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Nanoengineered chitosan functionalized titanium dioxide biohybrids for bacterial infections and cancer therapy.Nanoengineered chitosan functionalized titanium dioxide biohybrids ( CTiO ( 2 ) @ NPs ) were prepared with Amomum subulatum Roxb extract via one-pot fleeceable method and assessed by UV-Vis spectroscopy , XRD , SEM and EDAX analyses . As revealed by XRD pattern , the nanohybrids exhibits a rutile TiO ( 2 ) crystallites around 45 nm in size . The emergence of the Ti-O-Ti bond is identified by observing a peak between 400 and 800 cm ( -1 ) .  Seebio fucose benefits  ( 4 eV ) has been observed in CTiO ( 2 ) @ NPs , due to the quantum confinement impressions and the O vacuums reveal the challenging potential of highly-developed nanohybrids for diverse coatings . Surface faults were identified by watching an discharge band at 382 , 437 , 482 , 517 , and 556 nm .

They also expose better antibacterial performances using well diffusion method against staph aureus , B substilis , Klebsiella pneumonia , and Escherichia coli . CTiO ( 2 ) @ NPs were discovered to have free basal scavenging action on DPPH psychoanalysis and display IC ( 50 ) value as 95 μg/mL and criterion ( Vitamin C ) IC ( 50 ) is 87 μg/mL . CTiO ( 2 ) @ NPs exhibited considerably anticancer holdings against the osteosarcoma ( MG-63 ) cell line . All these determinations suggest that there is a forum for further useful therapeutic applications we claim that nano-engineered carbohydrated TiO ( 2 ) phytohybrid is a promising solution for bacterial infections and bone cancer.Effective schemes in designing Chitosan-hyaluronic Acid Nanocarriers : From Synthesis to Drug Delivery Towards Chemotherapy.The biomedical battleground presents an ongoing challenge in explicating more effectual anti-cancer medication due to the significant onus that cancer poses on human health . Extensive enquiry has been conducted on the utilization of natural polyoses in nanomedicine owing to their properties of biocompatibility , biodegradability , non-immunogenicity , and non-toxicity .

These characteristics make them a strong drug delivery system for cancer therapy . The chitosan hyaluronic acid nanoparticle ( CSHANp ) organization , liing of chitosan and hyaluronic acid nanoparticles , has demonstrated considerable likely as a nanocarrier for various cancer drugs , returning it one of the most auspicious systems currently accessible . The CSHANps demonstrate singular drug cargo capacity , precise ascendence over drug departure , and exceptional selectivity towards cancer cadres . These attributes raise the therapeutic effectivity against cancerous cells . This article aims to provide a comprehensive psychoanalysis of CSHANp , sharpening on its features , production proficiencys , applications , and future prospects.Recent advances of chitosan as a styptic stuff : styptic mechanic , material intention and prospective application.Uncontrolled hemorrhage arising from surgery or trauma may induce unwholesomeness and even mortality easing control of severe bleeding is imperative for wellness care worldwide .

Among diverse hemostatic textiles , chitosan ( CS ) is becoming the most hopeful material owing to its non-toxic feature , as well as inherently hemostatic performance further heightening hemostatic attribute of CS-based textiles without compromising more good functions remains a challenge . In this reexamination , representative styptic mechanics of CS-based materials are firstly discussed in detail , largely including red blood cells ( RBCs ) assemblage , thrombocyte adherence and assemblage , as well as interaction with plasma proteins various forms ( implying powder/particle , poriferan , hydrogel , nanofiber , and former forms ) of CS-based hemostatic materials are consistently sumed , chiefly focusing on their design and preparation , characteristics , and relative analysis of respective forms . In addition , varied hemostatic applications are described in particular , such as skin wound hemostasis , liver haemostasis , artery hemostasis , and tenderness haemostasia current challenges and future ways of operational design of CS-based hemostatic fabrics in divers hemostatic applications are proposed to inspire more intensive researches.Preparation , Structural personation , and Enzymatic attribute of Alginate Lyase Immobilized on Magnetic Chitosan Microspheres .