Synthetic polymers polymers

Synthetic Polymers. Synthetic polymers are versatile and offer promise for both targeting and extracellular-intracellular drug delivery. Of the many soluble synthetic polymers known, the poly(amino acids) [poly(L-lysine), poly(L-aspartic acid), and poly(glutamic acid)], poly(hydroxypropylmethacrylamide) copolymers (polyHPMA), and maleic anhydride copolymers have been investigated extensively, particularly in the treatment of cancers. A brief discussion of these materials is presented. 

The surface tension of polymers (synthetic polymers such as plastics, biopolymers such as proteins and gelatin) is indeed of much interest in many areas. In industry where plastics are used, the adhesion of these materials to other materials (such as steel, glass) is of much interest. The adhesion process is very complex since the demand on quality and control is very high. This is also because adhesion systems are part of many life-sustaining processes (such as implants, etc.). The forces involved in adhesion need to be examined, and we will consider some typical examples in the following text. 

Polymers. Synthetic polymers or plastics are everywhere. They are used in cars, computers, planes, houses, eyeglasses, paints, bags, appliances, medical devices, carpets, tools, clothing, boats, batteries, and pipes. More than 60 million pounds of polymers are produced in the United States each year. The feedstocks that are used to produce these polymers are virtually all made from petroleum, a nonrenewable resource. Approximately 2.7 percent of all crude oil is used to generate chemical feedstocks. 

Key Words shRNA RNAi Biodegradable polymer Natural polymer Synthetic polymer Non-viral gene delivery Drug delivery Nanoparticle Microparticle Tumor targeting. 

Polar group Natural polymers Modified natural polymers Synthetic polymers... 

Polymer molecules may be linear or branched, and separate linear or branched chains may be joined by crosslinks. Extensive crosslinking leads to a three-dimensional and often insoluble polymer network. Polymers in which all the monomeric units are identical are referred to as homopolymers those formed from more than one monomer type are called copolymers. Various arrangements of the monomers A and B in the copolymer molecules (Fig. 8.1) can be produced with consequent effects on the physical properties of the resulting polymer. Synthetic polymers may have their main chains substituted in different ways, depending on the conditions of the reaction, such that atactic (random), isotactic or syndiotactic forms are produced, as diagrammatically represented in Fig. 8.1. 

Disclosed are dry, disposable, polymeric antimicrobial-applying products having sustained-release antimicrobial activity. They corrsist essentially of a polymeric material, such as a natrual polymer, synthetic polymer or mixture thereof, in the form of fibres, yarrrs, woverr, non-woven and knitted fabrics, sheets and films, and an amine salt antimicrobial agent, which is releasably impregnated into... 

Polymers can be divided into two broad groups synthetic polymers and biopolymers (natural polymers). Synthetic polymers are synthesized by scientists, whereas biopolymers are synthesized by organisms. Examples of biopolymers are... 

A number of reviews cover what has been achieved over the past 20 years in the field of soluble polymers as potential drug carriers.The polymers selected for preparing macromolecular prodrugs can be categorized according to (1) the chemical nature (vinylic or acrylic polymers, polysaccharides, poly(a-amino acids)) (2) the back bone stability (biodegradable polymers, stable polymers) (3) the origin (natural polymers, synthetic polymers) and (4) the... 

Polymers are broadly classified as synthetic and natural polymers. Synthetic polymers have become significant since the 1940s and continue to replace glass, wood, constructional materials and metals in many industrial, domestic and environmental applications [2-5]. Synthetic polymers are made from hydrocarbons derived from petroleum. Some of these polymers, such as nylon, polyethylene, polyurethane and so on, are an indispensable part of our daily lives. Due to their stability and durability they offer good mechanical and thermal properties [6], making them suitable for a variety of applications, e.g., in automobiles, cosmetics, medicines, biosensors,... 

Due to their availability and controllable degradation rate, synthetic biomaterials are also considered to be potential candidates in tissue engineering and regenerative medicine. Compared to natural polymers, synthetic polymers can easily be tailored into any form snitable for tissue engineering applications. Such materials should provide a three-dimensional (3D) structure that not only plays a supportive role for the tissue but also interacts with cells to control their... 

Synthetic polymers Synthetic polymers are obtained from their respective monomer(s) or reactants by chemical reactions in the laboratory. Most polymers fall into this category. Some examples are polyethylene, polypropylene, phenol-formaldehyde resin and styrene-butadiene rubber. 

Anchoring of Polymers. Synthetic polymers with hydrophobic side groups interact with membranes by insertion of these so-called anchors into the bilayer. Polysaccharides such as pullulan and amylopectin, which were derivatized with palmitoyl groups, are sufficiently hydrophobic to insert into lipid bilayers (201). If a sufficient amount of polysaccharide is added after vesicle formation, the... 

Synthetic polymer A polymer that is chemically manufactured from monomers is called a synthetic polymer. Synthetic polymers require human intervention. Currently, synthetic polymers with bioinspired/biomimetic characteristics are gaining attention in the field of new formulation development, particularly for cell-specific targeting. The potential applications of these increasingly sophisticated polymers are in the fields of tissue and cell-specific drug targeting and gene therapy. 

Basically there are two types of macromolecules synthetic polymers and biological polymers. Synthetic polymers are those that do not exist in nature they are man-made molecules. Biological polymers do exist in nature, but they can also... 

The open roller/press method is frequently employed for laboratory scale studies in the preparation of natural polymer/synthetic polymer blends. 

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