Biomedical and Environmental Applications of Carrageenan-Based Hydrogels: A Review
The need to replace renewable polymers such as marine-based resources with non-biodegradable, plastic polymers has increased due to environmental issues. Carrageenan is a phycocolloid derived from Irish Moss or carrageenan moss, a type of red algae, mainly Chondrus crispus from which the name carrag...
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| Veröffentlicht in: | Journal of polymers and the environment 2023-05, Vol.31 (5), p.1679-1705 |
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| creator | Mirzaei, Akbar Esmkhani, Maryam Zallaghi, Mahsa Nezafat, Zahra Javanshir, Shahrzad |
| description | The need to replace renewable polymers such as marine-based resources with non-biodegradable, plastic polymers has increased due to environmental issues. Carrageenan is a phycocolloid derived from Irish Moss or carrageenan moss, a type of red algae, mainly
Chondrus crispus
from which the name carrageenan is derived. Due to the wide variety of algae, they can be extracted from, there are variations in the structures of carrageenan, developed from a basic linear sulfated galactose chain. It performs diverse valuable roles through its aptitude to maintain great amounts of water, being able to form a gel at room temperature, metal chelating, and activities. Carrageenan revealed potential bioactive properties, like immunomodulatory, antiviral, antibacterial, anticoagulant, antioxidant, and antitumor actions. As mentioned, this polymer has hydrogel formation capacity, and its gelling ability is applied in various fields such as pharmaceutical sciences, food technology, biotechnology, engineering, etc. This review contains exhaustive information regarding carrageenan structures, extraction methods, the gel formation mechanism, properties, and the recent development in biomedical and environmental applications of carrageenan-based hydrogels. The biomedical applications comprise wound healing, drug delivery, and tissue engineering. In the field of environmental applications, these hydrogels are employed in the elimination of varied aqueous contaminants like dyes, drugs, metals, etc. at the end of the review, several existing challenges and prospects are also described.
Graphical Abstract |
| doi_str_mv | 10.1007/s10924-022-02726-5 |
| format | Article |
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Chondrus crispus
from which the name carrageenan is derived. Due to the wide variety of algae, they can be extracted from, there are variations in the structures of carrageenan, developed from a basic linear sulfated galactose chain. It performs diverse valuable roles through its aptitude to maintain great amounts of water, being able to form a gel at room temperature, metal chelating, and activities. Carrageenan revealed potential bioactive properties, like immunomodulatory, antiviral, antibacterial, anticoagulant, antioxidant, and antitumor actions. As mentioned, this polymer has hydrogel formation capacity, and its gelling ability is applied in various fields such as pharmaceutical sciences, food technology, biotechnology, engineering, etc. This review contains exhaustive information regarding carrageenan structures, extraction methods, the gel formation mechanism, properties, and the recent development in biomedical and environmental applications of carrageenan-based hydrogels. The biomedical applications comprise wound healing, drug delivery, and tissue engineering. In the field of environmental applications, these hydrogels are employed in the elimination of varied aqueous contaminants like dyes, drugs, metals, etc. at the end of the review, several existing challenges and prospects are also described.
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Chondrus crispus
from which the name carrageenan is derived. Due to the wide variety of algae, they can be extracted from, there are variations in the structures of carrageenan, developed from a basic linear sulfated galactose chain. It performs diverse valuable roles through its aptitude to maintain great amounts of water, being able to form a gel at room temperature, metal chelating, and activities. Carrageenan revealed potential bioactive properties, like immunomodulatory, antiviral, antibacterial, anticoagulant, antioxidant, and antitumor actions. As mentioned, this polymer has hydrogel formation capacity, and its gelling ability is applied in various fields such as pharmaceutical sciences, food technology, biotechnology, engineering, etc. This review contains exhaustive information regarding carrageenan structures, extraction methods, the gel formation mechanism, properties, and the recent development in biomedical and environmental applications of carrageenan-based hydrogels. The biomedical applications comprise wound healing, drug delivery, and tissue engineering. In the field of environmental applications, these hydrogels are employed in the elimination of varied aqueous contaminants like dyes, drugs, metals, etc. at the end of the review, several existing challenges and prospects are also described.
Graphical Abstract</description><subject>Algae</subject><subject>Antiviral activity</subject><subject>Antiviral agents</subject><subject>Biodegradation</subject><subject>Biomedical materials</subject><subject>Biotechnology</subject><subject>Carrageenan</subject><subject>Carrageenans</subject><subject>Chelation</subject><subject>Chemistry</subject><subject>Chemistry and Materials Science</subject><subject>Contaminants</subject><subject>Drug delivery</subject><subject>Environmental Chemistry</subject><subject>Environmental Engineering/Biotechnology</subject><subject>Food technology</subject><subject>Galactose</subject><subject>Hydrogels</subject><subject>Immunomodulation</subject><subject>Industrial Chemistry/Chemical Engineering</subject><subject>Materials Science</subject><subject>Metals</subject><subject>Mosses</subject><subject>Polymer Sciences</subject><subject>Polymers</subject><subject>Review</subject><subject>Reviews</subject><subject>Room temperature</subject><subject>Tissue engineering</subject><subject>Wound healing</subject><issn>1566-2543</issn><issn>1572-8919</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2023</creationdate><recordtype>article</recordtype><sourceid>BENPR</sourceid><recordid>eNp9kE1LAzEQhoMoWD_-gKcFz9F8bJKNt7ZUKxSEoueQ3SRlyzZZk22l_97UFbx5GGaYed934AHgDqMHjJB4TBhJUkJESC5BOGRnYIKZILCSWJ6fZs4hYSW9BFcpbRFCMhsnYD1rw86attFdob0pFv7QxuB31g95M-37Lp-GNvhUBFfMdYx6Y63XHs50sqZYHk0MG9ulp2JarO2htV834MLpLtnb334NPp4X7_MlXL29vM6nK9hQLAeorRHCCeQMEw2Rzoma8ZqVjKHGVIzVgsqKSSkIoZhz7gzmViAqWF1WVHN6De7H3D6Gz71Ng9qGffT5pSJCClnhsqqyioyqJoaUonWqj-1Ox6PCSJ3YqZGdyuzUDzvFsomOppTFfmPjX_Q_rm85nHB1</recordid><startdate>20230501</startdate><enddate>20230501</enddate><creator>Mirzaei, Akbar</creator><creator>Esmkhani, Maryam</creator><creator>Zallaghi, Mahsa</creator><creator>Nezafat, Zahra</creator><creator>Javanshir, Shahrzad</creator><general>Springer US</general><general>Springer Nature B.V</general><scope>AAYXX</scope><scope>CITATION</scope><scope>3V.</scope><scope>7SR</scope><scope>7XB</scope><scope>88I</scope><scope>8AO</scope><scope>8FD</scope><scope>8FE</scope><scope>8FG</scope><scope>8FK</scope><scope>ABJCF</scope><scope>ABUWG</scope><scope>AEUYN</scope><scope>AFKRA</scope><scope>ATCPS</scope><scope>AZQEC</scope><scope>BENPR</scope><scope>BGLVJ</scope><scope>BHPHI</scope><scope>BKSAR</scope><scope>CCPQU</scope><scope>D1I</scope><scope>DWQXO</scope><scope>GNUQQ</scope><scope>HCIFZ</scope><scope>JG9</scope><scope>KB.</scope><scope>M2P</scope><scope>PATMY</scope><scope>PCBAR</scope><scope>PDBOC</scope><scope>PHGZM</scope><scope>PHGZT</scope><scope>PKEHL</scope><scope>PQEST</scope><scope>PQGLB</scope><scope>PQQKQ</scope><scope>PQUKI</scope><scope>PYCSY</scope><scope>Q9U</scope></search><sort><creationdate>20230501</creationdate><title>Biomedical and Environmental Applications of Carrageenan-Based Hydrogels: A Review</title><author>Mirzaei, Akbar ; 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Carrageenan is a phycocolloid derived from Irish Moss or carrageenan moss, a type of red algae, mainly
Chondrus crispus
from which the name carrageenan is derived. Due to the wide variety of algae, they can be extracted from, there are variations in the structures of carrageenan, developed from a basic linear sulfated galactose chain. It performs diverse valuable roles through its aptitude to maintain great amounts of water, being able to form a gel at room temperature, metal chelating, and activities. Carrageenan revealed potential bioactive properties, like immunomodulatory, antiviral, antibacterial, anticoagulant, antioxidant, and antitumor actions. As mentioned, this polymer has hydrogel formation capacity, and its gelling ability is applied in various fields such as pharmaceutical sciences, food technology, biotechnology, engineering, etc. This review contains exhaustive information regarding carrageenan structures, extraction methods, the gel formation mechanism, properties, and the recent development in biomedical and environmental applications of carrageenan-based hydrogels. The biomedical applications comprise wound healing, drug delivery, and tissue engineering. In the field of environmental applications, these hydrogels are employed in the elimination of varied aqueous contaminants like dyes, drugs, metals, etc. at the end of the review, several existing challenges and prospects are also described.
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| subjects | Algae Antiviral activity Antiviral agents Biodegradation Biomedical materials Biotechnology Carrageenan Carrageenans Chelation Chemistry Chemistry and Materials Science Contaminants Drug delivery Environmental Chemistry Environmental Engineering/Biotechnology Food technology Galactose Hydrogels Immunomodulation Industrial Chemistry/Chemical Engineering Materials Science Metals Mosses Polymer Sciences Polymers Review Reviews Room temperature Tissue engineering Wound healing |
| title | Biomedical and Environmental Applications of Carrageenan-Based Hydrogels: A Review |
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