Your search keyword '"enzymatic degradation"' showing total 10 results

1. Degradation Behavior of Poly(Lactide-Co-Glycolide) Monolayers Investigated by Langmuir Technique: Accelerating Effect.

Author

Kim, Gayeon, Gavande, Vishal, Shaikh, Vasi, and Lee, Won-Ki

Subjects

*ALKALINE hydrolysis, *MONOMOLECULAR films, *SURFACE pressure, *RENEWABLE natural resources, *LACTIDES

Abstract

Among biodegradable polymers, polylactides (PLAs) have attracted considerable interest because the monomer can be produced from renewable resources. Since their initial degradability strongly affects commercial application fields, it is necessary to manage the degradation properties of PLAs to make them more commercially attractive. To control their degradability, poly(lactide-co-glycolide) (PLGA) copolymers of glycolide and isomer lactides (LAs) were synthesized, and their enzymatic and alkaline degradation rates of PLGA monolayers as functions of glycolide acid (GA) composition were systematically investigated by the Langmuir technique. The results showed that the alkaline and enzymatic degradations of PLGA monolayers were faster than those of l-polylactide (l-PLA), even though proteinase K is selectively effective in the l-lactide (l-LA) unit. Alkaline hydrolysis was strongly affected by their hydrophilicity, while the surface pressure of monolayers for enzymatic degradations was a major factor. [ABSTRACT FROM AUTHOR]

Published

2023

2. Multidose Hyaluronidase Administration as an Optimal Procedure to Degrade Resilient Hyaluronic Acid Soft Tissue Fillers.

Author

Flégeau, Killian, Jing, Jing, Brusini, Romain, Gallet, Mélanie, Moreno, Capucine, Walker, Lee, Bourdon, François, and Faivre, Jimmy

Subjects

*DERMAL fillers, *HYALURONIC acid, *HYALURONIDASES, *ADVERSE health care events, *MATHEMATICAL analysis, *TISSUES

Abstract

Minimally invasive hyaluronan (HA) tissue fillers are routinely employed to provide tissue projection and correct age-related skin depressions. HA fillers can advantageously be degraded by hyaluronidase (HAase) administration in case of adverse events. However, clear guidelines regarding the optimal dosage and mode of administration of HAase are missing, leaving a scientific gap for practitioners in their daily practice. In this study, we implemented a novel rheological procedure to rationally evaluate soft tissue filler degradability and optimize their degradation kinetics. TEOSYAL RHA® filler degradation kinetics in contact with HAase was monitored in real-time by rheological time sweeps. Gels were shown to degrade as a function of enzymatic activity, HA concentration, and BDDE content, with a concomitant loss of their viscoelastic properties. We further demonstrated that repeated administration of small HAase doses improved HA degradation kinetics over large single doses. Mathematical analyses were developed to evaluate the degradation potential of an enzyme. Finally, we tuned the optimal time between injections and number of enzymatic units, maximizing degradation kinetics. In this study, we have established a scientific rationale for the degradation of HA fillers by multidose HAase administration that could serve as a basis for future clinical management of adverse events. [ABSTRACT FROM AUTHOR]

Published

2023

3. Degradation Behavior of Poly(Lactide-Co-Glycolide) Monolayers Investigated by Langmuir Technique: Accelerating Effect

Author

Gayeon Kim, Vishal Gavande, Vasi Shaikh, and Won-Ki Lee

Subjects

poly(lactide-co-glycolide) (PLGA) copolymers, copolymerization, alkaline hydrolysis, enzymatic degradation, Langmuir monolayers, Organic chemistry, QD241-441

Abstract

Among biodegradable polymers, polylactides (PLAs) have attracted considerable interest because the monomer can be produced from renewable resources. Since their initial degradability strongly affects commercial application fields, it is necessary to manage the degradation properties of PLAs to make them more commercially attractive. To control their degradability, poly(lactide-co-glycolide) (PLGA) copolymers of glycolide and isomer lactides (LAs) were synthesized, and their enzymatic and alkaline degradation rates of PLGA monolayers as functions of glycolide acid (GA) composition were systematically investigated by the Langmuir technique. The results showed that the alkaline and enzymatic degradations of PLGA monolayers were faster than those of l-polylactide (l-PLA), even though proteinase K is selectively effective in the l-lactide (l-LA) unit. Alkaline hydrolysis was strongly affected by their hydrophilicity, while the surface pressure of monolayers for enzymatic degradations was a major factor.

Published

2023

4. Multidose Hyaluronidase Administration as an Optimal Procedure to Degrade Resilient Hyaluronic Acid Soft Tissue Fillers

Author

Killian Flégeau, Jing Jing, Romain Brusini, Mélanie Gallet, Capucine Moreno, Lee Walker, François Bourdon, and Jimmy Faivre

Subjects

hyaluronic acid, hyaluronidase, soft tissue filler, enzymatic degradation, rheology, Organic chemistry, QD241-441

Abstract

Minimally invasive hyaluronan (HA) tissue fillers are routinely employed to provide tissue projection and correct age-related skin depressions. HA fillers can advantageously be degraded by hyaluronidase (HAase) administration in case of adverse events. However, clear guidelines regarding the optimal dosage and mode of administration of HAase are missing, leaving a scientific gap for practitioners in their daily practice. In this study, we implemented a novel rheological procedure to rationally evaluate soft tissue filler degradability and optimize their degradation kinetics. TEOSYAL RHA® filler degradation kinetics in contact with HAase was monitored in real-time by rheological time sweeps. Gels were shown to degrade as a function of enzymatic activity, HA concentration, and BDDE content, with a concomitant loss of their viscoelastic properties. We further demonstrated that repeated administration of small HAase doses improved HA degradation kinetics over large single doses. Mathematical analyses were developed to evaluate the degradation potential of an enzyme. Finally, we tuned the optimal time between injections and number of enzymatic units, maximizing degradation kinetics. In this study, we have established a scientific rationale for the degradation of HA fillers by multidose HAase administration that could serve as a basis for future clinical management of adverse events.

Published

2023

5. Polyamidoamide Dendrimers and Cross-Linking Agents for Stabilized Bioenzymatic Resistant Metal-Free Bovine Collagen

Author

Valentina Beghetto, Vanessa Gatto, Silvia Conca, Noemi Bardella, and Alberto Scrivanti

Subjects

collagen, cross-linking, pamam, edc, enzymatic degradation, dmtmm, dendrimer, tanning, Organic chemistry, QD241-441

Abstract

The work reports the use of polyamidoamine dendrimers (PAMAM) and a cross-linking agent, 1-ethyl-3-(3-dimethylaminopropyl)-carbodiimide/N-hydroxysuccinimide (EDC/NHS) or 4-(4,6-dimethoxy[1,3,5]triazin-2-yl)-4-methyl-morpholinium chloride (DMTMM), for the thermal stabilization of dermal bovine collagen. The efficiency of EDC/NHS/PAMAM and DMTMM/PAMAM in the cross-linking of collagen is correlated to the increase of the collagen shrinkage temperature (Ts), measured by differential scanning calorimetry (DSC). An alternative enzymatic protocol was adopted to measure the degradability of EDC/NHS/PAMAM tanned hides; these data are correlated to the thermal stability values measured by DSC. In the presence of PAMAMs, EDC/NHS provides very high stabilization of bovine dermal collagen, giving Ts of up to 95 °C, while DMTMM achieves lower stabilization. Preliminary tanning tests carried out in best reaction conditions show that EDC/NHS/PAMAM could be an interesting, environmentally-sustainable tanning system which is completely free of metals, formaldehyde, and phenols. Two new unreported dendrimeric species were synthesized and employed.

Published

2019

6. Charge-Controlled Synthetic Hyaluronan-Based Cell Matrices

Author

Patricia S. Hegger, Julia Kupka, Burcu Baykal Minsky, Sabine Laschat, and Heike Boehm

Subjects

hyaluronan, polyelectrolyte hydrogel, enzymatic degradation, synthetic ECM, cell attachment, glycosaminoglycans, tissue engineering, Organic chemistry, QD241-441

Abstract

The extracellular matrix (ECM) represents a highly charged and hydrated network in which different cells in vertebrate tissues are embedded. Hydrogels as minimal ECM mimetics with a controlled chemistry offer the opportunity to vary material properties by varying the negative network charge. In this paper, a synthetic biology model of the ECM based on natural and highly negatively charged polyelectrolyte hyaluronic acid (HA) is characterized with specific emphasis on its charge-related bioactivity. Therefore, the thiol-Michael addition click reaction is used to produce HA hydrogels with defined network structure and charge density. The presented hydrogels show enzymatic degradability and cell attachment. These properties depend on both covalent and electrostatic interactions within the hydrogel network. Furthermore, no unspecific or specific attachment of proteins to the presented hydrogels is observed. In addition, these fundamental insights into charge-related ECM behavior and the influence of electrostatic properties could also lead to innovations in existing biomedical products.

Published

2018

7. Amygdalin: Toxicity, Anticancer Activity and Analytical Procedures for Its Determination in Plant Seeds

Author

Piotr Bałczewski, Krzysztof Owsianik, Alyson E. Mitchell, Marek Koprowski, Żaneta Polkowska, and Ewa Jaszczak-Wilke

Subjects

cyanogenic glycosides, Cyanide, Amygdalin, Hydrogen cyanide, Pharmaceutical Science, Review, 01 natural sciences, almond, Analytical Chemistry, lcsh:QD241-441, 03 medical and health sciences, chemistry.chemical_compound, Medicinal and Biomolecular Chemistry, 0302 clinical medicine, lcsh:Organic chemistry, Theoretical and Computational Chemistry, amygdalin, Hydrogen Cyanide, analytical procedures, Drug Discovery, Animals, Humans, hydrogen cyanide, Glycosides, Physical and Theoretical Chemistry, Cancer, chemistry.chemical_classification, Traditional medicine, Chemistry, 010401 analytical chemistry, Organic Chemistry, Glycoside, food and beverages, toxicity, 0104 chemical sciences, anticancer activity, Chemistry (miscellaneous), 030220 oncology & carcinogenesis, Toxicity, Seeds, Edible plants, Molecular Medicine, Cancer cell lines, Enzymatic degradation

Abstract

Amygdalin (d-Mandelonitrile 6-O-β-d-glucosido-β-d-glucoside) is a natural cyanogenic glycoside occurring in the seeds of some edible plants, such as bitter almonds and peaches. It is a medically interesting but controversial compound as it has anticancer activity on one hand and can be toxic via enzymatic degradation and production of hydrogen cyanide on the other hand. Despite numerous contributions on cancer cell lines, the clinical evidence for the anticancer activity of amygdalin is not fully confirmed. Moreover, high dose exposures to amygdalin can produce cyanide toxicity. The aim of this review is to present the current state of knowledge on the sources, toxicity and anticancer properties of amygdalin, and analytical methods for its determination in plant seeds.

Published

2021

8. Polyamidoamide Dendrimers and Cross-Linking Agents for Stabilized Bioenzymatic Resistant Metal-Free Bovine Collagen

Author

Vanessa Gatto, Silvia Conca, Noemi Bardella, Alberto Scrivanti, and Valentina Beghetto

Subjects

collagen, tanning, Dendrimers, Bovine collagen, Formaldehyde, Succinimides, Pharmaceutical Science, Calorimetry, PAMAM, dendrimer, Settore CHIM/04 - Chimica Industriale, Chloride, Article, Analytical Chemistry, lcsh:QD241-441, chemistry.chemical_compound, Differential scanning calorimetry, lcsh:Organic chemistry, Dendrimer, Drug Discovery, medicine, enzymatic degradation, Animals, Thermal stability, Collagenases, Phenols, Physical and Theoretical Chemistry, Enzyme Assays, Settore ING-IND/24 - Principi di Ingegneria Chimica, Calorimetry, Differential Scanning, integumentary system, Organic Chemistry, Temperature, Settore CHIM/06 - Chimica Organica, DMTMM, EDC, cross-linking, Cross-Linking Reagents, chemistry, Chemistry (miscellaneous), Molecular Medicine, Cattle, Nuclear chemistry, medicine.drug

Abstract

The work reports the use of polyamidoamine dendrimers (PAMAM) and a cross-linking agent, 1-ethyl-3-(3-dimethylaminopropyl)-carbodiimide/N-hydroxysuccinimide (EDC/NHS) or 4-(4,6-dimethoxy[1,3,5]triazin-2-yl)-4-methyl-morpholinium chloride (DMTMM), for the thermal stabilization of dermal bovine collagen. The efficiency of EDC/NHS/PAMAM and DMTMM/PAMAM in the cross-linking of collagen is correlated to the increase of the collagen shrinkage temperature (Ts), measured by differential scanning calorimetry (DSC). An alternative enzymatic protocol was adopted to measure the degradability of EDC/NHS/PAMAM tanned hides, these data are correlated to the thermal stability values measured by DSC. In the presence of PAMAMs, EDC/NHS provides very high stabilization of bovine dermal collagen, giving Ts of up to 95 &deg, C, while DMTMM achieves lower stabilization. Preliminary tanning tests carried out in best reaction conditions show that EDC/NHS/PAMAM could be an interesting, environmentally-sustainable tanning system which is completely free of metals, formaldehyde, and phenols. Two new unreported dendrimeric species were synthesized and employed.

Published

2019

9. Polyamidoamide Dendrimers and Cross-Linking Agents for Stabilized Bioenzymatic Resistant Metal-Free Bovine Collagen.

Author

Beghetto, Valentina, Gatto, Vanessa, Conca, Silvia, Bardella, Noemi, Scrivanti, Alberto, and Vitale, Paola

Subjects

*POLYAMIDOAMINE dendrimers, *COLLAGEN, *FORMALDEHYDE, *DENDRIMERS, *DIFFERENTIAL scanning calorimetry, *THERMAL stability

Abstract

The work reports the use of polyamidoamine dendrimers (PAMAM) and a cross-linking agent, 1-ethyl-3-(3-dimethylaminopropyl)-carbodiimide/N-hydroxysuccinimide (EDC/NHS) or 4-(4,6-dimethoxy[1,3,5]triazin-2-yl)-4-methyl-morpholinium chloride (DMTMM), for the thermal stabilization of dermal bovine collagen. The efficiency of EDC/NHS/PAMAM and DMTMM/PAMAM in the cross-linking of collagen is correlated to the increase of the collagen shrinkage temperature (Ts), measured by differential scanning calorimetry (DSC). An alternative enzymatic protocol was adopted to measure the degradability of EDC/NHS/PAMAM tanned hides; these data are correlated to the thermal stability values measured by DSC. In the presence of PAMAMs, EDC/NHS provides very high stabilization of bovine dermal collagen, giving Ts of up to 95 °C, while DMTMM achieves lower stabilization. Preliminary tanning tests carried out in best reaction conditions show that EDC/NHS/PAMAM could be an interesting, environmentally-sustainable tanning system which is completely free of metals, formaldehyde, and phenols. Two new unreported dendrimeric species were synthesized and employed. [ABSTRACT FROM AUTHOR]

Published

2019

10. Charge-Controlled Synthetic Hyaluronan-Based Cell Matrices.

Author

Hegger, Patricia S., Kupka, Julia, Minsky, Burcu Baykal, Laschat, Sabine, Boehm, Heike, and Arpicco, Silvia

Subjects

*EXTRACELLULAR matrix, *HYDROGELS, *SYNTHETIC biology, *HYALURONIC acid, *ELECTROSTATIC interaction

Abstract

The extracellular matrix (ECM) represents a highly charged and hydrated network in which different cells in vertebrate tissues are embedded. Hydrogels as minimal ECM mimetics with a controlled chemistry offer the opportunity to vary material properties by varying the negative network charge. In this paper, a synthetic biology model of the ECM based on natural and highly negatively charged polyelectrolyte hyaluronic acid (HA) is characterized with specific emphasis on its charge-related bioactivity. Therefore, the thiol-Michael addition click reaction is used to produce HA hydrogels with defined network structure and charge density. The presented hydrogels show enzymatic degradability and cell attachment. These properties depend on both covalent and electrostatic interactions within the hydrogel network. Furthermore, no unspecific or specific attachment of proteins to the presented hydrogels is observed. In addition, these fundamental insights into charge-related ECM behavior and the influence of electrostatic properties could also lead to innovations in existing biomedical products. [ABSTRACT FROM AUTHOR]

Published

2018