&amp;alpha;-bisabolol-loaded lipid-core nanocapsules reduce lipopolysaccharide-induced pulmonary inflammation in mice

D'Almeida, Ana Paula Leite; Oliveira, Maria Talita Pacheco de; Souza, Everton Tenório de; Coutinho, Diego de Sá; Ciambarella, Bianca Torres; Gomes, Cristiano R; Terroso, Thatiana Ferreira; Guterres, Sílvia Stanisçuaski; Pohlmann, Adriana Raffin; Silva, Patrí­cia Mr; Martins, Marco Antônio Trevizani; Bernardi, Andressa

doi:10.2147/ijn.s130798

Cited by 37 publications

(35 citation statements)

References 67 publications

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“…They are one of the most studied release systems nanostructured that can protect against degradation processes, increase the solubility and potentiate the biological absorption of the active, besides allowing a controlled release (Mora‐Huertas, Fessi, & Elaissari, ). D'Almeida et al () developed α‐bisabolol nanocapsules also by the interfacial deposition of the preformed polymer method and obtained an average size around 160 nm, a polydispersity index of 0.1, negative zeta potential, acidic pH, and encapsulation efficiency around 100%, corroborating with the results obtained in the present study (D'Almeida et al, ).…”

Section: Discussionsupporting

confidence: 91%

Low‐dose curcumin‐loaded Eudragit L‐100‐nanocapsules in the diet of dairy sheep increases antioxidant levels and reduces lipid peroxidation in milk

et al. 2019

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The main objective of this study was to evaluate whether the addition of curcumin‐loaded nanocapsules (prepared and characterized) in the diets of dairy sheep improved milk quality. The nanocapsules were prepared using two polymers: poly‐ε‐caprolactone (PCL) and Eudragit L‐100. The nanocapsules contained 0.25 mg/ml (Nano‐Eudragit L‐100) and 2 mg/ml (Nano‐PCL) of curcumin. Dairy sheep were divided into four groups: A (control), B (30 mg free curcumin/kg concentrate), C (3 mg Nano‐PCL/kg concentrate), and D (3 mg Nano‐Eudragit/kg concentrate). We observed that the number of total leukocytes and serum globulin levels were lower in Group D than in the control (Group A) (p < 0.05). Antioxidant capacity against peroxyl radicals (ACAP) and catalase enzymes was elevated in Group D, with consequently reduced lipid peroxidation (LPO; p < 0.05). In milk, there were no differences in production and composition between groups during the experimental period (p > 0.05); however, ACAP increased and LPO decreased in milk. Practical applications Curcumin is a functional molecule with potent antioxidant, anti‐inflammatory, and antimicrobial actions, used frequently and with medical indications in human food. Free curcumin in sheep diets improves milk quality and increases its shelf life. This study showed that curcumin nanocapsules produced from the Eudragit L‐100 polymer potentiated the anti‐inflammatory and antioxidant actions of dairy sheep when used in the diet daily, at doses 10 times lower than that of free curcumin. These positive effects were reflected in higher total antioxidant capacity and lower lipid peroxidation in milk in sheep‐fed curcumin‐loaded Eudragit L‐100 nanocapsules, generating desirable milk properties. In practice, the use of nanotechnology enhances the beneficial effects of curcumin in milk, possibly creating a nutraceutical food desirable to consumers.

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Section: Discussionsupporting

confidence: 91%

Low‐dose curcumin‐loaded Eudragit L‐100‐nanocapsules in the diet of dairy sheep increases antioxidant levels and reduces lipid peroxidation in milk

et al. 2019

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“…The lung accumulation of the OA nanoparticles was size-dependent, with the larger sizes exhibiting greater uptake. The nanoparticles even with a large diameter can enter the lung tissue since the pulmonary epithelium in ARDS reveals an elevated microvascular permeability [46]. Dysfunction of the epithelial barrier facilitates the diffusion of macromolecules and nanoparticles into the alveolar space.…”

Section: Discussionmentioning

confidence: 99%

Oleic acid-based nanosystems for mitigating acute respiratory distress syndrome in mice through neutrophil suppression: how the particulate size affects therapeutic efficiency

Liu

Umoro

et al. 2020

J Nanobiotechnol

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Background: Oleic acid (OA) is reported to show anti-inflammatory activity toward activated neutrophils. It is also an important material in nanoparticles for increased stability and cellular internalization. We aimed to evaluate the antiinflammatory activity of injectable OA-based nanoparticles for treating lung injury. Different sizes of nanocarriers were prepared to explore the effect of nanoparticulate size on inflammation inhibition. Results: The nanoparticles were fabricated with the mean diameters of 105, 153, and 225 nm. The nanocarriers were ingested by isolated human neutrophils during a 5-min period, with the smaller sizes exhibiting greater uptake. The size reduction led to the decrease of cell viability and the intracellular calcium level. The OA-loaded nanosystems dose-dependently suppressed the superoxide anion and elastase produced by the stimulated neutrophils. The inhibition level was comparable for the nanoparticles of different sizes. In the ex vivo biodistribution study, the pulmonary accumulation of nanoparticles increased following the increase of particle size. The nanocarriers were mainly excreted by the liver and bile clearance. Mice were exposed to intratracheal lipopolysaccharide (LPS) to induce acute respiratory distress syndrome (ARDS), like lung damage. The lipid-based nanocarriers mitigated myeloperoxidase (MPO) and cytokines more effectively as compared to OA solution. The larger nanoparticles displayed greater reduction on MPO, TNF-α, and IL-6 than the smaller ones. The histology confirmed the decreased pulmonary neutrophil recruitment and lung-architecture damage after intravenous administration of larger nanoparticles. Conclusions: Nanoparticulate size, an essential property governing the anti-inflammatory effect and lung-injury therapy, had different effects on activated neutrophil inhibition and in vivo therapeutic efficacy.

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“…LPS acts on Toll-like receptor 4 to promote cytokines in the lung, resulting in neutrophil infiltration, hemorrhage, and alveolar disruption [ 21 ]. The cytokines are early biomarkers that respond in ALI.…”

Section: Discussionmentioning

confidence: 99%

Use of cilomilast-loaded phosphatiosomes to suppress neutrophilic inflammation for attenuating acute lung injury: the effect of nanovesicular surface charge

Liu

Lin

et al. 2018

J Nanobiotechnol

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BackgroundCilomilast is a phosphodiesterase 4 (PDE4) inhibitor for treating inflammatory lung diseases. This agent has a narrow therapeutic index with significant adverse effects on the nervous system. This study was conducted to entrap cilomilast into PEGylated phosphatidylcholine-rich niosomes (phosphatiosomes) to improve pulmonary delivery via the strong affinity to pulmonary surfactant film. Neutrophils were used as a cell model to test the anti-inflammatory activity of phosphatiosomes. In an in vivo approach, mice were given lipopolysaccharide to produce acute lung injury. The surface charge in phosphatiosomes that influenced the anti-inflammatory potency is discussed in this study.ResultsThe average diameter of the phosphatiosomes was about 100 nm. The zeta potential of anionic and cationic nanovesicles was − 35 and 32 mV, respectively. Cilomilast in both its free and nanocapsulated forms inhibited superoxide anion production but not elastase release in activated neutrophils. Cationic phosphatiosomes mitigated calcium mobilization far more effectively than the free drug. In vivo biodistribution evaluated by organ imaging demonstrated a 2-fold ameliorated lung uptake after dye encapsulation into the phosphatiosomes. The lung/brain distribution ratio increased from 3 to 11 after nanocarrier loading. The intravenous nanocarriers deactivated the neutrophils in ALI, resulting in the elimination of hemorrhage and alveolar wall damage. Only cationic phosphatiosomes could significantly suppress IL-1β and TNF-α in the inflamed lung tissue.ConclusionsThese results suggest that phosphatiosomes should further be investigated as a potential nanocarrier for the treatment of pulmonary inflammation.

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α-bisabolol-loaded lipid-core nanocapsules reduce lipopolysaccharide-induced pulmonary inflammation in mice

Cited by 37 publications

References 67 publications

Low‐dose curcumin‐loaded Eudragit L‐100‐nanocapsules in the diet of dairy sheep increases antioxidant levels and reduces lipid peroxidation in milk

Low‐dose curcumin‐loaded Eudragit L‐100‐nanocapsules in the diet of dairy sheep increases antioxidant levels and reduces lipid peroxidation in milk

Oleic acid-based nanosystems for mitigating acute respiratory distress syndrome in mice through neutrophil suppression: how the particulate size affects therapeutic efficiency

Use of cilomilast-loaded phosphatiosomes to suppress neutrophilic inflammation for attenuating acute lung injury: the effect of nanovesicular surface charge

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