Review Article: Wound healing by functional compounds of Echinodermata, Spirulina and chitin products: A review

Parvizi Fara, M.; Kakoolaki, S.; Asghari, A.; Sharifpour, I.; Kazempoor, R.

doi:10.52547/ijaah.6.2.23

[Home ] [Archive]

Sustainable Aquaculture and Health Management Journal

Main Menu

Home

Journal Information

Articles archive

For Authors

For Reviewers

Registration

Contact us

Site Facilities

Abstract in

Published articles: 117

Acceptance rate: 76.4

Rejection rate: 23.6

Search in website

Receive site information

Time for review and publishing

Articles first review mean= 20 days
Articles acceptance mean= 64 days
Articles publishing mean= 3 days

DOI

cross Ref

AWT IMAGE

Volume 6, Issue 2 (2020)

Sustainable Aquaculture. Health. Management. J. 2020, 6(2): 23-38

Back to browse issues page

Review Article: Wound healing by functional compounds of Echinodermata, Spirulina and chitin products: A review

M. Parvizi Fara

, S. Kakoolaki ^*

, A. Asghari

, I. Sharifpour

, R. Kazempoor

Abstract: (2779 Views)

Wound healing in humans and animals, occurs with a completely complex and advanced mechanism of stages: inflammation, proliferation, repair and regeneration. So far, many health and financial costs have been incurred in human society due to a lack of timely repairs. Therefore, in modern knowledge to heal all kinds of wounds, reduce repair time and prevent infection, much consideration is paid to the use of natural treatment methods and the use of biological science. In the meantime, seas have opened up a wide range of natural medicines for us. If new pharmacological findings show positive results from aquatic effects such as sea cucumber, sea urchin, starfish, algae and their products such as alginate and chitosan, they can be introduced as antibacterial, anti-coagulant, anti-inflammatory, anti-diabetic, anti-parasitic, anti-viral, anti-protozoan and anti-fungal compounds. In these products, many repair factors have been proven such as prevention of wounds from infections caused by bacterial, fungal and viral microorganisms, ease of use of the product, cheapness and availability, the ability to clean secretions and protect the skin, prevent the growth of granular tissue and repair fast without allergenic reactions. According to studies, Sea-derived products may increase pro-inflammatory factors and inhibit inflammatory factors, thereby enhancing wound healing. These factors increase the production of cytokines in wound sites. By increasing the command of phagocytic cells, cytokines cleanse the wound and prevent infection. In addition, stimulation of keratinocyte migration to wound edges, proliferation and differentiation of fibroblasts, and regulation of extracellular matrix proteins are mediated by the release of extra cytokines and growth factors.

Keywords: Wound healing, Functional compounds, Echinodermata, Spirulina, Chitin

Full-Text [PDF 779 kb] (1138 Downloads)

Type of Study: Review papers | Subject: Treatment stategies with herbal or others
Received: 2020/08/5 | Accepted: 2020/10/26 | Published: 2020/11/10

References

1. Abraham, T.J., Nagarajan, J. and Shanmugam, S.A., 2002. Antimicrobial substances of potential biomedical importance from holothurian species. Indian Journal of Marine Sciences, 31(2), 161-164.

2. Al-Haj, N.A., Mashan, N.I., Shamsudin, M.N., Habsah, M., Vairappan, C.S. and Zamberi, S., 2010. Antibacterial activity of marine source extracts against multidrug resistance organisms. American Journal of Pharmacology and Toxicology, 5(2), 95-102. [DOI:10.3844/ajptsp.2010.95.102]

3. Althunibat, O., Ridzwan, B., Taher, M., Daud, J., Jauhari Arief Ichwan, S. and Qaralleh, H., 2013. Antioxidant and cytotoxic properties of two sea cucumbers, Holothuria edulis Lesson and Stichopus horrens Selenka. Acta Biologica Hungarica, 64(1), 10-20. [DOI:10.1556/ABiol.64.2013.1.2] [PMID]

4. Althunibat, O.Y., Hashim, R.B., Taher, M., Daud, J.M., Ikeda, M.A. and Zali, B.I., 2009. In vitro antioxidant and antiproliferative activities of three Malaysian sea cucumber species. European Journal of Scientific Research, 37(3), 376-387.

5. Arulselvan, P., Ghofar, H.A.A., Karthivashan, G., Halim, M.F.A., Ghafar, M.S.A. and Fakurazi, S., 2014. Antidiabetic therapeutics from natural source: A systematic review. Biomedicine & Preventive Nutrition, 4(4), 607-617. [DOI:10.1016/j.bionut.2014.07.009]

6. Arundina, I., Yuliati, Y., Soesilawati, P., Damaiyanti, D. W. and Maharani, D., 2015. The effects of golden sea cucumber extract (Stichopus hermanii) on the number of lymphocytes during the healing process of traumatic ulcer on wistar rat's oral mucous. Dental Journal (Majalah Kedokteran Gigi), 48(2), 100-103. [DOI:10.20473/j.djmkg.v48.i2.p100-103]

7. Barrow, C. and Shahidi, F. eds., 2007. Marine nutraceuticals and functional foods. CRC Press. [DOI:10.1201/9781420015812]

8. Boateng, J.S., Matthews, K.H., Stevens, H.N. and Eccleston, G.M., 2008. Wound healing dressings and drug delivery systems: a review. Journal of pharmaceutical sciences, 97(8), 2892-2923. [DOI:10.1002/jps.21210] [PMID]

9. Bordbar, S., Anwar, F. and Saari, N., 2011. High-value components and bioactives from sea cucumbers for functional foods-a review. Marine drugs, 9(10), 1761-1805. [DOI:10.3390/md9101761] [PMID] [PMCID]

10. Calder, P.C., 2010. Omega-3 fatty acids and inflammatory processes. Nutrients, 2(3), 355-374. [DOI:10.3390/nu2030355] [PMID] [PMCID]

11. Chenghui, L., Beiwei, Z., Xiuping, D. and Liguo, C., 2007. Study on the separation and antioxidant activity of enzymatic hydrolysates from sea cucumber. Food and Fermentation Industries, 33(9), 50-53.

12. Cho, Y.W., Cho, Y.N., Chung, S.H., Yoo, G., and KO, S.W., 1999. Water-soluble chitin as a wound healing accelerator. Biomaterials, 20(22), 2139-2145. [DOI:10.1016/S0142-9612(99)00116-7]

13. Chronakis, I.S., Galatanu, A.N., Nylander, T. and Lindman, B., 2000. The behaviour of protein preparations from blue-green algae (Spirulina platensis strain Pacifica) at the air/water interface. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 173(1-3), 181-192. [DOI:10.1016/S0927-7757(00)00548-3]

14. Ciferri, O., 1983. Spirulina, the edible microorganism. Microbiological reviews, 47(4), 551-578. [DOI:10.1128/MR.47.4.551-578.1983] [PMID] [PMCID]

15. Collin, P.D., Coastside Bio Resources, 2004. Peptides having anti-cancer and anti-inflammatory activity. United State Patent 6, 767,890.

16. Collin, P.D., Coastside Bio Resources, 1998. Tissue fractions of sea cucumber for the treatment of inflammation. United State Patent 5, 770, 205.

17. Darby, I.A. and Hewitson, T.D., 2007. Fibroblast differentiation in wound healing and fibrosis. International review of cytology, 257, 143-179. [DOI:10.1016/S0074-7696(07)57004-X]

18. Doillon, C.J., Dunn, M.G., Bender, E. and Silver, F.H., 1985. Collagen fiber formation in repair tissue: development of strength and toughness. Collagen and related research, 5(6), 481-492. [DOI:10.1016/S0174-173X(85)80002-9]

19. Ebnetorab, S.M.A., Ahari, H. and Kakoolaki, S., 2020. Isolation, biochemical and molecular detection of Bacillus subtilis and Bacillus licheniformis from the digestive system of rainbow trout (Oncorhynchus mykiss) and its inhibitory effect on Aeromonas hydrophila. Iranian Journal of Fisheries Sciences, 19(6), 2824-2845.

20. Geerligs, M., Oomens, C., Ackermans, P., Baaijens, F. and Peters, G., 2011. Linear Shear Response of the Upper Skin Layers. Biorheology, 48(3-4), 229-245. [DOI:10.3233/BIR-2011-0590] [PMID]

21. Geerligs, M., 2009. Skin Layer Mechanics, PhD Thesis, Eindhoven University of Technology, November 2009.

22. Ghaderi, R, Afshar, M., 2014. Novel advancements in wound healing. Journal of Birjand University of Medical Sciences, 21(1), 1-19.

23. Gonzalez, A.C., Costa, T.F., Andrade, Z.A. and Medrado, A.R., 2016. Wound healing-a literature review. Anais Brasileiros de Dermatologia 91(5), 614-620. [DOI:10.1590/abd1806-4841.20164741] [PMID] [PMCID]

24. Haug, T., Kjuul, A.K., Styrvold, O.B., Sandsdalen, E., Olsen, Ø.M. and Stensvåg, K., 2002. Antibacterial activity in Strongylocentrotus droebachiensis (Echinoidea), Cucumaria frondosa (Holothuroidea), and Asterias rubens (Asteroidea). Journal of Invertebrate Pathology, 81(2), 94-102. [DOI:10.1016/S0022-2011(02)00153-2]

25. Hawa, I., Zulaikah, M., Mohamed, J., AA, Z.A., Kaswandi, M.A. and Ridzwan, B.H., 1999. The potential of the coelomic fluid in sea cucumber as an antioxidant. Malaysian Journal of Nutrition, 5(1 & 2), 55-59.

26. Herencia, F., Ubeda, A., Ferrándiz, M.L., Terencio, M.C., Alcaraz, M.J., García-Carrascosa, M., Capaccioni, R. and Payá, M., 1998. Anti-inflammatory activity in mice of extracts from Mediterranean marine invertebrates. Life sciences, 62(9), 115-120. [DOI:10.1016/S0024-3205(97)01188-0]

27. Jabbari, N., Parivar, K. and Hayati Roodbari, N., 2012. Effect of Chitosan Nanoparticles in the treatment of burns. Journal of Animal Research (Iranian Journal of Biology), 28(3), 382-392.

28. James, D.B., 2001. Twenty sea cucumber from seasaround Indian. Naga, ICLARM; 24, 4-8.

29. Jha, R.K., Zi-rong, X., 2004. Biomedical compounds from marine organisms. Marine Drugs; 2(3), 123-46. [DOI:10.3390/md203123] [PMCID]

30. Jung, S.M., Min, S.K., Lee, H.C., Kwon, Y.S., Jung, M.H. and Shin, H.S., 2016. Spirulina-PCL nanofiber wound dressing to improve cutaneous wound healing by enhancing antioxidative mechanism. Journal of nanomaterials, 2016. [DOI:10.1155/2016/6135727]

31. Kamyab, E., Kellermann, M.Y., Kunzmann, A. and Schupp, P.J., 2020. Chemical biodiversity and bioactivities of Saponins in Echinodermata with an emphasis on sea cucumbers (Holothuroidea). YOUMARES 9-The Oceans: Our Research, Our Future, p.121. [DOI:10.1007/978-3-030-20389-4_7]

32. Kanani, H.G., Nobahar, Z., Kakoolaki, S. and Jafarian, H., 2014. Effect of ginger-and garlic-supplemented diet on growth performance, some hematological parameters and immune responses in juvenile Huso huso. Fish physiology and biochemistry, 40(2), 481-490. [DOI:10.1007/s10695-013-9859-6] [PMID]

33. Kerr, R.G, Chen, Z., 1995. In vivo and in vitro biosynthesis of saponins in sea cucumbers. Journal of natural products, 58(2), 172-6. [DOI:10.1021/np50116a002] [PMID]

34. Klita, P.T., Mathison, G.W., Fenton, T.W. and Hardin, R.T., 1996. Effects of alfalfa root saponins on digestive function in sheep. Journal of Animal Science, 74(5), 1144-1156. [DOI:10.2527/1996.7451144x] [PMID]

35. Lee, D.S., Jeong, S.Y., Kim, Y.M., Lee, M.S., Ahn, C.B. and Je, J.Y., 2009. Antibacterial activity of aminoderivatized chitosans against methicillin-resistant Staphylococcus aureus (MRSA). Bioorganic & medicinal chemistry, 17(20), 7108-7112. [DOI:10.1016/j.bmc.2009.09.007] [PMID]

36. Li, X., Sun, J., Che, Y., Lv, Y. and Liu, F., 2019. Antibacterial properties of chitosan chloride-graphene oxide composites modified quartz sand filter media in water treatment. International journal of biological macromolecules, 121, 760-773. [DOI:10.1016/j.ijbiomac.2018.10.123] [PMID]

37. Liu, H., Du, Y., Wang, X. and Sun, L., 2004. Chitosan kills bacteria through cell membrane damage. International journal of food microbiology, 95(2), 147-155. [DOI:10.1016/j.ijfoodmicro.2004.01.022] [PMID]

38. Mamelona, J., Pelletier, E., Girard-Lalancette, K., Legault, J., Karboune, S. and Kermasha, S., 2007. Quantification of phenolic contents and antioxidant capacity of Atlantic sea cucumber, Cucumaria frondosa. Food Chemistry, 104(3), 1040-1047. [DOI:10.1016/j.foodchem.2007.01.016]

39. Mariana, N.S., Nik, K.A.N.I., Neela, V.K., Norfarrah, M.A. and Zamberi, S., 2011. In vivo evaluation on Malaysian coastal isolates of Gracilaria changii and Stichopus badionotus through heat-burn methicillin-resistant Staphylococcus aureus (MRSA) infection animal model. African Journal of Microbiology Research, 5(12), 1379-1382. [DOI:10.5897/AJMR10.348]

40. Mazliadiyana, M., Nazrun, A.S. and Isa, N.M., 2017. Optimum dose of sea cucumber (Stichopus chloronotus) extract for wound healing. Medicine & Health, 12, 83-89. [DOI:10.17576/MH.2017.1201.09]

41. Mohammadizadeh, F., Ehsanpor, M., Afkhami, M., Mokhlesi, A., Khazaali, A. and Montazeri, S., 2013. Evaluation of antibacterial, antifungal and cytotoxic effects of Holothuria scabra from the north coast of the Persian Gulf. Journal de mycologie médicale, 23(4), 225-229. [DOI:10.1016/j.mycmed.2013.08.002] [PMID]

42. Mourão, P.A., Guimarães, M.A., Mulloy, B., Thomas, S. and Gray, E., 1998. Antithrombotic activity of a fucosylated chondroitin sulphate from echinoderm: sulphated fucose branches on the polysaccharide account for its antithrombotic action. British journal of haematology, 101(4), 647-652. [DOI:10.1046/j.1365-2141.1998.00769.x] [PMID]

43. Park, P.J., Je, J.Y., Jung, W.K., Ahn, C.B. and Kim, S.K., 2004. Anticoagulant activity of heterochitosans and their oligosaccharide sulfates. European Food Research and Technology, 219(5), 529-533. [DOI:10.1007/s00217-004-0977-3]

44. Pawson, L., 2007. Phylam Echinodermata. Zootaxa; 1668(1), 749-764. [DOI:10.11646/zootaxa.1668.1.31]

45. Peck, M.D., 2011. Epidemiology of burns throughout the world. Part I: Distribution and risk factors. Burns: Journal of the International Society for Burn Injuries, 37(7), 1087-1100. [DOI:10.1016/j.burns.2011.06.005] [PMID]

46. Reich, M., Lefebver, B. and David, B., 2006. Combrian holothurians. The early fossil record and evolution of Holothuroidea. J Georg Ubaghs, 1, 36-7.

47. Rinaudo, M., 2006. Chitin and chitosan: Properties and applications. Progress in polymer science, 31(7), 603-632. [DOI:10.1016/j.progpolymsci.2006.06.001]

48. Ross, R., Everett, N.B. and Tyler, R., 1970. Wound healing and collagen formation: VI. The origin of the wound fibroblast studied in parabiosis. The Journal of cell biology, 44(3), 645-654. [DOI:10.1083/jcb.44.3.645] [PMID] [PMCID]

49. Rumpold, B.A. and Schlüter, O.K., 2013. Nutritional composition and safety aspects of edible insects. Molecular nutrition & food research, 57(5), 802-823. [DOI:10.1002/mnfr.201200735] [PMID]

50. Sahraei, F., Ahari, H. and Kakoolaki, S., 2019. Effect of Bacillus subtilis as a probiotic on protein, lipid content, and trypsin and chymotrypsin enzymes in rainbow trout biometry (Oncorhynchus mykiss). Aquaculture International, 27(1), 141-153. [DOI:10.1007/s10499-018-0313-8]

51. Shetty, K., Paliyath, G., Pometto, A. and Levin R.E., 2006, Food Biotechnology, CRC Press, p.498.

52. Somchit, M.N., Rahmah, S.S., Zuraini, A., Bustamam, A.A., Zakaria, Z.A. and Shamsuddin, L., 2007. Gastroprotective activity of Spirulina platensis in acetic acid and ethanol induced ulcers in rats. Journal of Natural Remedies, 7(1), 37-42.

53. Subramaniam, B.S., Amuthan, A., D'Almeida, P.M. and Arunkumar, H.D., 2013. Efficacy of gamat extract in wound healing in albino wistar rats. International Journal of Pharmaceutical Sciences Review and Research, 20(1), 142-145.

54. Sun, P., Liu, B.S., Yi, Y.H., Li, L., Gui, M., Tang, H.F., Zhang, D.Z. and Zhang, S.L., 2007. A new cytotoxic lanostane‐type triterpene glycoside from the sea cucumber Holothuria impatiens. Chemistry & biodiversity, 4(3), 450-457. [DOI:10.1002/cbdv.200790037] [PMID]

55. Syarina, P.N.A., Karthivashan, G., Abas, F., Arulselvan, P. and Fakurazi, S., 2015. Wound healing potential of Spirulina platensis extracts on human dermal fibroblast cells. EXCLI journal, 14, 385-393.

56. Tian, F., Zhang, X., Tong, Y., Yi, Y., Zhang, S., Li, L., Sun, P., Lin, L. and Ding, J., 2005. PE, a new sulfated saponin from sea cucumber, exhibits anti-angiogenic and anti-tumor activities in vitro and in vivo. Cancer biology & therapy, 4(8), 874-882. [DOI:10.4161/cbt.4.8.1917] [PMID]

57. Țigu, A.B., Moldovan, A.I., Moldovan, C.S., Pojar, S., Drula, R., Jula, C.T., Gulei, D., Nistor, M.L., Moldovan, B.P., Mirescu, C.Ș. and Roșioru, C.L., 2016. Lycopene and Phycocyanin-biological properties in experimental diabetes: 2. Effects on biochemical, enzymatic and histological parameters. Studia Universitatis Babes-Bolyai, Biologia, 61(2), 41-45.

58. Vallapa, N., Wiarachai, O., Thongchul, N., Pan, J., Tangpasuthadol, V., Kiatkamjornwong, S. and Hoven, V.P., 2011. Enhancing antibacterial activity of chitosan surface by heterogeneous quaternization. Carbohydrate polymers, 83(2), 868-875. [DOI:10.1016/j.carbpol.2010.08.075]

59. Velnar, T., Bailey, T. and Smrkolj, V., 2009. The wound healing process: an overview of the cellular and molecular mechanisms. Journal of International Medical Research, 37(5), 1528-1542. [DOI:10.1177/147323000903700531] [PMID]

60. Villasin, J., Pomory, C.M., 2000. Antibacterial activity of extracts from the body wall of Parastichopus parvimensis (Echinodermata: Holothuroidea). Fish & Shellfish Immunology, 10(5), 465-467. [DOI:10.1006/fsim.2000.0265] [PMID]

61. Xiong, Y., Guo, D., Zheng, X.L., Sun, P., Xu, L.Y. and Chen, J.M., 2008. Preliminary study on sea cucumber saponin-nobiliside A liposome and its hemolytic activity. Yao xue xue bao= Acta pharmaceutica Sinica, 43(2), 214-220.

62. Yang, K., Dang, H., Liu, L., Hu, X., Li, X., Ma, Z., Wang, X. and Ren, T., 2019. Effect of syringic acid incorporation on the physical, mechanical, structural and antibacterial properties of chitosan film for quail eggs preservation. International journal of biological macromolecules, 141, 876-884. [DOI:10.1016/j.ijbiomac.2019.08.045] [PMID]

63. Zahedi, P., Rezaeian, I., Ranaei‐Siadat, S.O., Jafari, S.H. and Supaphol, P., 2010. A review on wound dressings with an emphasis on electrospun nanofibrous polymeric bandages. Polymers for Advanced Technologies, 21(2), 77-95. [DOI:10.1002/pat.1625]

64. Zeng, M., Xiao, F., Zhao, Y., Liu, Z., Li, B. and Dong, S., 2007. Study on the free radical scavenging activity of sea cucumber (Paracaudina chinens var.) gelatin hydrolysate. Journal of ocean University of China, 6(3), 255-258. [DOI:10.1007/s11802-007-0255-7]

65. Zhao, Y., Li, B., Liu, Z., Dong, S., Zhao, X. and Zeng, M., 2007. Antihypertensive effect and purification of an ACE inhibitory peptide from sea cucumber gelatin hydrolysate. Process Biochemistry, 42(12), 1586-1591. [DOI:10.1016/j.procbio.2007.08.011]

66. Zhong, Y., Khan, M.A. and Shahidi, F., 2007. Compositional characteristics and antioxidant properties of fresh and processed sea cucumber (Cucumaria frondosa). Journal of agricultural and food chemistry, 55(4), 1188-1192. [DOI:10.1021/jf063085h] [PMID]

67. Zohdi, R.M., Zakaria, Z.A.B., Yusof, N., Mustapha, N.M. and Abdullah, M.N.H., 2011. Sea cucumber (Stichopus hermanii) based hydrogel to treat burn wounds in rats. Journal of Biomedical Materials Research Part B: Applied Biomaterials, 98(1), 30-37. [DOI:10.1002/jbm.b.31828] [PMID]

68. Zou, Z., Yi, Y., Wu, H., Yao, X., Du, L., Jiuhong, W., Liaw, C.C. and Lee, K.H., 2005. Intercedensides D− I, Cytotoxic Triterpene Glycosides from the Sea Cucumber Mensamaria intercedens Lampert. Journal of natural products, 68(4), 540-546. [DOI:10.1021/np040205b] [PMID]

‎ 10.52547/ijaah.6.2.23

‎ 20.1001.1.2345315.2020.6.2.5.5

Mendeley

Zotero

RefWorks

Parvizi Fara M, Kakoolaki S, Asghari A, Sharifpour I, Kazempoor R. Review Article: Wound healing by functional compounds of Echinodermata, Spirulina and chitin products: A review. Sustainable Aquaculture. Health. Management. J. 2020; 6 (2) :23-38
URL: http://ijaah.ir/article-1-226-en.html

Rights and permissions
	This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

Volume 6, Issue 2 (2020)

Back to browse issues page

Persian site map - English site map - Created in 0.07 seconds with 44 queries by YEKTAWEB 4645