owing to the better accessibility to amide groups due to the lower crystallinity of this polymorph.Keywords: polymorphs; chitin; chitosan. INTRODUÇÃOA quitina foi isolada por Braconnot em 1881, trinta anos antes do isolamento da celulose, mas a falta de conhecimento básico sobre suas propriedades, incluindo a reatividade química, limitou severamente suas aplicações industriais até o início dos anos 1970 1 . A partir de então, o interesse progressivo na química de quitina resultou no desenvolvimento de muitos estudos que visaram aumentar o conhecimento sobre as relações estruturas/propriedades deste polímero e seus derivados. Atualmente, os usos industriais e em larga escala de quitina ainda são muito menos importantes que os de celulose, mas alguns importantes segmentos do mercado já são ocupados por derivados de quitina. A quitosana, por ex., é um polímero muito versátil com aplicações nas indústrias cosmética 2 e alimentícia 3 e que a mais de 25 anos é empregado como agente de floculação no tratamento de efluentes aquosos 4 . Sua capacidade de interagir com variada gama de substâncias, tais como proteínas, lipídeos, pesticidas, corantes, íons metálicos e radioisótopos, qualifica a quitosana para aplicações voltadas tanto para detecção e análise dessas substâncias como para sua concentração ou recuperação 1,5 . Além disso, a quitosana exibe atividade antimicrobiana e devido a sua atoxicidade, biocompatibilidade e biodegradabilidade também tem grande potencial para aplicações na agricultura, em medicina, odontologia e formulações farmacêuticas 1,[5][6][7][8][9][10] . As possibilidades de aplicações são ainda enriquecidas pelo fato que a quitosana pode ser preparada em diferentes formas, tais como soluções de viscosidade controlada, géis, filmes e membranas, microesferas e nanopartículas.Nos últimos 40 anos foram realizados muitos estudos que demonstraram haver uma estreita relação de dependência entre as características estruturais e morfológicas de quitina, quitosana e seus derivados, suas propriedades e aplicações potenciais. De fato, o interesse comercial nas aplicações de quitosana e derivados aumentou vertiginosamente nas últimas três décadas, o que pode ser constatado pelo depósito de patentes no Japão, Europa, China, Coréia e, principalmente, nos EUA. Assim, conforme o "United States Patent and Trademark Office", foram regi...

show abstract

Methylation of Chitosan with Iodomethane: Effect of Reaction Conditions on Chemoselectivity and Degree of Substitution

Curti

Britto

Filho

2003

Macromolecular Bioscience

View full text Add to dashboard Cite

N,N,N‐trimethylchitosan (TMC) was prepared by reacting purified chitosan with iodomethane, in the presence of sodium hydroxide, water and sodium iodide, at room temperature. The reaction medium was N‐methyl‐2‐pyrrolidone. Different samples of TMC were obtained by adding to the reaction medium a fixed volume (5.5 mL) of aqueous NaOH solutions at different concentrations (15, 20, 30 and 40 wt.‐%) and carrying out the reactions for 9 or 24 h. The features observed in the 1H and 13C NMR spectra of these chitosan derivatives, in respect of the chemical shift, number and relative intensity of the signals, depended strongly on the excess of NaOH and H3CI added to the reaction medium, but when the lowest excess was employed, the characteristics of the derivative were not affected by the reaction time to the same extent. The average degree of quaternization of these N‐methylated derivatives of chitosan ranged from 10.5% to 44.8%, according to the reaction conditions. Increasing the excess of NaOH, in reactions carried out for 9 h, resulted in TMC samples with progressively higher content of trimethylated sites however, the reaction yields were correspondingly lower and O‐alkylation was favored in these cases.1H NMR spectrum of sample [AX]24h dissolved in D2O (Cp = 10 g/L).magnified image1H NMR spectrum of sample [AX]24h dissolved in D2O (Cp = 10 g/L).

show abstract

N,N,N-trimethyl chitosan nanoparticles as a vitamin carrier system

et al. 2012

View full text Add to dashboard Cite

Synthesis and mechanical properties of quaternary salts of chitosan-based films for food application

Britto

Assis

2007

International Journal of Biological Macromolecules

View full text Add to dashboard Cite

Effect of cashew gum-carboxymethylcellulose edible coatings in extending the shelf-life of fresh and cut guavas

Forato

Britto

Rizzo

et al. 2015

Food Packaging and Shelf Life

View full text Add to dashboard Cite

12 3 4 5

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

hi@scite.ai

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.