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1.
Mar Drugs ; 19(1)2021 Jan 15.
Article in English | MEDLINE | ID: mdl-33467462

ABSTRACT

In the present study, chitosan (CS) and pectin (PEC) were utilized for the preparation of 3D printable inks through pneumatic extrusion for biomedical applications. CS is a polysaccharide with beneficial properties; however, its printing behavior is not satisfying, rendering the addition of a thickening agent necessary, i.e., PEC. The influence of PEC in the prepared inks was assessed through rheological measurements, altering the viscosity of the inks to be suitable for 3D printing. 3D printing conditions were optimized and the effect of different drying procedures, along with the presence or absence of a gelating agent on the CS-PEC printed scaffolds were assessed. The mean pore size along with the average filament diameter were measured through SEM micrographs. Interactions among the characteristic groups of the two polymers were evident through FTIR spectra. Swelling and hydrolysis measurements confirmed the influence of gelation and drying procedure on the subsequent behavior of the scaffolds. Ascribed to the beneficial pore size and swelling behavior, fibroblasts were able to survive upon exposure to the ungelated scaffolds.


Subject(s)
Biocompatible Materials/standards , Biomedical Engineering/standards , Chitosan/standards , Pectins/standards , Printing, Three-Dimensional/standards , Biocompatible Materials/chemistry , Biocompatible Materials/pharmacology , Biomedical Engineering/methods , Cell Survival/drug effects , Cell Survival/physiology , Cells, Cultured , Chitosan/chemistry , Chitosan/pharmacology , Humans , Pectins/chemistry , Pectins/pharmacology , Rheology/methods , Tissue Scaffolds/chemistry , Tissue Scaffolds/standards , Viscosity/drug effects
2.
Adv Skin Wound Care ; 34(5): 262-266, 2021 May 01.
Article in English | MEDLINE | ID: mdl-33208634

ABSTRACT

OBJECTIVE: To systematically review the effectiveness of chitosan in wound healing. DATA SOURCES: References were retrieved from PubMed, EMBASE, the Cochrane library, and Web of Science based on Medical Subject Headings and keywords ("chitosan" OR "chitin" OR "poliglusam" AND "wound healing"). STUDY SELECTION: Eligible articles were randomized controlled trials (RCTs) that required interventions for chitosan and its derivative dressings and included endpoints associated with wound healing. In summary, five RCTs (N = 319) were included in the final analysis. DATA SYNTHESIS: Only two RCTS (40%) reported significant beneficial effects of chitosan on wound healing compared with conventional gauze dressings (eg, tulle gras, petroleum jelly). The remaining three studies reported that chitosan had no significant effect on clinical wound healing compared with other biologic dressings (eg, alginate, hydrocolloid). CONCLUSIONS: Although the number of trials of new chitosan dressings has been increasing, studies on the relationship between chitosan and wound healing have been limited. Current data suggest that chitosan does not slow wound healing. However, the small number of available trials restricted adequate interpretation of the existing results. Future research needs to be rigorously designed to confirm any clinically relevant effect of chitosan in wound healing.


Subject(s)
Chitosan/standards , Wound Healing/drug effects , Bandages, Hydrocolloid/standards , Biocompatible Materials/pharmacology , Biocompatible Materials/standards , Chitosan/pharmacology , Humans
3.
J Pharm Pharmacol ; 71(6): 920-928, 2019 Jun.
Article in English | MEDLINE | ID: mdl-30805935

ABSTRACT

OBJECTIVES: The cationic biopolymer chitosan (CH) has emerged as a promising candidate adjuvant due to its safety profile and immunostimulatory properties. The presence of endotoxin contamination in biomaterials is generally underappreciated and can generate misleading results. It is important to establish a convenient methodology to obtain large amounts of high quality chitosan nanoparticles for biomedical applications. METHODS: We developed an easy method to generate endotoxin-free chitosan and assessed its purity using the Limulus amebocyte lysate assay and by measuring dendritic cell activation. KEY FINDINGS: Purified chitosan-based formulations alone failed to induce production of the proinflammatory cytokines tumour necrosis factor alpha (TNF-α) and interleukin (IL)-6 in bone marrow-derived dendritic cells (BMDCs) generated from C57BL/6 mice, while maintaining its ability to promote IL-1ß secretion in combination with the Toll-like receptor (TLR)-9 agonist, CpG. Moreover, BMDCs from C3H/HeN and TLR4-deficient mice, C3H/HeJ were stimulated with endotoxin-free chitosan-based formulations and no differences were observed in IL-6 and IL-1ß secretion, excluding the involvement of TLR-4 in the immunomodulatory effects of chitosan. CONCLUSIONS: The developed method provides simple guidelines for the production of endotoxin-free chitosan, ideal for biomedical applications.


Subject(s)
Chitosan/pharmacology , Dendritic Cells/drug effects , Immunologic Factors/pharmacology , Nanoparticles , Animals , Bone Marrow Cells/cytology , Chitosan/standards , Cytokines/metabolism , Dendritic Cells/immunology , Endotoxins/analysis , Female , Immunologic Factors/standards , Inflammation Mediators/metabolism , Limulus Test/methods , Mice , Mice, Inbred C3H , Mice, Inbred C57BL , Oligodeoxyribonucleotides/pharmacology
4.
AAPS PharmSciTech ; 12(2): 637-49, 2011 Jun.
Article in English | MEDLINE | ID: mdl-21560022

ABSTRACT

The effects of spray-drying process and acidic solvent system on physicochemical properties of chitosan salts were investigated. Chitosan used in spray dryings was obtained by deacetylation of chitin from lobster (Panulirus argus) origin. The chitosan acid salts were prepared in a laboratory-scale spray drier, and organic acetic acid, lactic acid, and citric acid were used as solvents in the process. The physicochemical properties of chitosan salts were investigated by means of solid-state CP-MAS (13)C nuclear magnetic resonance (NMR), X-ray powder diffraction (XRPD), differential scanning calorimetry, and Fourier transform infrared spectrometry (FTIR) and near-infrared spectroscopy. The morphology of spray-dried chitosan acid salts showed tendency toward higher sphericity when higher temperatures in a spray-drying process were applied. Analysis by XRPD indicated that all chitosan acid salts studied were amorphous solids. Solid-state (13)C NMR spectra revealed the evidence of the partial conversion of chitosan acetate to chitin and also conversion to acetyl amide form which appears to be dependent on the spray-drying process. The FTIR spectra suggested that the organic acids applied in spray drying may interact with chitosan at the position of amino groups to form chitosan salts. With all three chitosan acid salts, the FTIR bands at 1,597 and 1,615 cm(-1) were diminished suggesting that -NH groups are protonated. The FTIR spectra of all chitosan acid salts exhibited ammonium and carboxylate bands at 1,630 and 1,556 cm(-1), respectively. In conclusion, spray drying is a potential method of preparing acid salts from chitosan obtained by deacetylation of chitin from lobster (P. argus) origin.


Subject(s)
Acetic Acid/chemistry , Chemistry, Pharmaceutical/methods , Chitosan/chemistry , Lactic Acid/chemistry , Acetic Acid/standards , Animals , Chemistry, Pharmaceutical/standards , Chitosan/isolation & purification , Chitosan/standards , Lactic Acid/standards , Palinuridae , Particle Size , Salts/chemistry , Salts/standards
5.
J Invest Surg ; 23(3): 134-41, 2010 Jun.
Article in English | MEDLINE | ID: mdl-20590384

ABSTRACT

There has been recent interest in utilizing calcium phosphates (CaPs) that set in situ for treating bone defects due to the limitations associated with morselized autografts and allografts. However, CaP cements have long setting times, poor mechanical properties, and poor osteoinductivity. This has prompted research toward finding a nonprotein-based compound, such as chitosan, to accelerate setting times and increase osteoinductivity. The purpose of this study was to compare bone growth rates during the early bone healing response achieved using conventionally prepared chitosan-CaP bone filler to an extensively purified chitosan-CaP compound. Both compounds set quickly and stimulated bone formation. Histomorphometry demonstrated a 290% increase in new bone formation when using the conventional chitosan-CaP bone filler and a 172% increase with the highly purified chitosan-CaP compound compared to the increase in bone formation seen with the unfilled control group. The results of this study indicate that a highly purified chitosan-CaP paste stimulated less bone formation than a conventionally prepared chitosan-CaP paste but both pastes have the potential to stimulate bone formation.


Subject(s)
Bone Cements/standards , Calcium Phosphates/standards , Chitosan/standards , Osteogenesis/physiology , Animals , Male , Models, Animal , Rats , Rats, Sprague-Dawley , Time Factors
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