Poly(alkyl cyanoacrylate) Nanospheres for Oral Administration of Insulin

Damgé, Christiane; Vranckx, Henri; Balschmidt, Peter; Couvreur, Patrick

doi:10.1021/js970124i

Cited by 150 publications

(78 citation statements)

References 49 publications

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“…Also, the bioadhesive properties of lipids can lead to a gradient diffusion of insulin from the high concentrations in the SLN matrix towards the intestinal cells. The association of both mechanisms has been related with the prolonged physiologic effect of insulin after oral administration (Damge et al, 1997). As shown in Table 2, insulin-loaded SLN showed better protection of insulin from harsh gastro intestinal environment than the insulin solution as evident from the data (C max 196.4 versus 16.4 only).…”

Section: Pharmacological and Bioavailability Evaluationsmentioning

confidence: 87%

Enhanced oral bioavailability of insulin-loaded solid lipid nanoparticles: pharmacokinetic bioavailability of insulin-loaded solid lipid nanoparticles in diabetic rats

Ansari¹,

Anwer²,

Jamil³

et al. 2015

Drug Delivery

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Objective: Insulin is a hormone used in the treatment of diabetes mellitus. Multiple injections of insulin every day may causes pain, allergic reactions at injection site, which lead to low patient compliance. The aim of this work was to develop and evaluate an efficient solid lipid nanoparticle (SLN) carrier for oral delivery of insulin. Methods: SLNs were prepared by double emulsion solvent evaporation (w/o/w) technique, employing glyceryltrimyristate (Dynasan 114) as lipid phase and soy lecithin and polyvinyl alcohol as primary and secondary emulsifier, respectively, and evaluated in vitro for particle size, polydispersity index (PDI) and drug entrapment. Results: Among the eight different developed formulae (F1-F8), F7 showed an average particle size (99 nm), PDI (0.021), high entrapment of drug (56.5%). The optimized formulation (F7) was further evaluated by FT-IR, DSC, XRD, in vitro release, permeation, stability, bioavailability and pharmacological studies. Insulin-loaded SLNs showed better protection from gastrointestinal environment as evident from the relative bioavailability, which was enhanced five times as compared to the insulin solution. A significant enhancement of relative bioavailability of insulin was observed, i.e. approximately five times of pure insulin solution when loaded in SLN (8.26% versus 1.7% only).

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Section: Pharmacological and Bioavailability Evaluationsmentioning

confidence: 87%

Enhanced oral bioavailability of insulin-loaded solid lipid nanoparticles: pharmacokinetic bioavailability of insulin-loaded solid lipid nanoparticles in diabetic rats

Ansari¹,

Anwer²,

Jamil³

et al. 2015

Drug Delivery

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“…Insulin entrapped in PACA nanospheres dispersed in an oily phase containing a surfactant produces prolonged hypoglycemia (Damge et al, 1997b). The fate of poly (isobutylcyanoacrylate) nanocapsules carrying insulin administered to rats was monitored by fluorescence and transmission electron microscopy (TEM) and evidenced intestinal absorption through the epithelial mucosa (PintoAlphandary et al, 2003).…”

Section: Introductionmentioning

confidence: 99%

Atorvastatin calcium loaded chitosan nanoparticles: in vitro evaluation and in vivo pharmacokinetic studies in rabbits

Ahmed¹,

Konwar²,

Sengupta³

2015

Braz. J. Pharm. Sci.

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In this study, we prepared atorvastatin calcium (AVST) loaded chitosan nanoparticles to improve the oral bioavailability of the drug. Nanoparticles were prepared by solvent evaporation technique and evaluated for its particle size, entrapment efficiency, zeta potential, in vitro release and surface morphology by scanning electron microscopy (SEM). In addition, the pharmacokinetics of AVST from the optimized formulation (FT5) was compared with marketed immediate release formulation (Atorva ® ) in rabbits. Particle size of prepared nanoparticles was ranged between 179.3 ± 7.12 to 256.8 ± 8.24 nm with a low polydispersity index (PI) value. Zeta potential study showed that the particles are stable with positive values between 13.03 ± 0.32 to 46.90 ± 0.49 mV. FT-IR studies confirmed the absence of incompatibility of AVST with excipient used in the formulations. In vitro release study showed that the drug release was sustained for 48 h. Results of pharmacokinetics study showed significant changes in the pharmacokinetic parameter (2.2 fold increase in AUC) of the optimized formulation as compared to marketed formulation (Atorva ® ). Thus, the developed nanoparticles evidenced the improvement of oral bioavailability of AVST in rabbit model. Uniterms:Atorvastatin calcium/oral bioavailability/experimental study. Atorvastatin calcium/in vitro release. Atorvastatin calcium/pharmacokinetics. Nanoparticles/drugs bioavailability.No presente estudo, preparamos nanopartículas de quitosana com atorvastatina cálcica (AVST) para melhorar a biodisponibilidade oral do fármaco. As nanopartículas foram preparadas pela técnica de evaporação de solvente, avaliando-se a granulometria, a eficiência de encapsulamento, o potencial zeta, a liberação in vitro e a morfologia da superfície, por meio da microscopia eletrônica de varredura (MEV). Além disso, a farmacocinética da formulação otimizada de AVST (FT5) foi comparada com a formulação comercial, de liberação imediata, comercializada (Atorva®), em coelhos. O tamanho das das nanopartículas variou na faixa de 179,3 a 256,8 ± 7,12 ± 8,24 nm, com baixo índice polidispersibilidade (PI). O estudo do potencial Zeta mostrou que as partículas são estáveis, com valores positivos entre 13,03 ± 0,32 a 46,90 ± 0,49 mV. Os estudos de FT-IR confirmaram a ausência de incompatibilidade de AVST com o excipiente utilizado nas formulações. O estudo de liberação in vitro mostrou que liberação sustentada do fármaco por 48 horas. Os resultados do estudo farmacocinético mostraram alterações significativas nos parâmetros (aumento de 2,2 vezes na ASC) da formulação otimizada em relação à comercializada (Atorva® ). Assim, o desenvolvimento de nanopartículas evidenciou a melhora da biodisponibilidade oral de AVST em coelhos.Uniterms: Atorvastatina cálcica/biodisponibilidade oral/estudo experimental. Atorvastatina cálcica/ liberação in vitro. Atorvastatina cálcica/farmacocinética. Nanopartículas/biodisponibilidade de fármacos.

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“…The encapsulation of insulin into polymeric nanoparticles allowed insulin to be protected against degradation by proteolytic enzymes (i.e. trypsin, chymotrypsin), as previously shown by Damgé et al (1997) with poly(alkylcyanoacrylate) nanospheres. Indeed, non-encapsulated insulin does not affect glycemia after oral delivery.…”

Section: Discussionmentioning

confidence: 70%

Influence of polymers ratio on insulin-loaded nanoparticles based on poly-ε-caprolactone and Eudragit^®RS for oral administration

Socha¹,

Sapin²,

Damgé³

et al. 2009

Drug Delivery

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Poly(alkyl cyanoacrylate) Nanospheres for Oral Administration of Insulin

Cited by 150 publications

References 49 publications

Enhanced oral bioavailability of insulin-loaded solid lipid nanoparticles: pharmacokinetic bioavailability of insulin-loaded solid lipid nanoparticles in diabetic rats

Enhanced oral bioavailability of insulin-loaded solid lipid nanoparticles: pharmacokinetic bioavailability of insulin-loaded solid lipid nanoparticles in diabetic rats

Atorvastatin calcium loaded chitosan nanoparticles: in vitro evaluation and in vivo pharmacokinetic studies in rabbits

Influence of polymers ratio on insulin-loaded nanoparticles based on poly-ε-caprolactone and Eudragit^®RS for oral administration

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Poly(alkyl cyanoacrylate) Nanospheres for Oral Administration of Insulin

Cited by 150 publications

References 49 publications

Enhanced oral bioavailability of insulin-loaded solid lipid nanoparticles: pharmacokinetic bioavailability of insulin-loaded solid lipid nanoparticles in diabetic rats

Enhanced oral bioavailability of insulin-loaded solid lipid nanoparticles: pharmacokinetic bioavailability of insulin-loaded solid lipid nanoparticles in diabetic rats

Atorvastatin calcium loaded chitosan nanoparticles: in vitro evaluation and in vivo pharmacokinetic studies in rabbits

Influence of polymers ratio on insulin-loaded nanoparticles based on poly-ε-caprolactone and Eudragit®RS for oral administration

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Influence of polymers ratio on insulin-loaded nanoparticles based on poly-ε-caprolactone and Eudragit^®RS for oral administration