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Intrinsically Biocompatible Polymer Systems

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ISBN: 9783039284207 9783039284214 Year: Pages: 270 DOI: 10.3390/books978-3-03928-421-4 Language: English
Publisher: MDPI - Multidisciplinary Digital Publishing Institute
Subject: Technology (General) --- General and Civil Engineering --- Materials
Added to DOAB on : 2020-04-07 23:07:09
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Abstract

Biocompatibility refers to the ability of a biomaterial to perform its desired function with respect to a medical therapy, without eliciting any undesirable local or systemic effects in the recipient or beneficiary of that therapy, but generating the most appropriate beneficial cellular or tissue response in that specific situation, and optimizing the clinically relevant performance of that therapy, which reflects current developments in the area of intrinsically biocompatible polymer systems. Polymeric biomaterials are presently used as, for example, long-term implantable medical devices, degradable implantable systems, transient invasive intravascular devices, and, recently, as tissue engineering scaffolds. This Special Issue welcomes full papers and short communications highlighting the aspects of the current trends in the area of intrinsically biocompatible polymer systems.

Keywords

antimicrobial peptides --- biodegradable polymers --- biocompatible polymers --- drug delivery systems --- controlled release --- citropin --- temporin --- ionic liquids --- chitooligosaccharide --- polyurethane --- biodegradability --- physicochemical properties --- hemocompatibility --- biological activity --- crosslinking --- drug delivery --- cosmetic --- food-supplement --- functionalization --- hyaluronan applications --- hyaluronan derivatives --- hyaluronan synthases --- hyaluronic acid --- hyaluronidases --- physico-chemical properties --- cyclohexanone --- ?-butyrolactone --- chloroform --- extraction --- polyhydroxyalkanoates --- PHB --- electrospraying --- biodegradable nano/microparticles --- drug delivery --- septic arthritis --- release characteristics --- biopolymers --- silk fibroin --- konjac glucomannan --- porous beads --- scaffolds --- tissue engineering --- microcarriers --- Poly (l-lactic) acid --- Chitosan --- nanohydroxyapatite --- osteoblasts --- ion-releasing materials --- shrinkage stress --- water sorption --- hydroscopic expansion --- photoelastic investigation --- enzymatic polymerization --- chemical polymerization --- poly(benzyl malate) --- biocompatible nanoparticles --- cell uptake --- cytotoxicity --- HepaRG cells --- human macrophages --- star polymers --- solution behavior --- ATRP --- SPION --- contrast agent --- MRI --- cancer diagnosis --- folate receptor --- pluronic F127 --- polylactide --- hydrolytic degradation --- mechanical properties --- PEEK copolymer synthesis --- PEEK composite --- Spine cage application --- In vitro biosafety --- degradation --- saliva --- mechanical properties --- molecular weight --- thermal properties --- activation energy of thermal decomposition --- anterior cruciate ligament reconstruction --- bone tunnel enlargement --- X-ray microtomography --- polylactide --- n/a

Carbon, Nitrogen and Phosphorus Cycling in Forest Soils

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ISBN: 9783038976820 9783038976837 Year: Pages: 238 DOI: 10.3390/books978-3-03897-683-7 Language: English
Publisher: MDPI - Multidisciplinary Digital Publishing Institute
Subject: Science (General) --- Biology --- Forestry
Added to DOAB on : 2019-06-26 08:44:06
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Abstract

The majority of carbon stored in the soils of the world is stored in forests. The refractory nature of some portions of forest soil organic matter also provides the slow, gradual release of organic nitrogen and phosphorus to sustain long term forest productivity. Contemporary and future disturbances, such as climatic warming, deforestation, short rotation sylviculture, the invasion of exotic species, and fire, all place strains on the integrity of this homeostatic system of C, N, and P cycling. On the other hand, the CO2 fertilization effect may partially offset losses of soil organic matter, but many have questioned the ability of N and P stocks to sustain the CO2 fertilization effect.

Keywords

carbon distribution index --- moisture gradient --- soil organic matter fraction --- soil degradation --- soil available nitrogen --- soil available phosphorus --- temperature --- stand density --- charcoal --- forest soil --- carbon mineralization --- microbial activity --- nitrification --- polyphenols --- temperature --- soil microbial communities --- PLFA --- seasons --- nitrogen dynamics --- gross nitrogen transformations --- Daxing’an Mountains --- climatic factors --- soil nutrients --- forest types --- principal component analyses --- soil structure --- soil pH --- Oxisol --- variable-charge soils --- aluminum accumulator --- seasonal trends --- beech forests --- soil enzymes --- organic matter --- multilevel models --- near natural forest management --- Pinus massoniana plantation --- Cunninghamia lanceolata plantation --- soil greenhouse gas flux --- biolability --- tree-DOM --- dissolved organic matter (DOM) --- carbon --- dissolved organic carbon (DOC) --- stemflow --- throughfall --- alpine forest --- ammonia-oxidizing bacteria --- ammonia-oxidizing archaea --- ammonium --- nitrate --- revegetation --- microbial biomass --- chloroform fumigation extraction --- enzyme activities --- stoichiometric homeostasis --- the Three Gorges Reservoir --- Eucalyptus sp. --- wood volume --- second production cycle --- annual increment average --- soil fertility --- nutrient cycling --- Chamaecyparis forest --- humic substances --- 31P nuclear magnetic resonance spectroscopy (31P NMR) --- P species --- topography --- net primary productivity --- climate zone --- climate --- soil N --- litter N --- climate change --- manuring --- manure pelleting --- northern temperate --- pyrolysis --- information review --- leaf N:P ratio --- P resorption efficiency --- soil P fractions --- P stock --- stand age

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