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1.
Pharmaceutics ; 15(1)2023 Jan 03.
Artigo em Inglês | MEDLINE | ID: mdl-36678805

RESUMO

We have previously demonstrated significant in vitro natriuretic effects of anandamide (AEA) nanoformulation in polymeric nanoparticles, whose size prevents their accumulation in organs, such as the kidneys. Therefore, it is of particular interest to design and test nanostructures that can pharmacologically accumulate in these organs. In this regard, we prepared and characterized polymeric nanomicelles (~14 and 40 nm). Likewise, their biodistribution was determined. Spontaneously hypertensive rats (SHR) and normotensive rats (WKY), n = 3 per group, were divided into five treatment conditions: control, sham, free AEA freshly dispersed in aqueous solution or 24 h after its dispersion, and AEA encapsulated in nanomicelles. The kidneys were the main site of accumulation of the nanoformulation after 24 h. Freshly dispersed free AEA showed its classical triphasic response in SHR, which was absent from all other treatments. Nanoformulated AEA produced a sustained antihypertensive effect over 2 h, accompanied by a significant increase in fractional sodium excretion (FSE %). These effects were not observed in WKY, sham, or free AEA-treated rats after 24 h of its aqueous dispersion. Without precedent, we demonstrate in vivo natriuretic, diuretic, and hypotensive effects of AEA nanoformulation in polymeric nanomicelles, suggesting its possible use as a new antihypertensive agent with intravenous administration and passive renal accumulation.

2.
Pharmaceutics ; 14(5)2022 Apr 28.
Artigo em Inglês | MEDLINE | ID: mdl-35631546

RESUMO

Among respiratory infections, tuberculosis was the second deadliest infectious disease in 2020 behind COVID-19. Inhalable nanocarriers offer the possibility of actively targeting anti-tuberculosis drugs to the lungs, especially to alveolar macrophages (cellular reservoirs of the Mycobacterium tuberculosis). Our strategy was based on the development of a mannose-decorated micellar nanoformulation based in Soluplus® to co-encapsulate rifampicin and curcumin. The former is one of the most effective anti-tuberculosis first-line drugs, while curcumin has demonstrated potential anti-mycobacterial properties. Mannose-coated rifampicin (10 mg/mL)-curcumin (5 mg/mL)-loaded polymeric micelles (10% w/v) demonstrated excellent colloidal properties with micellar size ~108 ± 1 nm after freeze-drying, and they remain stable under dilution in simulated interstitial lung fluid. Drug-loaded polymeric micelles were suitable for drug delivery to the deep lung with lung accumulation, according to the in vitro nebulization studies and the in vivo biodistribution assays of radiolabeled (99mTc) polymeric micelles, respectively. Hence, the nanoformulation did not exhibit hemolytic potential. Interestingly, the addition of mannose significantly improved (5.2-fold) the microbicidal efficacy against Mycobacterium tuberculosis H37Rv of the drug-co-loaded systems in comparison with their counterpart mannose-free polymeric micelles. Thus, this novel inhaled nanoformulation has demonstrated its potential for active drug delivery in pulmonary tuberculosis therapy.

3.
Rev. argent. cardiol ; 88(2): 126-131, mar. 2020. tab, graf
Artigo em Espanhol | LILACS-Express | LILACS | ID: biblio-1250949

RESUMO

RESUMEN Objetivo: El objetivo del presente estudio fue el desarrollo y la evaluación farmacocinética y farmacodinámica de la liberación in vivo de implantes subcutáneos de carvedilol capaces de aportar niveles tisulares estables en modelos experimentales de hipertensión arterial. La incorporación del polímero hidrofílico SoluPlus (SP) en los implantes PCL:SP 150:150 y 50:250 favorece un incremento de la liberación de carvedilol dado que aporta concentraciones plasmáticas en el rango de 100-200 ng/mL durante 2 semanas, lo que tiene como resultado una reducción sostenida de la presión arterial sistólica indirecta en animales SHR. Material y métodos: Se prepararon implantes subcutáneos de poli (epsilon-caprolactona) (PCL) con diferentes proporciones del polímero hidrofílico SoluPlus (300:0; 250:50; 150:150 y 50:250 mg) cargados con 100 mg de carvedilol. Se evaluó el perfil plasmático y el efecto sobre la presión arterial sistólica (PAS) luego del implante de cada formulación en el tejido subcutáneo de ratas espontáneamente hipertensas (REH) macho. Resultados: Las formulaciones PCL:SP 50:250 y 150:150 aportaron niveles en el rango de 100-200 ng/mL. Las formulaciones PCL:SP 250:50 y 300:0 aportaron concentraciones inferiores de carvedilol comprendidas en el rango de los 0-100 ng/mL durante el transcurso del tratamiento. Los animales espontáneamente hipertensos tratados con PCL:SP 50:250 y 150:150 experimentaron un descenso significativo de la presión arterial sistólica (PCL:SP 50:250: DPAS: -36,6 ± 2,0 mmHg; PCL:SP150:150: 35,7 ± 2,2 mmHg; p <0,05 vs. basal). Conclusiones: La incorporación del polímero hidrofílico SoluPlus en los implantes PCL:SP 150:150 y 50:250 favorece un incremento de la liberación de carvedilol, ya que aporta concentraciones plasmáticas del β-bloqueante que aseguran una reducción sostenida de la PAS indirecta en animales espontáneamente hipertensos.


ABSTRACT Objective: The aim of this study was the development and pharmacokinetic/pharmacodynamic evaluation of the in vivo release of subcutaneous implants of carvedilol capable of providing stable tissue levels in experimental models of hypertension. Methods: The subcutaneous implants were prepared with poly (epsilon-caprolactone) (PCL) and different proportions of the SoluPlus (SP) hydrophilic polymer (300:0; 250:50; 150:150 and 50:250 mg) loaded with 100 mg carvedilol. The plasma profile and the effect on systolic blood pressure (SBP) after subcutaneous implantation of each formulation was evaluated in male spontaneously hypertensive rats (SHR). Results: The PCL:SP 50:250 and 150:150 formulations provided levels ranging from 100 to 200 ng/mL and the PCL:SP 250:50 and 300:0 formulations provided lower concentrations of carvedilol ranging from 0 to 100 ng/mL during the treatment period. Spontaneously hypertensive animals treated with the PCL:SP 50:250 y 150:150 implants presented a significant decrease in SBP (PCL:SP 50:250: DPAS: -36.6 ± 2.0 mm Hg; PCL:SP150:150: -35.7 ± 2.2 mmHg; p <0.05 vs. baseline values) Conclusions: The incorporation of the SoluPlus hydrophilic polymer in PC:SP 150:150 and 50:250 implants increases the release of carvedilol, since it provides plasma concentrations ranging from 100 to 200 ng/ml, resulting in a sustained reduction of indirect SBP in SHR.

4.
Nucl Med Biol ; 44: 62-68, 2017 01.
Artigo em Inglês | MEDLINE | ID: mdl-27821346

RESUMO

INTRODUCTION: In recent years, nanomedicines have raised as a powerful tool to improve prevention, diagnosis and treatment of different pathologies. Among the most well investigated biomaterials, D-α-tocopheryl polyethylene glycol succinate (also known as TPGS) has been on the spot for the last decade. We therefore designed a method to biologically characterize TPGS-based nanomicelles by labeling them with 99mTc. METHODS: Labeling process was performed by a direct method. The average hydrodynamic diameter of TPGS nanomicelles was measured by dynamic light scattering and radiochemical purity was assessed by thin layer chromatography. Imaging: a dynamic study was performed during the first hour post radioactive micelles administration in a gamma camera (TcO4- was also administered for comparative purposes). Then two static images were acquired in ventral position: 1h and 12h post injection. Blood pharmacokinetics of 99mTc-TPGS during 24h was performed. RESULTS: Images revealed whole body biodistribution at an early and delayed time and semiquantification was performed in organs of interest (%Total counts: soft tissue 6.1±0.5; 3.9±0.1, Bone 1.2±0.2; 1±0.1, Heart 1.5±0.6; 0.7±0.3, Kidneys 16.6±1.3; 26.5±1.7, Liver 8.6±1.1; 11.1±0.1 for 1 and 12 h post injection respectively). CONCLUSION: This work demonstrated that TPGS based nanomicelles are susceptible to be radiolabeled with 99mTc thus they can be used to perform imaging studies in animal models. Moreover radiolabeling of these delivery nano systems reveals their possibility to be used as diagnostic agents in the near future.


Assuntos
Micelas , Imagem Molecular/métodos , Nanotecnologia , Vitamina E/química , Animais , Marcação por Isótopo , Ratos , Ratos Sprague-Dawley , Tecnécio/química , Distribuição Tecidual , Vitamina E/farmacocinética
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