Preparation and Quality Evaluation of Imperatorin Ultradeformable Liposomes Gel / 中国药房

OBJECTIVE：To prepare Imperatorin ultradeformable liposomes gel （IMP-UDLs-Gel），and to evaluate its quality. METHODS：Based on single factor test ，using 12 h accumulative penetration amount （Q12h）as evaluation index ，the proportion of carbomer 940，glycerol and propyl glycol in formulation of IMP-UDLs-Gel were investigated by orthogonal test. The optimal formulation was screened. The quality of IMP-UDLs-Gel prepared with the optimal formulation was evaluated. RESULTS ：The optimal formulation of IMP-UDLs-Gel included carbomer 940 proportion of 1％，glycerol proportion of 15％ and propyl glycol proportion of 10％. Q12 h of IMP-UDLs-Gel was （11.543±0.241）μg/cm2；the appearance was milky white and translucent ；the particle size was （93.13±1.68）nm，PDI was 0.268±0.012，Zeta potential was （－24.96±1.99）mV；pH was 7.32±0.03； viscosity was （45.37±1.27）g·s；steady flow was （0.727±0.002）μg·h/cm2，lag time was （4.358±0.175）h，apparent permeability coefficient was 1.392×10－3 cm/h，and it has good physical and optical stability. CONCLUSIONS ：The preparation method is stable and feasible ，and the prepared IMP-UDLs-Gel has good adhesion ，stability and transdermal property.

CORM-2-entrapped ultradeformable liposomes ameliorate acute skin inflammation in an ear edema model

The short release half-life of carbon monoxide (CO) is a major obstacle to the effective therapeutic use of carbon monoxide-releasing molecule-2 (CORM-2). The potential of CORM-2-entrapped ultradeformable liposomes (CORM-2-UDLs) to enhance the release half-life of CO and alleviate skin inflammation was investigated in the present study. CORM-2-UDLs were prepared by using soy phosphatidylcholine to form lipid bilayers and Tween 80 as an edge activator. The deformability of CORM-2-UDLs was measured and compared with that of conventional liposomes by passing formulations through a filter device at a constant pressure. The release profile of CO from CORM-2-UDLs was evaluated by myoglobin assay.

Actividad in vitro contra Leishmania y permeación en piel humana de liposomas ultradeformables de miltefosina / In vitro activity against Leishmania and human skin permeation of miltefosine ultradeformable liposomes

Introducción: los liposomas ultradeformables de miltefosina (LUD-MIL) constituyen una opción para el tratamiento tópico en leishmaniasis cutánea penetrando los estratos de la piel hasta la dermis, sitio donde habita el parásito. Objetivo: diseñar LUD-MIL y determinar su actividad contra L. (Viannia) panamensis y L. (V.) braziliensis y la permeación en piel humana. Métodos: los LUD-MIL, liposomas convencionales de fosfatidilcolina (LConv) y LUD-MIL-fluorescente (LUD-MIL-Fluo) fueron preparados por el método de rehidratación de película lipídica. Se caracterizaron fisicoquímicamente y se determinaron: la liberación en membrana semisintéticas, la retención en las capas de la piel y la permeación en piel humana. La citotoxicidad en THP-1 fue determinada por el ensayo colorimétrico de MTT y la actividad en promastigotes y amastigotes intracelulares por recuento microscópico. Resultados: el tamaño, índice de polidispersión, potencial Z y concentración de fosfolípidos de los LUD-MIL fue de 100,7 nm, 0,147, -12,0 mV y 53,24 mM respectivamente. El flujo de MIL a través de la membrana fue mayor con LUD-MIL que con MIL-libre. El tratamiento con LUD-MIL indujo menor acumulación de la MIL en el estrato corneo y mayor permeación que el tratamiento con MIL libre. Los LUD-MIL y los LConv-MIL mantuvieron la actividad de la MIL en los parásitos y células. Los LUD-MIL fueron más tóxicos para las células que los LConv y la MIL y más activos en amastigotes intracelulares de L. (V.) braziliensis. Conclusión: los LUD-MIL preparados conservaron la actividad anti-Leishmania de la MIL y permitieron la liberación del compuesto en membranas y piel humana. Ensayos en modelos experimentales de leishmaniasis cutánea para evaluar la actividad de estas formulaciones son urgentes de realizar(AU)

Introduction: miltefosine ultradeformable liposomes (MIL-LUD) are an option for the topical treatment of cutaneous leishmaniasis penetrating the skin layers to the dermis where the parasite inhabits. Objective: to design MIL-LUD and determine their in vitro activity against L. (Viannia) panamensis and L. (V.) braziliensis and to determine human skin permeation. Methods: MIL-LUD, phosphatidylcholine liposomes (MIL-LConv) and fluorescent MIL-LUD (MIL-LUD-Fluo) were prepared by lipid film rehydration method. They were physicochemically characterized to determine drug release in semisynthetic membrane, retention in skin layers and permeation on human skin membranes. Cytotoxicity in THP-1 was determined by the MTT colorimetric test and activity in promastigotes and intracellular amastigotes by microscopic counting. Results: the size, the polydispersion index, the Zeta potential and phospholipid content were 100.7 nm, 0.147, -12.0mV and 53.24mM, respectively for MIL-LUD. MIL flow through the semisynthetic membrane was greater with MIL-LUD than MIL-free treatment. MIL-LUD treatment induced lower MIL accumulation in the stratum corneum and increased permeation than MIL free treatment. The MIL-LUD and MIL-Conv maintained MIL activity in parasites and cells. The MIL-LUD was more toxic to cells than MIL-Conv and more active against intracellular amastigotes of L. (V.) braziliensis. Conclusion: prepared LUD -MIL retained the anti-leishmanial activity of the MIL and allowed the compound release in human skin and membranes. Testing of experimental cutaneous leishmaniasis models to evaluate the activity of these formulations are urgently needed(AU)