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1. Immune-instructive copolymer scaffolds using plant-derived nanoparticles to promote bone regeneration

Author

Salwa Suliman, Anna Mieszkowska, Justyna Folkert, Neha Rana, Samih Mohamed-Ahmed, Tiziana Fuoco, Anna Finne-Wistrand, Kai Dirscherl, Bodil Jørgensen, Kamal Mustafa, and Katarzyna Gurzawska-Comis

Subjects
Plant-derived RG-I, Copolymer, Pectin, Immunomodulation, Inflammation, Pathology, RB1-214
Abstract

Abstract Background Age-driven immune signals cause a state of chronic low-grade inflammation and in consequence affect bone healing and cause challenges for clinicians when repairing critical-sized bone defects in elderly patients. Methods Poly(l-lactide-co-ɛ-caprolactone) (PLCA) scaffolds are functionalized with plant-derived nanoparticles from potato, rhamnogalacturonan-I (RG-I), to investigate their ability to modulate inflammation in vitro in neutrophils and macrophages at gene and protein levels. The scaffolds’ early and late host response at gene, protein and histological levels is tested in vivo in a subcutaneous rat model and their potential to promote bone regeneration in an aged rodent was tested in a critical-sized calvaria bone defect. Significant differences were tested using one-way ANOVA, followed by a multiple-comparison Tukey’s test with a p value ≤ 0.05 considered significant. Results Gene expressions revealed PLCA scaffold functionalized with plant-derived RG-I with a relatively higher amount of galactose than arabinose (potato dearabinated (PA)) to reduce the inflammatory state stimulated by bacterial LPS in neutrophils and macrophages in vitro. LPS-stimulated neutrophils show a significantly decreased intracellular accumulation of galectin-3 in the presence of PA functionalization compared to Control (unmodified PLCA scaffolds). The in vivo gene and protein expressions revealed comparable results to in vitro. The host response is modulated towards anti-inflammatory/ healing at early and late time points at gene and protein levels. A reduced foreign body reaction and fibrous capsule formation is observed when PLCA scaffolds functionalized with PA were implanted in vivo subcutaneously. PLCA scaffolds functionalized with PA modulated the cytokine and chemokine expressions in vivo during early and late inflammatory phases. PLCA scaffolds functionalized with PA implanted in calvaria defects of aged rats downregulating pro-inflammatory gene markers while promoting osteogenic markers after 2 weeks in vivo. Conclusion We have shown that PLCA scaffolds functionalized with plant-derived RG-I with a relatively higher amount of galactose play a role in the modulation of inflammatory responses both in vitro and in vivo subcutaneously and promote the initiation of bone formation in a critical-sized bone defect of an aged rodent. Our study addresses the increasing demand in bone tissue engineering for immunomodulatory 3D scaffolds that promote osteogenesis and modulate immune responses.

Published
2022
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3. Engineering 3D degradable, pliable scaffolds toward adipose tissue regeneration; optimized printability, simulations and surface modification

Author

Shubham Jain, Mohammed Ahmad Yassin, Tiziana Fuoco, Hailong Liu, Samih Mohamed-Ahmed, Kamal Mustafa, and Anna Finne-Wistrand

Subjects
Biochemistry, QD415-436
Abstract

We present a solution to regenerate adipose tissue using degradable, soft, pliable 3D-printed scaffolds made of a medical-grade copolymer coated with polydopamine. The problem today is that while printing, the medical grade copolyesters degrade and the scaffolds become very stiff and brittle, being not optimal for adipose tissue defects. Herein, we have used high molar mass poly(L-lactide-co-trimethylene carbonate) (PLATMC) to engineer scaffolds using a direct extrusion-based 3D printer, the 3D Bioplotter ® . Our approach was first focused on how the printing influences the polymer and scaffold’s mechanical properties, then on exploring different printing designs and, in the end, on assessing surface functionalization. Finite element analysis revealed that scaffold’s mechanical properties vary according to the gradual degradation of the polymer as a consequence of the molar mass decrease during printing. Considering this, we defined optimal printing parameters to minimize material’s degradation and printed scaffolds with different designs. We subsequently functionalized one scaffold design with polydopamine coating and conducted in vitro cell studies. Results showed that polydopamine augmented stem cell proliferation and adipogenic differentiation owing to increased surface hydrophilicity. Thus, the present research show that the medical grade PLATMC based scaffolds are a potential candidate towards the development of implantable, resorbable, medical devices for adipose tissue regeneration.

Published
2020
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4. Efficacy of copolymer scaffolds delivering human demineralised dentine matrix for bone regeneration

Author

Arooj Munir, Anne Døskeland, Steven J Avery, Tiziana Fuoco, Samih Mohamed-Ahmed, Henning Lygre, Anna Finne-Wistrand, Alastair J Sloan, Rachel J Waddington, Kamal Mustafa, and Salwa Suliman

Subjects
Biochemistry, QD415-436
Abstract

Poly(L-lactide-co-ε-caprolactone) scaffolds were functionalised by 10 or 20 µg/mL of human demineralised dentine matrix. Release kinetics up to 21 days and their osteogenic potential on human bone marrow stromal cells after 7 and 21 days were studied. A total of 390 proteins were identified by mass spectrometry. Bone regeneration proteins showed initial burst of release. Human bone marrow stromal cells were cultured on scaffolds physisorbed with 20 µg/mL and cultured in basal medium (DDM group) or physisorbed and cultured in osteogenic medium or cultured on non-functionalised scaffolds in osteogenic medium. The human bone marrow stromal cells proliferated less in demineralised dentine matrix group and activated ERK/1/2 after both time points. Cells on DDM group showed highest expression of IL-6 and IL-8 at 7 days and expressed higher collagen type 1 alpha 2, SPP1 and bone morphogenetic protein-2 until 21 days. Extracellular protein revealed higher collagen type 1 and bone morphogenetic protein-2 at 21 days in demineralised dentine matrix group. Cells on DDM group showed signs of mineralisation. The functionalised scaffolds were able to stimulate osteogenic differentiation of human bone marrow stromal cells.

Published
2019
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5. Degradation in Order: Simple and Versatile One‐Pot Combination of Two Macromolecular Concepts to Encode Diverse and Spatially Regulated Degradability Functions

Author

Tiziana Fuoco

Subjects
atom economy, ring-opening polymerization, Sequence (biology), 010402 general chemistry, 01 natural sciences, Ring-opening polymerization, Catalysis, Copolymer, Research Articles, degradation, chemistry.chemical_classification, 010405 organic chemistry, General Medicine, General Chemistry, Polymer, Combinatorial chemistry, 0104 chemical sciences, Step-growth polymerization, Polyester, step-growth polymerization, chemistry, Polymerization, Research Article, Sequence‐Controlled Polymers | Hot Paper, sequence-controlled polymers, Macromolecule
Abstract

The clever one‐pot combination of two macromolecular concepts, ring‐opening polymerization (ROP) and step‐growth polymerization (SGP), is demonstrated to be a simple, yet powerful tool to design a library of sequence‐controlled polymers with diverse and spatially regulated degradability functions. ROP and SGP occur sequentially at room temperature when the organocatalytic conditions are switched from basic to acidic, and each allows the encoding of specific degradable bonds. ROP controls the sequence length and position of the degradability functions, while SGP between the complementary vinyl ether and hydroxyl chain‐ends enables the formation of acetal bonds and high‐molar‐mass copolymers. The result is the rational combination of cleavable bonds prone to either bulk or surface erosion within the same macromolecule. The strategy is versatile and offers higher chemical diversity and level of control over the primary structure than current aliphatic polyesters or polycarbonates, while being simple, effective, and atom‐economical and having potential for scalability., A dual polymerization approach creates new possibilities to access polymeric materials with sequence‐controlled primary structure and diverse degradable bonds. The methodology is overall simple and effective and involves an in situ organocatalyst switch, which leads to different polymerization mechanisms, and as a consequence, specific degradability functions are encoded.

Published
2021
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7. Poly(ε-caprolactone-co-p-dioxanone): a Degradable and Printable Copolymer for Pliable 3D Scaffolds Fabrication toward Adipose Tissue Regeneration

Author

Kamal Mustafa, Astrid Ahlinder, Tiziana Fuoco, Shubham Jain, and Anna Finne-Wistrand

Subjects
chemistry.chemical_classification, Fabrication, Materials science, Polymers and Plastics, business.industry, 3D printing, Bioengineering, 02 engineering and technology, Polymer, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, Biomaterials, chemistry.chemical_compound, Crystallinity, chemistry, Chemical engineering, Tissue engineering, Polycaprolactone, Materials Chemistry, Copolymer, 0210 nano-technology, business, Caprolactone
Abstract

The advancement of 3D printing technologies in the fabrication of degradable scaffolds for tissue engineering includes, from the standpoint of the polymer chemists, an urgent need to develop new materials that can be used as ink and are suitable for medical applications. Here, we demonstrate that a copolymer of e-caprolactone (CL) with low amounts of p-dioxanone (DX) (15 mol %) is a degradable and printable material that suits the requirements of melt extrusion 3D printing technologies, including negligible degradation during thermal processing. It is therefore a potential candidate for soft tissue regeneration. The semicrystalline CL/DX copolymer is processed at a lower temperature than a commercial polycaprolactone (PCL), shaped as a filament for melt extrusion 3D printing and as porous and pliable scaffolds with a gradient design. Scaffolds have Young's modulus in the range of 60-80 MPa, values suitable for provision of structural support for damaged soft tissue such as breast tissue. SEM and confocal microscope indicate that the CL/DX copolymer scaffolds support adipose stem cell attachment, spreading, and proliferation.

Published
2019
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8. Enhancing the Properties of Poly(ε-caprolactone) by Simple and Effective Random Copolymerization of ε-Caprolactone with p-Dioxanone

Author

Anna Finne-Wistrand and Tiziana Fuoco

Subjects
Thermogravimetric analysis, Materials science, Polymers and Plastics, Polymers, Polyesters, Inherent viscosity, Biocompatible Materials, Bioengineering, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Polymerization, Dioxanes, Biomaterials, chemistry.chemical_compound, Crystallinity, Materials Chemistry, Copolymer, 021001 nanoscience & nanotechnology, Microstructure, 0104 chemical sciences, chemistry, Chemical engineering, Melting point, Orthorhombic crystal system, 0210 nano-technology, Hydrophobic and Hydrophilic Interactions, Caprolactone
Abstract

We have developed a straightforward strategy to obtain semicrystalline and random copolymers of e-caprolactone (CL) and p-dioxanone (DX) with thermal stabilities similar to poly(e-caprolactone), PCL, but with a faster hydrolytic degradation rate. CL/DX copolymers are promising inks when printing scaffolds aimed for tissue engineering. Such copolymers behave similar to PCL and resorb faster. The copolymers were synthesized by bulk ring-opening copolymerization, achieving a high yield; a molecular weight, Mn, of 57-176 kg mol-1; and an inherent viscosity of 1.7-1.9 dL g-1. The copolymer microstructure consisted of long CL blocks that are separated by isolated DX units. The block length and the melting point were a linear function of the DX content. The copolymers crystallize as an orthorhombic lattice that is typical for PCL, and they formed more elastic, softer, and less hydrophobic films with faster degradation rates than PCL. Relatively high thermal degradation temperatures (above 250 °C), similar to PCL, were estimated by thermogravimetric analysis, and copolymer filaments for three-dimensional printing and scaffolds were produced without thermal degradation.

Published
2019
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9. Synthetic Approaches to Combine the Versatility of the Thiol Chemistry with the Degradability of Aliphatic Polyesters

Author

Tiziana Fuoco and Anna Finne Wistrand

Subjects
chemistry.chemical_classification, Polymers and Plastics, Polymer science, Renewable Energy, Sustainability and the Environment, Biomedical Engineering, 02 engineering and technology, General Chemistry, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Ring-opening polymerization, 0104 chemical sciences, Electronic, Optical and Magnetic Materials, Polyester, Constraint (information theory), Functional monomer, chemistry, Materials Chemistry, Thiol, Electrical and Electronic Engineering, 0210 nano-technology, Computer Science::Operating Systems
Abstract

We consider optimal sensor scheduling with unknown communication channel statistics. We formulate two types of scheduling problems with the communication rate being a soft or hard constraint, respe ...

Published
2019
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11. Understanding of how the properties of medical grade lactide based copolymer scaffolds influence adipose tissue regeneration: Sterilization and a systematic in vitro assessment

Author

Anna Finne-Wistrand, Mohammed Ahmad Yassin, Kamal Mustafa, Hallvard Vindenes, Tiziana Fuoco, Shubham Jain, and Samih Mohamed-Ahmed

Subjects
Materials science, Polymers, Polyesters, Adipose tissue, Bioengineering, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Dioxanes, Biomaterials, chemistry.chemical_compound, Crystallinity, Humans, chemistry.chemical_classification, Lactide, Tissue Engineering, Tissue Scaffolds, Comonomer, Regeneration (biology), Sterilization, Polymer, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Polyester, Adipose Tissue, chemistry, Mechanics of Materials, Trimethylene carbonate, 0210 nano-technology, Biomedical engineering
Abstract

Aliphatic polyesters are the synthetic polymers most commonly used in the development of resorbable medical implants/devices. Various three-dimensional (3D) scaffolds have been fabricated from these polymers and used in adipose tissue engineering. However, their systematic evaluation altogether lacks, which makes it difficult to select a suitable degradable polymer to design 3D resorbable implants and/or devices able to effectively mimic the properties of adipose tissue. Additionally, the impact of sterilization methods on the medical devices, if any, must be taken into account. We evaluate and compare five different medical-grade resorbable polyesters with l-lactide content ranging from 50 to 100 mol% and exhibiting different physiochemical properties depending on the comonomer (d-lactide, ε-caprolactone, glycolide, and trimethylene carbonate). The salt-leaching technique was used to prepare 3D microporous scaffolds. A comprehensive assessment of physical, chemical, and mechanical properties of the scaffolds was carried out in PBS at 37 °C. The cell-material interactions and the ability of the scaffolds to promote adipogenesis of human adipose tissue-derived stem cells were assessed in vitro. The diverse physical and mechanical properties of the scaffolds, due to the different composition of the copolymers, influenced human adipose tissue-derived stem cells proliferation and differentiation. Scaffolds made from polymers which were above their glass transition temperature and with low degree of crystallinity showed better proliferation and adipogenic differentiation of stem cells. The effect of sterilization techniques (electron beam and ethylene oxide) on the polymer properties was also evaluated. Results showed that scaffolds sterilized with the ethylene oxide method better retained their physical and chemical properties. Overall, the presented research provides (i) a detailed understanding to select a degradable polymer that has relevant properties to augment adipose tissue regeneration and can be further used to fabricate medical devices/implants; (ii) directions to prefer a sterilization method that does not change polymer properties. publishedVersion

Published
2021

13. Hydrogel Polyester Scaffolds via Direct-Ink-Writing of Ad Hoc Designed Photocurable Macromonomer

Author

Tiziana Fuoco, Mo Chen, Shubham Jain, Xi Vincent Wang, Lihui Wang, and Anna Finne-Wistrand

Subjects
Polymers and Plastics, General Chemistry
Abstract

Synthetic, degradable macromonomers have been developed to serve as ink for 3D printing technologies based on direct-ink-writing. The macromonomers are purposely designed to be cross-linkable under the radical mechanism, to impart hydrophilicity to the final material, and to have rheological properties matching the printer’s requirements. The suitable viscosity enables the ink to be printed at room temperature, in absence of organic solvents, and to be cross-linked to manufacture soft 3D scaffolds that show no indirect cytotoxicity and have a hydration capacity of up to 100% their mass and a compressive modulus in the range of 0.4–2 MPa.

Published
2022
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14. Printability and Critical Insight into Polymer Properties during Direct-Extrusion Based 3D Printing of Medical Grade Polylactide and Copolyesters

Author

Tiziana Fuoco, Shubham Jain, Kamal Mustafa, Anna Finne-Wistrand, and Mohammed A. Yassin

Subjects
Materials science, Magnetic Resonance Spectroscopy, Polymers and Plastics, Polymers, Polyesters, Bioengineering, Biocompatible Materials, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Biomaterials, Crystallinity, chemistry.chemical_compound, Polylactic Acid-Polyglycolic Acid Copolymer, Materials Chemistry, Copolymer, chemistry.chemical_classification, Lactide, Calorimetry, Differential Scanning, Polymer, 021001 nanoscience & nanotechnology, Microstructure, 0104 chemical sciences, Polyester, Molecular Weight, PLGA, chemistry, Chemical engineering, Printing, Three-Dimensional, Thermogravimetry, Chromatography, Gel, Extrusion, 0210 nano-technology
Abstract

Various 3D printing techniques currently use degradable polymers such as aliphatic polyesters to create well-defined scaffolds. Even though degradable polymers are influenced by the printing process, and this subsequently affects the mechanical properties and degradation profile, degradation of the polymer during the process is not often considered. Degradable scaffolds are today printed and cell-material interactions evaluated without considering the fact that the polymer change while printing the scaffold. Our methodology herein was to vary the printing parameters such as temperature, pressure, and speed to define the relationship between printability, polymer microstructure, composition, degradation profile during the process, and rheological behavior. We used high molecular weight medical-grade (co)polymers, poly(l-lactide-co-e-caprolactone) (PCLA), poly(l-lactide-co-glycolide) (PLGA), and poly(d,l-lactide-co-glycolide) (PDLGA), with l-lactide content ranging from 25 to 100 mol %, for printing in an extrusion-based printer (3D Bioplotter). Optical microscopy confirmed that the polymers were printable at high resolution and good speed, until a certain degree of degradation. The results show also that printability can not be claimed just by optimizing printing parameters and highlight the importance of a careful analysis of how the polymer's structure and properties vary during printing. The polymers thermally decomposed from the first processing minute and caused a decrease in the average block length of the lactide blocks in the copolymers and generated lower crystallinity. Poly(l-lactide) (PLLA) and PCLA are printable at a higher molecular weight, less degradation before printing was possible, compared to PLGA and PDLGA, a result explained by the higher complex viscosity and more elastic polymeric melt of the copolymer containing glycolide (GA) and lactide (LA). In more detail, copolymers comprised of LA and e-caprolactone (CL) formed lower molecular weight compounds over the course of printing, while the PLGA copolymer was more susceptible to intermolecular transesterification reactions, which do not affect the overall molecular weight, but cause changes in the copolymer microstructure. This results in a longer printing time for PLGA than PLLA and PCLA.

Published
2019

15. Poly(ε-caprolactone

Author

Tiziana, Fuoco, Astrid, Ahlinder, Shubham, Jain, Kamal, Mustafa, and Anna, Finne-Wistrand

Subjects
Tissue Engineering, Tissue Scaffolds, Polymers, Polyesters, Biocompatible Materials, Mesenchymal Stem Cells, Dioxanes, Adipose Tissue, Elastic Modulus, Materials Testing, Printing, Three-Dimensional, Humans, Regeneration, Porosity, Cell Proliferation
Abstract

The advancement of 3D printing technologies in the fabrication of degradable scaffolds for tissue engineering includes, from the standpoint of the polymer chemists, an urgent need to develop new materials that can be used as ink and are suitable for medical applications. Here, we demonstrate that a copolymer of ε-caprolactone (CL) with low amounts of

Published
2019

16. Efficacy of copolymer scaffolds delivering human demineralised dentine matrix for bone regeneration

Author

Salwa Suliman, Arooj Munir, Rachel J. Waddington, Alastair James Sloan, Tiziana Fuoco, Anna Finne-Wistrand, Anne P. Døskeland, Steven J. Avery, Henning Lygre, Kamal Mustafa, and Samih Mohamed-Ahmed

Subjects
Stromal cell, medicine.medical_treatment, Biomedical Engineering, Medicine (miscellaneous), 02 engineering and technology, Matrix (biology), Regenerative medicine, lcsh:Biochemistry, Biomaterials, 03 medical and health sciences, functionalisation, medicine, Extracellular, lcsh:QD415-436, Bone regeneration, bone tissue engineering, mesenchymal stem cell, 030304 developmental biology, 0303 health sciences, Chemistry, Growth factor, Mesenchymal stem cell, 021001 nanoscience & nanotechnology, In vitro, Cell biology, drug delivery, Original Article, 0210 nano-technology
Abstract

Poly(L-lactide-co-ε-caprolactone) scaffolds were functionalised by 10 or 20 µg/mL of human demineralised dentine matrix. Release kinetics up to 21 days and their osteogenic potential on human bone marrow stromal cells after 7 and 21 days were studied. A total of 390 proteins were identified by mass spectrometry. Bone regeneration proteins showed initial burst of release. Human bone marrow stromal cells were cultured on scaffolds physisorbed with 20 µg/mL and cultured in basal medium (DDM group) or physisorbed and cultured in osteogenic medium or cultured on non-functionalised scaffolds in osteogenic medium. The human bone marrow stromal cells proliferated less in demineralised dentine matrix group and activated ERK/1/2 after both time points. Cells on DDM group showed highest expression of IL-6 and IL-8 at 7 days and expressed higher collagen type 1 alpha 2, SPP1 and bone morphogenetic protein-2 until 21 days. Extracellular protein revealed higher collagen type 1 and bone morphogenetic protein-2 at 21 days in demineralised dentine matrix group. Cells on DDM group showed signs of mineralisation. The functionalised scaffolds were able to stimulate osteogenic differentiation of human bone marrow stromal cells.

Published
2019

17. 3D and Porous RGDC-Functionalized Polyester-Based Scaffolds as a Niche to Induce Osteogenic Differentiation of Human Bone Marrow Stem Cells

Author

Kamal Mustafa, Samih Mohamed-Ahmed, Tiziana Fuoco, Mohammed A. Yassin, and Anna Finne-Wistrand

Subjects
Scaffold, Biomimetic materials, Polymers and Plastics, Cell Survival, Polyesters, Molecular Conformation, Human bone, Bioengineering, Peptide, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Cell Line, Biomaterials, Osteogenesis, Materials Chemistry, medicine, Humans, chemistry.chemical_classification, Tissue Scaffolds, Chemistry, Osteoblast, Cell Differentiation, Mesenchymal Stem Cells, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Polyester, medicine.anatomical_structure, Biophysics, Chemical binding, Stem cell, 0210 nano-technology, Oligopeptides, Porosity, Biotechnology
Abstract

Polyester-based scaffolds covalently functionalized with arginine-glycine-aspartic acid-cysteine (RGDC) peptide sequences support the proliferation and osteogenic differentiation of stem cells. The aim is to create an optimized 3D niche to sustain human bone marrow stem cell (hBMSC) viability and osteogenic commitment, without reliance on differentiation media. Scaffolds consisting of poly(lactide-co-trimethylene carbonate), poly(LA-co-TMC), and functionalized poly(lactide) copolymers with pendant thiol groups are prepared by salt-leaching technique. The availability of functional groups on scaffold surfaces allows for an easy and straightforward method to covalently attach RGDC peptide motifs without affecting the polymerization degree. The strategy enables the chemical binding of bioactive motifs on the surfaces of 3D scaffolds and avoids conventional methods that require harsh conditions. Gene and protein levels and mineral deposition indicate the osteogenic commitment of hBMSC cultured on the RGDC functionalized surfaces. The osteogenic commitment of hBMSC is enhanced on functionalized surfaces compared with nonfunctionalized surfaces and without supplementing media with osteogenic factors. Poly(LA-co-TMC) scaffolds have potential as scaffolds for osteoblast culture and bone grafts. Furthermore, these results contribute to the development of biomimetic materials and allow a deeper comprehension of the importance of RGD peptides on stem cell transition toward osteoblastic lineage.

Published
2019

18. Poly(l-lactide) and Poly(l-lactide- co-trimethylene carbonate) Melt-Spun Fibers: Structure-Processing-Properties Relationship

Author

Tiziana, Fuoco, Torbjörn, Mathisen, and Anna, Finne-Wistrand

Subjects
Dioxanes, Structure-Activity Relationship, Polyesters, Tensile Strength, Materials Testing, Biocompatible Materials, Polymerization
Abstract

l-Lactide/trimethylene carbonate copolymers have been produced as multifilament fibers by high-speed melt-spinning. The relationship existing between the composition, processing parameters and physical properties of the fibers has been disclosed by analyzing how the industrial process induced changes at the macromolecular level, i.e., the chain microstructure and crystallinity development. A poly(l-lactide) and three copolymers having trimethylene carbonate contents of 5, 10 and 18 mol % were synthesized with high molecular weight ( M

Published
2019

19. A Route to Aliphatic Poly(ester)s with Thiol Pendant Groups: From Monomer Design to Editable Porous Scaffolds

Author

D Pappalardo, Anna Finne-Wistrand, and Tiziana Fuoco

Subjects
Polymers and Plastics, Polymers, Polyesters, Functionalized Poly(Lactic Acid), Biocompatible Materials, Bioengineering, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Dioxanes, Biomaterials, Lactones, chemistry.chemical_compound, Drug Delivery Systems, Dimethyl(Salicylaldiminato)Aluminum Compounds, Peptide-Synthesis, Polymer chemistry, Polymerkemi, Materials Chemistry, Copolymer, Pendant group, Caproates, chemistry.chemical_classification, Amino-Acids, Lactide, Tissue Engineering, Tissue Scaffolds, Polymer, Mercapto Groups, Polymer Chemistry, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Polyester, Ring-Opening Polymerization, O-Carboxyanhydrides, Epsilon-Caprolactone, Monomer, chemistry, Polymerization, Thiol, Biomedical Applications, 0210 nano-technology
Abstract

Biodegradable aliphatic polyesters such as poly(lactide) and poly(ϵ-caprolactone), largely used in tissue engineering applications, lack suitable functional groups and biological cues to enable interactions with cells. Because of the ubiquity of thiol groups in the biological environment and the pliability of thiol chemistry, we aimed to design and synthesize poly(ester) chains bearing pendant thiol-protected groups. To achieve this, 3-methyl-6-(tritylthiomethyl)-1,4-dioxane-2,5-dione, a lactide-type monomer possessing a pendant thiol-protected group, was synthesized. This molecule, when used as a monomer in controlled ring-opening polymerization in combination with lactide and ϵ-caprolactone, appeared to be a convenient "building block" for the preparation of functionalized aliphatic copolyesters, which were easily modified further. A polymeric sample bearing pyridyl disulfide groups, able to bind a cysteine-containing peptide, was efficiently obtained from a two-step modification reaction. Porous scaffolds were then prepared by blending this latter copolymer sample with poly(l-lactide-co-ϵ-caprolactone) followed by salt leaching. A further disulfide exchange reaction performed in aqueous medium formed porous scaffolds with covalently linked arginine-glycine-aspartic acid sequences. The scaffolds were characterized by thermal and mechanical tests, and scanning electron microscopy surface images revealed a highly porous morphology. Moreover, a cytotoxicity test indicated good cell viability. QC 20160518

Published
2016
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20. Organocatalytic strategy to telechelic oligo(ε-caprolactone-co-p-dioxanone): Photocurable macromonomers for polyester networks

Author

Anna Finne-Wistrand, Tove Kivijärvi, Tran Tam Nguyen, and Tiziana Fuoco

Subjects
Molar mass, Polymers and Plastics, Organic Chemistry, Dispersity, General Physics and Astronomy, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, Polyester, chemistry.chemical_compound, Crystallinity, Monomer, Reaction rate constant, chemistry, Polymer chemistry, Materials Chemistry, Reactivity (chemistry), 0210 nano-technology, Caprolactone
Abstract

We have designed photocurable, telechelic macromonomers consisting of random oligo(e-caprolactone-co-p-dioxanone), oligo(CL-co-DX), and demonstrated their suitability for preparing pliable polyester networks whose properties resemble those of gels. A versatile and effective metal-free co-oligomerization, catalyzed by diphenyl phosphate, was developed in bulk and at room temperature. A high rate of conversion of monomers was achieved and oligo(CL-co-DX)s with different composition and topology were obtained with controlled molar mass, approx. 2000 g mol−1, low dispersity and a random distribution of the two monomeric units. Kinetics analysis of the reaction disclosed a faster incorporation rate for the p-dioxanone (DX) than e-caprolactone (CL). The extrapolated rate constant, kDX, was 0.030 min−1 against a kCL of 0.013 min−1. The reactivity ratios were respectively 2.7 (rDX) and 0.28 (rCL). A detailed NMR analysis was performed to elucidate the structure of the co-oligomers, which could be precisely controlled by varying the monomer feed ratio and initiator. Depending on the composition, amorphous to semicrystalline oligomers with melting points close to room temperature were obtained, which after acrylation of the chain-end gave polyester networks with high swelling capacity up to 700%, and water uptake up to 70%.

Published
2020
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21. Multipurpose Degradable Physical Adhesive Based on Poly( <scp>d,l</scp> ‐lactide‐ co ‐trimethylene Carbonate)

Author

Ria Afifah Almas, Anna Finne-Wistrand, and Tiziana Fuoco

Subjects
chemistry.chemical_compound, Materials science, Polymers and Plastics, chemistry, Organic Chemistry, Polymer chemistry, Materials Chemistry, Poly d l lactide, Adhesive, Physical and Theoretical Chemistry, Trimethylene carbonate, Condensed Matter Physics, Glass transition
Published
2020
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22. Ring-opening polymerization of ω-6-hexadecenlactone by a salicylaldiminato aluminum complex: a route to semicrystalline and functional poly(ester)s

Author

Angelo Meduri, Marina Lamberti, Daniela Pappalardo, Vincenzo Venditto, Tiziana Fuoco, and Claudio Pellecchia

Subjects
chemistry.chemical_classification, Materials science, Polymers and Plastics, Double bond, Organic Chemistry, Epoxide, Bioengineering, Degree of polymerization, Biochemistry, Ring-opening polymerization, chemistry.chemical_compound, Crystallinity, chemistry, Polymerization, Polymer chemistry, Copolymer, Orthorhombic crystal system
Abstract

The controlled and pseudo-living ring-opening polymerization of a large ring size lactone, ω-6-hexadecenlactone (6HDL), was achieved for the first time by a dimethyl(salicylaldiminato) aluminum initiator. The obtained poly(ω-6-hexadecenlactone) was functionalized by thiol–ene coupling reaction. By epoxidation of the double bond a poly(6,7-epoxy-ω-hexadecalactone) was formed. The subsequent opening of the epoxide by NaCNBH3 produced a poly(6,7-epoxy-ω-hexadecalactone) with occasional inter and intra ether-type crosslinks. Modifications occurred without any change in the degree of polymerization. The obtained polymeric samples were characterized by NMR, GPC and DSC and X-ray diffraction analysis. The “polyethylene-like” orthorhombic crystal lattice of poly(ω-6-hexadecenlactone) is deformed in the poly(6,7-epoxy-ω-hexadecalactone) and is replaced by a hexagonal packing when the poly(ester) chains are hydroxylated. Furthermore, copolymerization of 6HDL with smaller e-caprolactone produced random copolymers, with average sequence block lengths of 2, while the sequential addition of 6HDL and e-caprolactone or rac-lactide allowed the preparation of block-copolymers. The block and random copolymers were also semicrystalline.

Published
2015
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23. Aluminum Alkyl Complexes Bearing Salicylaldiminato Ligands: Versatile Initiators in the Ring-Opening Polymerization of Cyclic Esters

Author

Tiziana Fuoco and Daniela Pappalardo

Subjects
ring-opening polymerization, 02 engineering and technology, 010402 general chemistry, lcsh:Chemical technology, 01 natural sciences, Ring-opening polymerization, Catalysis, aliphatic poly(esters), lcsh:Chemistry, Polymer chemistry, Aluminum alkyl, lcsh:TP1-1185, Physical and Theoretical Chemistry, poly(lactide), poly(caprolactone), Chemistry, food and beverages, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Polyester, Polymerization, lcsh:QD1-999, aluminum, 0210 nano-technology, poly(glycolide), Thermoplastic polymer, Poly(lactide)
Abstract

Linear aliphatic polyesters are degradable thermoplastic polymers, which can be obtained by ring-opening polymerization (ROP) of cyclic esters through a coordination-insertion mechanism. Aluminum based organometallic complexes have a leading position as efficient catalysts for this polymerization process. Aluminumalkyl complexes bearing salicylaldiminato ligands, although less explored, have been shown to be efficient and versatile catalysts for the ROP of various cyclic esters. These species have the potential to function as active catalysts in the ROP because of their less coordinatively saturated nature with respect to analogous SALEN-type complexes. They have been used as efficient catalysts in the ROP of commercially available cyclic esters, such as ε-caprolactone, l-lactide, rac-lactide, and glycolide. Moreover, they resulted in efficient catalysts for the ROP of cyclic esters with large ring-size and for the ROP of functionalized lactide. Furthermore, they have been used in the co- and ter-polymerization of various cyclic esters affording well controlled polymerization and a plethora of microstructural architectures, ranging from random to block to multiblock.

Published
2017

24. Straightforward Enantioselective Access to γ-Butyrolactones Bearing an All-Carbon β-Quaternary Stereocenter

Author

Tiziana Fuoco, Sara Meninno, Consiglia Tedesco, and Alessandra Lattanzi

Subjects
Aqueous solution, Molecular Structure, biology, Chemistry, Cinchona Alkaloids, Organic Chemistry, Enantioselective synthesis, Squaramide, Formaldehyde, Cinchona, Stereoisomerism, Succinates, biology.organism_classification, Biochemistry, Catalysis, Stereocenter, chemistry.chemical_compound, 4-Butyrolactone, Aldol reaction, Yield (chemistry), Organic chemistry, Physical and Theoretical Chemistry, organo-catalysis
Abstract

An enantioselective one-pot aldol/lactonization sequence has been developed to access highly challenging γ-butyrolactones bearing an all-carbon quaternary stereocenter at the β-position by reacting acylated succinic esters with aqueous formaldehyde in the presence of 3 mol % loading of a cinchona alkaloid-derived squaramide providing direct access to paraconic acid derivatives in high yield and fairly good level of enantioselectivity (up to 88% ee).

Published
2014
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25. Nondegradative additive manufacturing of medical grade copolyesters of high molecular weight and with varied elastic response

Author

Kamal Mustafa, Alvaro Morales-Lopez, Mohammed A. Yassin, Astrid Ahlinder, Tiziana Fuoco, and Anna Finne Wistrand

Subjects
Materials science, Polymers and Plastics, 02 engineering and technology, General Chemistry, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, Surfaces, Coatings and Films, Reduction (complexity), Materials Chemistry, Composite material, 0210 nano-technology, Melt extrusion
Abstract

Although additive manufacturing through melt extrusion has become increasingly popular as a route to design scaffolds with complex geometries the technique if often limited by the reduction in mole ...

Published
2019
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26. Copolymerization and terpolymerization of glycolide with lactones by dimethyl(salicylaldiminato)aluminum compounds

Author

Marina Lamberti, Daniela Pappalardo, Angelo Meduri, Claudio Pellecchia, and Tiziana Fuoco

Subjects
polyesters, ring-opening polymerization, synthesis, Materials Chemistry2506 Metals and Alloys, Polymers and Plastics, Surfaces, Coatings and Films, Chemistry (all), Materials science, chemistry.chemical_element, General Chemistry, Ring-opening polymerization, Surfaces, Coatings and Films, Polyester, chemistry, Aluminium, Polymer chemistry, Materials Chemistry, Copolymer, Organic chemistry
Published
2015
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27. ChemInform Abstract: Straightforward Enantioselective Access to γ-Butyrolactones Bearing an All-Carbon β-Quaternary Stereocenter

Author

Consiglia Tedesco, Sara Meninno, Tiziana Fuoco, and Alessandra Lattanzi

Subjects
Aqueous solution, biology, Aldol reaction, Chemistry, Organocatalysis, Yield (chemistry), Enantioselective synthesis, Squaramide, Cinchona, Organic chemistry, General Medicine, biology.organism_classification, Stereocenter
Abstract

An enantioselective one-pot aldol/lactonization sequence has been developed to access highly challenging γ-butyrolactones bearing an all-carbon quaternary stereocenter at the β-position by reacting acylated succinic esters with aqueous formaldehyde in the presence of 3 mol % loading of a cinchona alkaloid-derived squaramide providing direct access to paraconic acid derivatives in high yield and fairly good level of enantioselectivity (up to 88% ee).

Published
2015
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28. Versatile Copolymerization of Glycolide and rac-Lactide by Dimethyl(salicylaldiminato) aluminum Compounds

Author

Claudio Pellecchia, Angelo Meduri, Tiziana Fuoco, Marina Lamberti, and Daniela Pappalardo

Subjects
Materials science, Lactide, Polymers and Plastics, Organic Chemistry, chemistry.chemical_element, Microstructure, Catalysis, Inorganic Chemistry, Solvent, PLGA, chemistry.chemical_compound, Monomer, chemistry, Aluminium, Polymer chemistry, Materials Chemistry, Copolymer
Abstract

The dimethylaluminum compounds Al(CH3)2[(O-2-{(C6F5)N═CH}-4,6-R2C6H2)], R = H (1) or cumyl (2), were synthesized and tested as initiators in the homo- and copolymerization of rac-lactide and glycolide. These complexes resulted active for the production of PLGA copolymers with variable microstructure. All the copolymers were fully characterized by NMR, GPC, and DSC analysis. The copolymerization reactions were performed in bulk and in solution, by varying comonomers ratio, monomer/catalyst feed ratio, temperature, reaction time, and solvent. Interestingly, by changing the reaction conditions, copolymers from random, to blocky, to diblock were obtained, demonstrating the effectiveness and versatility of such systems in modulating the copolymers microstructure and the related thermal properties.

Published
2014

30. Diastereoselective Synthesis of (R)- Phenanthrenyl-9yl-[(S)-pyrrolidin-2yl)] Methanol

Author

Alessandra Lattanzi, Tiziana Fuoco, and Alessio Russo

Subjects
Steric effects, chemistry.chemical_compound, chemistry, Organic Chemistry, Organic chemistry, Methanol
Abstract

A four-step synthesis of sterically demanding (R)-phenanthren-9-yl-[(S)-pyrrolidin-2-yl] methanol has been easily accomplished starting from L-proline in high diastereoselectivity. These compounds are potentially useful ligands in metal-catalyzed reactions and organocatalysts. Supplemental materials are available for this article. Go to the publisher's online edition of Synthetic Communications® to view the free supplemental file.

Published
2013

31. ChemInform Abstract: Noncovalent Organocatalytic Synthesis of Enantioenriched Terminal Aziridines with a Quaternary Stereogenic Center

Author

Alessandra Lattanzi, Claudia De Fusco, Tiziana Fuoco, and Gianluca Croce

Subjects
chemistry.chemical_compound, Terminal (electronics), Chemistry, Stereochemistry, Center (algebra and category theory), General Medicine, Aziridine, Stereocenter
Abstract

The process allows the access to various aziridine structures bearing a functionalized asymmetric center.

Published
2012
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32. Noncovalent Organocatalytic Synthesis of Enantioenriched Terminal Aziridines with a Quaternary Stereogenic Center

Author

Tiziana Fuoco, Claudia De Fusco, Gianluca Croce, and Alessandra Lattanzi

Subjects
chemistry.chemical_compound, Thiourea, Stereochemistry, Chemistry, Organic Chemistry, Enantioselective synthesis, Regioselectivity, Physical and Theoretical Chemistry, Aziridine, Biochemistry, Catalysis, Stereocenter
Abstract

A high-yielding and enantioselective access to novel N-Boc terminal aziridines, bearing a quaternary stereogenic center, has been developed via an aza-Michael initiated ring-closure (aza-MIRC) reaction of α-acyl acrylates with an N-tosyloxy tert-butyl carbamate catalyzed by a chiral amino thiourea. The feasibility of the aziridine regioselective ring-opening to valuable α,α-disubstituted α-amino acid esters has been demonstrated.

Published
2012

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