Cilostazol protects against changes caused by streptozotocin-induced diabetic retinopathy / Cilostazol protege contra as alterações causadas pela retinopatia diabética induzida por estreptozotocina

ABSTRACT Purpose: This study investigates the protective effect of cilostazol on the development and evolution of diabetic retinopathy in rats. Methods: Sixty male rats were divided into four groups: untreated nondiabetic rats, untreated diabetic rats, cilostazol-treated nondiabetic rats, and cilostazol-treated diabetic rats. The thickness of the internal limiting membrane to the outer limiting membrane, inner plexiform layer, inner nuclear layer, and outer nuclear layer were measured. The number of cell nuclei per 50-μm length in retinal sections was counted to quantify the degree of retinal cell loss. Results: The number of nuclei in the ganglion cell layer was significantly higher in untreated nondiabetic rats (p<0.05). The mean number of nuclei in the cilostazol-treated nondiabetic rats was significantly higher than that in the cilostazol-treated diabetic rats (p<0.05). The cilostazol-treated nondiabetic rats had a significantly higher mean nuclei count in the inner nuclear layer and inner plexiform layer as compared with the other groups (p<0.05). The total mean retinal thickness of the cilostazol-treated nondiabetic rats was significantly higher than that of cilostazol-treated diabetic rats and untreated diabetic rats (p<0.05). Conclusion: By decreasing the loss of ganglion cells and reducing the sensorineural atrophy in the internal retinal layers, cilostazol had a protective effect against changes caused by diabetic retinopathy in diabetic rats.

RESUMO Objetivo: O objetivo deste estudo foi investigar o efeito protetor do cilostazol no desenvolvimento e na evolução da retinopatia diabética em ratos. Métodos: Sessenta ratos machos foram divididos em 4 grupos: ratos não-diabéticos não-tratados, ratos diabéticos não-tratados, ratos não-diabéticos tratados com cilostazol e ratos diabéticos tratados com cilostazol. A espessura da membrana limitante interna à membrana limitante externa, a camada plexiforme interna, a camada nuclear interna e a camada nuclear externa foram medidas. Para quantificar o grau de perda de células da retina, foi contado o número de núcleos de células por 50 μm de comprimento em secções retinianas. Resultados: O número de núcleos no GCL foi significativamente maior em Ratos não-diabéticos não-tratados com cilostazol (p<0,05). O número médio de núcleos em Ratos não-diabéticos tratados com cilostazol foi significativamente maior do que em Ratos diabéticos tratados com cilostazol (p<0,05). A contagem média de núcleos em camada nuclear interna e camada plexiforme interna de ratos não-diabéticos tratados com cilostazol foi significativamente maior do que nos outros grupos (p<0,05). A espessura retiniana média total de Ratos não-diabéticos tratados com cilostazol foi significativamente maior do que em Ratos diabéticos tratados com cilostazol e Ratos diabéticos não-tratados (p<0,05). Conclusão: Os resultados demonstraram que o cilostazol teve um efeito protetor contra as alterações causadas pela retinopatia diabética em ratos diabéticos, diminuindo a perda de células ganglionares e reduzindo a atrofia neurossensorial nas camadas retinianas internas.

Preclinical Trial of Ocotea puberula (Rich.) Nees ("Canela-Guaicá") in Wound Healing: Validation of a Traditional Medicine Practice Used by Indigenous Groups in Southern Brazil.

Background: "Canela-guaicá," "guaicá," or "canela-sebo" [Ocotea puberula (Rich.) Nees] is a native species that is traditionally used by Kaingang indigenous groups for wound healing in southern Brazil. The aim of this study was to extract the mucilage from O. puberula barks, perform its phytochemical and physicochemical characterization, and investigate its healing potential. Methods: A murine wound model was used as a preclinical trial for authentication of the traditional knowledge from Kaingang indigenous communities. Results: Alkaloids and polysaccharides were identified by usual qualitative reactions and Fourier-transform infrared spectroscopy. This natural product showed thermal stability and pseudoplastic properties that were considered suitable for the intended use. A higher initial exacerbation of inflammatory response after 7 days, an improved angiogenesis after 14 days, and an increased wound shrinkage after 21 days were statistically significant for the "canela-guaicá" bark extract in the preclinical trial when compared to the silver calcium alginate dressing (positive control). Conclusion: The healing potential of the "canela-guaicá" bark extract, traditionally used by the Kaingang indigenous community from southern Brazil, was preclinically validated. This study paves the way for designing novel wound dressings containing this natural product in order to treat acute and chronic wounds.

Cilostazol protects against changes caused by streptozotocin-induced diabetic retinopathy.

PURPOSE: This study investigates the protective effect of cilostazol on the development and evolution of diabetic retinopathy in rats. METHODS: Sixty male rats were divided into four groups: untreated nondiabetic rats, untreated diabetic rats, cilostazol-treated nondiabetic rats, and cilostazol-treated diabetic rats. The thickness of the internal limiting membrane to the outer limiting membrane, inner plexiform layer, inner nuclear layer, and outer nuclear layer were measured. The number of cell nuclei per 50-µm length in retinal sections was counted to quantify the degree of retinal cell loss. RESULTS: The number of nuclei in the ganglion cell layer was significantly higher in untreated nondiabetic rats (p<0.05). The mean number of nuclei in the cilostazol-treated nondiabetic rats was significantly higher than that in the cilostazol-treated diabetic rats (p<0.05). The cilostazol-treated nondiabetic rats had a significantly higher mean nuclei count in the inner nuclear layer and inner plexiform layer as compared with the other groups (p<0.05). The total mean retinal thickness of the cilostazol-treated nondiabetic rats was significantly higher than that of cilostazol-treated diabetic rats and untreated diabetic rats (p<0.05). CONCLUSION: By decreasing the loss of ganglion cells and reducing the sensorineural atrophy in the internal retinal layers, cilostazol had a protective effect against changes caused by diabetic retinopathy in diabetic rats.

Characterization and In Vitro and In Vivo Evaluation of Tacrolimus-Loaded Poly(ε-Caprolactone) Nanocapsules for the Management of Atopic Dermatitis.

BACKGROUND: Tacrolimus (TAC) is a drug of natural origin used in conventional topical dosage forms to control atopic dermatitis. However, direct application of the drug often causes adverse side effects in some patients. Hence, drug nanoencapsulation could be used as an improved novel therapy to mitigate the adverse effects and enhance bioavailability of the drug. METHODS: Physicochemical properties, in vitro drug release experiments, and in vivo anti-inflammatory activity studies were performed. RESULTS: TAC-loaded nanocapsules were successfully prepared by the interfacial deposition of preformed polymer using poly(ε-caprolactone) (PCL). The nanoparticulate systems presented a spherical shape with a smooth and regular surface, adequate diameter (226 to 250 nm), polydispersity index below 0.3, and suitable electrical stability (-38 to -42 mV). X-ray diffraction confirmed that the encapsulation method provided mainly the drug molecular dispersion in the nanocapsule oily core. Fourier-transform infrared spectra suggested that nanoencapsulation did not result in chemical bonds between drug and polymer. In vitro drug dissolution experiments showed a controlled release with a slight initial burst. The release kinetics showed zero-order kinetics. As per the Korsmeyer-Peppas model, anomalous transport features were observed. TAC-loaded PCL nanocapsules exhibited excellent anti-inflammatory activity when compared to the free drug. CONCLUSIONS: TAC-loaded PCL nanocapsules can be suitably used as a novel nano-based dosage form to control atopic dermatitis.

Ursolic acid-loaded lipid-core nanocapsules reduce damage caused by estrogen deficiency in wound healing.

The skin aging process in women is accelerated due to decreases in serum estrogen levels triggered by the menopause process. Hence, poly(L-lactic acid) lipid-core nanocapsules containing ursolic acid (NPLA-UA) were developed using the interfacial deposition of the preformed polymer methodology as a strategy to reduce damages to the healing process caused by hormonal deficiency in ovariectomized rats. The colloidal suspensions of nanocapsules presented adequate size and morphology (254 and 375 nm), negative zeta potential (-31 and -37 mV), high encapsulation efficiency (99.89 %), and amorphous character. The analyses performed in an in vivo healing trial showed that the treatment with NPLA-UA resulted in faster wound retraction with less inflammatory response. In addition, the angiogenic process was stimulated increased synthesis of dermal collagen occurred. Ursolic acid-loaded, lipid-core nanocapsules are suitable for treating skin changes triggered by decreased estrogen in menopause.

Evaluation of wound healing effect of alginate film containing Aloe vera gel and cross-linked with zinc chloride.

PURPOSE: To develop a new wound dressing composed of alginate and Aloe vera gel and cross-linked with zinc ions. METHODS: The aloe-alginate film was characterized using scanning electron microscopy (SEM), swelling profile, mechanical properties, polysaccharide content and X-ray diffraction (XRD). Thirty Wistar rats were divided in two groups a) treated with aloe-alginate film and b) control (treated with sterile gauze). Wound contraction measurements and hystological analysis were performed on 7th, 14th and 21st days after wound surgery. RESULTS: The aloe-alginate film presented adequated mechanical resistance and malleability for application as wound dressing. There was no statistical difference in wound contraction between two groups. Histological assay demonstrated that aloe-alginate film presented anti-inflammatory activity, stimulated angiogenesis on proliferative phase and a more significant increased in collagen type I fibers and decreased type III fibers which promoted a mature scar formation when compared to control. CONCLUSIONS: The aloe-alginate film showed adequate physicochemical characteristics for wound dressing applications. The in vivo assay demonstrated that aloe-alginate film enhanced the healing process of incisional skin wounds.

Evaluation of wound healing effect of alginate film containing Aloe vera gel and cross-linked with zinc chloride

Abstract Purpose To develop a new wound dressing composed of alginate and Aloe vera gel and cross-linked with zinc ions. Methods The aloe-alginate film was characterized using scanning electron microscopy (SEM), swelling profile, mechanical properties, polysaccharide content and X-ray diffraction (XRD). Thirty Wistar rats were divided in two groups a) treated with aloe-alginate film and b) control (treated with sterile gauze). Wound contraction measurements and hystological analysis were performed on 7th, 14th and 21st days after wound surgery. Results The aloe-alginate film presented adequated mechanical resistance and malleability for application as wound dressing. There was no statistical difference in wound contraction between two groups. Histological assay demonstrated that aloe-alginate film presented anti-inflammatory activity, stimulated angiogenesis on proliferative phase and a more significant increased in collagen type I fibers and decreased type III fibers which promoted a mature scar formation when compared to control. Conclusions The aloe-alginate film showed adequate physicochemical characteristics for wound dressing applications. The in vivo assay demonstrated that aloe-alginate film enhanced the healing process of incisional skin wounds.

Bovine serum albumin nanoparticles improve the antitumour activity of curcumin in a murine melanoma model.

Curcumin is a natural compound presenting important antitumour activity. However, due to its low aqueous solubility, instability at physiological pH, and low oral bioavailability, its clinical use is limited. Bovine serum albumin (BSA) nanoparticles have been used as drug carriers to improve the drug properties. In this work, curcumin-loaded BSA nanoparticles were developed and the in vitro cytotoxicity over murine melanoma cells and the in vivo antitumour activity in a murine melanoma model were assessed. Nanoparticles presented 150 nm, polydispersity index of 0.16, negative zeta potential, and 45% of curcumin encapsulation efficiency. Curcumin release from nanoparticles was slow and diffusion dependent. In the cytotoxicity assay, free curcumin was more efficient than curcumin-loaded nanoparticles, probably due to the prolonged curcumin release from nanoparticles. However, in a murine melanoma model, curcumin-loaded nanoparticles presented higher antitumour efficiency than free curcumin. BSA nanoparticles are efficient curcumin carriers that may have relevant applications in melanoma treatment.

Resveratrol-loaded nanocapsules inhibit murine melanoma tumor growth.

In this study, resveratrol-loaded nanocapsules were developed and its antitumor activity tested on a melanoma mice model. These nanocapsules were spherically-shaped and presented suitable size, negative charge and high encapsulation efficiency for their use as a modified-release system of resveratrol. Nanoencapsulation leads to the drug amorphization. Resveratrol-loaded nanoparticles reduced cell viability of murine melanoma cells. There was a decrease in tumor volume, an increase in the necrotic area and inflammatory infiltrate of melanoma when resveratrol-loaded nanocapsules were compared to free resveratrol in treated mice. Nanoencapsulation of resveratrol also prevented metastasis and pulmonary hemorrhage. This modified-release technology containing resveratrol can be used as a feasible approach in order to inhibit murine melanoma tumor growth.