BACKGROUND: It is known that a considerable number of drugs in clinical use or under development are water-insoluble drugs with poor bioavailability. The liposomal delivery system has drawn attention as one of the noteworthy approaches to increase both dissolution and absorption
because of its biocompatibility and ability to encapsulate hydrophobic molecules in the lipid domain. However, several drawbacks have been reported, the most common is liposome structural instability . OBJECTIVE: To encapsulate alpha tocopherol into liposomes, to determine the new
formulation stability and to study the drug-release of alpha tocopherol into the sperm cryopreservation medium. MATERIALS AND METHODS: The liposomes prepared by an ethanol injection method were characterized for size stability, alpha tocopherol release and sperm motility tests. RESULTS:
The prepared unilamellar vesicles had both narrow size distribution (around 99 nm) and a good physical and chemical stability at 4°C during 12 months. The liposomes did not release the vitamin E immediately, but retained the protectant for 24 hours, probably due to the rigidity of
the liposomal fence which was reinforced by adding cholesterol. Then, all vitamin E molecules were released by 48 hours. Release was potentially by Fickian diffusion probably by the creation of mini-ducts due to both agitation and fence hydration. Moreover, semen motility treated with vitamin
E liposome preparations was significantly improved compared to all other treatments (including commonly used sperm conservation media). CONCLUSION : The stable vitamin E liposomes formulated in this work are a promising alternative for semen cryopreservation protection.
In the current investigation, peripheral blood films of 15 COVID-19 patients (44.78±16.55 years), proven by computed tomographic imaging and RT-PCR for coronavirus SARS-CoV-2, were analyzed at the moment of hospital admission. Blood tests showed raised inflammatory markers (C-reactive protein 58.2±61.2 mg/L) with normal values for hemoglobin (126.2±2.6 g/L), WBC (6.8±18.74 109/L) RBC (4.55±0.99 1012/L) platelets (262.4±41.8, 109/L) MCV (79.84±8.2 fL) MCH (28±3.31 pg) and MCHC (350.3±1.15 g/L). The results revealed the presence of hypersegmented neutrophils in 66.66%% of the patients. The percentages of neutrophils with 4 and 5 lobes were 46.25±4.83% and 31.5±14.84%, respectively. Three major red blood cells morphological alteration were observed: (1) erythrocytes in double primerouleauxdouble prime formation represented by linear erythrocytes aggregation, (2) spherocytes with the disappearance of the usual biconcave disk, and (3) echinocytes showing spiky projections. Apparent reorganization of hemoglobin is found in the majority of the analyzed erythrocytes. Rouleaux formation is observed in 33.33% of patients and spherocytes and echinocytes are present at variable levels in the all analyzed patients. The current results revealed erythrocytes injuries in COVID-19 peripheral blood, in association with hypersegmented neutrophils, alterations that could be involved in the respiratory syndrome.
:
Severe acute respiratory syndrome coronavirus 2 has spread rapidly since its discovery in December 2019 in the
Chinese province of Hubei, reaching this day, all the continents. This scourge is, unfortunately, in lineage with various dangerous outbreaks such as Ebola, Cholera, Spanish flu, American seasonal flu. Until today, the best solution for the moment
remains prevention (Social distancing, hand disinfection, use of masks, partial or total sanitary containment, etc.), there is
also the emergence of drug treatment (research and development, clinical trials, use on patients). Recent reviews emphasized
the role of membrane lipids in the infectivity mechanism of SARS-COV-2. Cholesterol-rich parts of cell membranes serve
as docking places of host cells for the viruses. Coronavirus 2 is a member of a virus family with lipid envelope that fuses
with host cell through endocytosis, internalizing its components in the cell. In vitro cell models have shown that depletion of
cholesterol by cyclodextrin, and particularly methyl beta cyclodextrin disturb the host cell membrane lipid composition this
way reducing the attachment of the virus to the protein receptors. This review aims to summarize the state of the art of research concerning the use of cyclodextrin or its complexes as a potential treatment against this new virus and update work
already published.
Background:
Camptothecin is known for a potent anticancer activity. However, its optimal activity is reduced
due to its low solubility and stability in biological media.
Objective:
The aim of present study is to design and characterize a camptothecin (CPT) suppository formulation.
Methods:
Rectal suppositories of: camptothecin alone, encapsulated with cyclodextrin (CD) and in ternary system (CPT
encapsulated with cyclodextrin and dispersed in polyethylene glycol (PEG) 6000) were prepared using various hydrophobic
and hydrophilic polymeric bases as semi-synthetic glyceride (Suppocire® AM Pellets) and polyethylene glycols (PEGs)
mixtures. Formulations were evaluated by various parameters like weight variation, drug content, hardness and liquefaction
time. In vitro release study was performed in USP type I apparatus using phosphate buffer pH 7.2 as dissolution media.
Results:
Suppositories were within the permissible range of all physical parameters. In vitro drug released from water
soluble base (PEG) was greater than that from oil soluble base with ninety percent (90%) of drug dissolution. It was also
established that drug release from various formulations was by diffusion mechanism according to Higuchi’s equation.
Conclusion:
This new formulation offers a new approach to colorectal cancer treatment by offering an alternative and
simple drug administration route.
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