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Mridha, D.
- New Frontiers on Hyperlipidemia in Pharmaceutical Education
Authors
1 Bharat Technology, Banitabla, Uluberia, Howrah, W.B., IN
Source
Research Journal of Pharmacology and Pharmacodynamics, Vol 2, No 4 (2010), Pagination: 257-260Abstract
The condition of hyperlipidemia can be described as high cholesterol in the blood (hypercholesterolemia), high triglycerides in the blood (hypertriglyceridemia) or it could be both. Hyperlipidemia is a major risk factor in the initiation and progression of atherosclerotic lesions, conditions such as coronary heart disease, ischemic cerebrovascular disease and peripheral vascular disease which leads high morbidity rate in developed countries. The present article gives different classes of anti-hyperlipidemics highlighting the pathophysiology of artherosclerosis, classification, side effects and therapeutic uses of antihyperlipidemics.Keywords
Hyperlipidemia, Cholesterol, Atherosclerotic Blood Vessel.References
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- Nano Selenium: Potential Boon and Novel Approaches for Cancer Chemoprevention
Authors
1 School of Pharmacy, Chouksey Engineering College, Bilaspur- 495004, IN
2 Dept. of Pharmacy, Bharat Technology, Banitabla, Uluberia-711316, W.B., IN
3 Nababharat Shiksha Parishad, Orissa, Rourkela-769014, IN
Source
Research Journal of Pharmacology and Pharmacodynamics, Vol 3, No 1 (2011), Pagination: 15-16Abstract
Chemoprevention agents can also identified by systematic evaluation of agents that acts at specific molecular targets with respect to cancer by using laboratory assay. The use of specific nutrients, other chemical compounds in the prevention of cancer is referred to as chemoprevention. Now a days, very less research work focusing on the effect of substrate bound elemental Se nanoclusters on cancer growth. The mechanisms by which nano selenium compounds inhibit tumor formation during the initiation phase of carcinogenesis have been explored in vitro. Selenium nanoparticles are very beneficial for treatment of cancer.Keywords
Nanoselenium, Cancer Chemoprevention.References
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- Arteel G.E, Sies H. The biochemistry of selenium and the glutathione system. Environmental Pharmacology and Toxicology. 2001: 10: 153 - 158.
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- Meyskens F.L. Thinking about causality and chemoprevention. J.Nat.Cancer. !988: 24: 1278.
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- Zhang J, Wang X and Xu T. Elemental selenium at nanosize (Nano - Se) as a potential chemopreventive agent with reduced risk of selenium toxicity: Comparison with Se - methyl selenocysteine in mice. Toxicol Sci. 2008: 101: 22 - 31.
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- Overview on Liposome as Drugs Carrier
Authors
1 Balaka, Risi Bankim Sarani, Near Padakhep Club, West Hridaypur, P.O: Hridaypur, Kolkata- 700127, W.B, IN
2 Dept. of Pharmacy, Bharat Technology, Banitabla, Uluberia-711316, W.B., IN
3 Dept. of Pharmacy, Kanak Manjari Institute of Pharmaceutical Sciences, Rourkela-769015, Orissa, IN
4 Nababharat Shiksha Parishad, Orissa, Rourkela-769014, Orissa, IN
Source
Research Journal of Pharmaceutical Dosage Form and Technology, Vol 2, No 6 (2010), Pagination: 374-377Abstract
The main objective of drug delivery systems is to deliver a drug effectively, specifically to the site of action and to achieve greater efficacy and minimise the toxic effects compared to conventional drugs. Amongst various carrier systems, liposomes have generated a great interest because of their versatility and have played a significant role in formulation of potent drugs to improve therapeutics. Enhanced safety and efficacy have been achieved for a wide range of drug classes, including antitumor agents, antivirals, antimicrobials, vaccines, gene therapeutics etc. Liposomes were first described by British hematologist Dr Alec D Bangham. These are vesicular concentric structures, range in size from a nanometer to several micrometers, containing a phospholipid bilayer and are biocompatible, biodegradable and nonimmunogenic.
There are three types of liposomes - MLV (multilamillar vesicles), SUV (Small Unilamellar Vesicles) and LUV (Large Unilamellar Vesicles). Phospholipids are amphipathic, i.e., part of their structure is hydrophilic and the other is hydrophobic. Liposome can carry both hydrophobic and hydrophilic molecules. They can be filled with drugs and used to deliver drugs. Another interesting property of liposomes is their natural ability to target cancer by their rapid entry into tumor sites. Anti-cancer drugs such as Doxorubicin (Doxil), Camptothecin etc. are currently being marketed in liposome delivery systems. Liposomes that contain low or high pH can be constructed such that dissolved aqueous drugs will be charged in solution. Another strategy for liposome drug delivery is to target endocytosis events and can also be decorated with opsonins and ligands. The use of liposomes for transformation of DNA into a host cell is known as lipofection. In addition to these applications, liposomes can deliver the dyes to textiles, pesticides to plants, enzymes and nutritional supplements to foods, and cosmetics to the skin. The use of liposomes in nano cosmetology also has many benefits, including improved penetration and diffusion of active ingredients, selective transport of ingredients, greater stability of active, reduction of unwanted side effects, and high biocompatibility. Despite of their potential value, the major obstacles are the physical stability and manufacture of the liposomal products and these problems still remain to be overcome. More liposome based drug formulations can be expected in the near future both for delivery of conventional drugs and for new biotechnology therapeutics such as recombinant proteins, antisense oligonucleotides and cloned genes.
Keywords
Multilamillar Vesicles, Unilamellar Vesicles, Phospholipids.- Microbial Growth Promotion by Using a Digestive Ayurvedic Formulation
Authors
1 94, Vivekananda Park, Thakurpukur, Kolkata-700063, IN
2 School of Pharmacy, Chouksey Engineering College, Bilaspur- 495004, C. G, IN
3 Dept. of Pharmacy, Bharat Technology, Banitabla, Uluberia-711316, W. B, IN
4 Dept. of Pharmacy, Kanak Manjari Institute of Pharmaceutical Sciences, Rourkela-769015, Orissa, IN
Source
Research Journal of Pharmacognosy and Phytochemistry, Vol 3, No 1 (2011), Pagination: 26-29Abstract
A number of medicinal plants are available which helps both in growth promotion and inhibition of different micro-organisms. Micro-organisms having capability to produce several diseases and also by secreting different enzymes which help our body to develop.
Different extracts obtained against each process like cold infusion, hot infusion, decoction and maceration were suitably diluted with doubled distilled water. Several different samples were prepared and marked as Papain extract, Combined extract, Combined extract with Papain, Mixed Extract and Mixed Extract with Papain. Different cell cultures of four different species of micro-organisms were used based on different dilution and type of extraction. They are applied to observe the growth promotion of those beneficial micro-organisms. The maximum growth was observed in case of those extracts obtained from hot infusion and decoction process.