Chitosan From Haruan (Channa Striata) Fish Scale Accelerate Wound Healing By Promoting Angiogenesis And Fibroblast Proliferation

Deby Kania Tri Putri*  -  Lambung Mangkurat University, Indonesia
Annisa Fitriyana  -  Lambung Mangkurat University, Indonesia
Siti Raudah  -  Lambung Mangkurat University, Indonesia
Agung Satria Wardhana  -  Lambung Mangkurat University, Indonesia
Erida Wydiamala  -  Lambung Mangkurat University, Indonesia

(*) Corresponding Author

Background: Damage to the integrity of some body tissues due to trauma commonly referred to as injury can occur intentionally or unintentionally. Angiogenesis and fibroblast proliferation are important stages in the proliferation stage in determining the success of the wound healing process. Chitosan from haruan fish scales has active functional groups in the form of anti-inflammatory and antioxidants that are effective in accelerating wound healing.

Method: This study was a pure experimental study with a post-test only design with a control group design which was divided into a treatment group and a control group. The treatment group consisted of chitosan haruan fish scales at concentrations of 1%, 3%, and 5%. The control group consisted of povidone iodine as a positive control and no treatment as a negative control. All rats were injured on the back and then euthanized on days 3, 5, 7, and 14.

Result: The chitosan from haruan fish scales affected the formation of new blood vessels and fibroblasts on day-3, increase the number of new blood vessels on day-5, decrease the number of new blood vessels accompanied by increase the number of fibroblasts on day-7, and also decrease the number of fibroblasts on day-14.

Conclusion:  3%, and 5% chitosan from haruan fish scale proved to be effective against angiogenesis and fibroblast proliferation in wound healing.

 

Keywords: Wound healing, Angiogenesis, Fibroblasts, Chitosan from haruan fish scale

  1. Putrianirma R, Triakoso N, Yunita M, Sari I, Hamid I, Fikri F. Efektivitas Ekstrak Daun Afrika (Vernonia amygdalina) Secara Topikal Untuk Reepitelisasi Penyembuhan Luka Insisi Pada Tikus Putih (Rattus novergicus). Jurnal Medik Veteriner. 2019;2:30–35.
  2. Wilantari PD. Aktivitas Penyembuhan Luka Insisi dari Salep Daun Binahong (Anredera scandens (L.) Moq.). Jurnal Farmasi Udayana. 2020;8;78–89
  3. Fauziah M, Soniya F. Potensi Tanaman Zigzag sebagai Penyembuhan Luka. J Penelit Perawat Prof. 2020;2:39–44.
  4. Herawati E, Dwiarie TA. Manajemen Kasus Ulserasi Rongga Mulut Terkait Trauma Iatrogenik. Jurnal Kedokteran Gigi Universitas Padjadjaran. 2019;31:102–107.
  5. Madhavan S, Herald S. Iatrogenic Soft Tissue Injuries In Patients Undergoing Various Dental Procedures -A Survey Among The Dental Practionners. Int J Curr Res. 2016;8:102–107.
  6. Hairi M, Dewi N, Khatimah H. Pengaruh Ekstrak Sereh (Cymbopogon citratus) terhadap Panjang Luka Mukosa Labial Mencit secara Klinis. Dentino J Kedokt Gigi. 2016;1:197–202.
  7. Gusti Pebri I. Pengaruh Pemberian Ekstrak Daun Binahong (Anredera cordifolia) Terhadap Proses Penyembuhan Luka Insisi (Vulnus incisivum) Pada Mencit (Mus musculus). JIMVET. 2017;2:1–5.
  8. Puspita B, Sularsih, Damaiyanti D. Perbedaan Pengaruh Pemberian Kitosan Berat Molekul Tinggi dan Rendah terhadap Jumlah Pembuluh Darah pada Proses Penyembuhan Luka Pencabutan Gigi. Denta. 2015;9:1–5.
  9. Kumar V, Abbas A, Aster J. Buku Ajar Patologi Dasar Robbins. 10th ed. Singapore: Elsevier; 2018.
  10. Sumbayak EM. Tinjauan Pustaka Fibroblas: Struktur dan Peranannya dalam Penyembuhan Luka. Jurnal Kedokteran Meditek. 2016;21:1–6.
  11. Ardiana T, Rizkia A, Kusuma P, Firdausy MD. Efektivitas Pemberian Gel Binahong (Anredera cordifolia) 5% Terhadap Jumlah Sel Fibroblast Pada Soket Pasca Pencabutan Gigi Marmut (Cavia cobaya). ODONTO Dental Journal. 2015;2:1–5.
  12. Putri Dwita L, Ladeska V, Ramadhani A, Rahma Augusta D, Tri Saufia R. Manfaat Ekstrak Etanol Daun Remek Daging (Hemigraphis colorata W. Bull) Terhadap Luka Bakar Pada Tikus. Jurnal tumbuhan Obat Indonesia. 2020;13:32–40.
  13. Rifdayani N, Budiarti L, Carabelly A. Perbandingan Efek Bakterisidal Ekstrak Mengkudu (Morinda Citrifolia Liin) 100% dan Povidone Iodine 1% Terhadap Streptococcus Mutans In Vitro. J Kedokt Gigi. 2014;2:1–6.
  14. Danarti R, Budiyanto A, Wirohadidjojo W. The effect povidone -iodine on the woundhealing process: A study on fibroblastpopulated collagen lattice (FPCL) model. J Med Sci. 2014;46:103–7.
  15. Kurniawaty E, Putranta N. Potensi Biopolimer Kitosan Dalam Pengobatan Luka. Medula. 2019;9:459–464.
  16. Singh R, Shitiz K, Singh A. Chitin And Chitosan: Biopolymers For Wound Management. International Wound Journal. 2017;14:1276–1289.
  17. Diah W, Hutami W, Putri DKT, Carabelly AN, Kriswandini IL, Pratiwi AR, et al. The Antibacterial Activity of Chitosan from Haruan (Channa striata) Fish Scales on the Growth of Streptococcus sanguinis. Journal of Indonesian Dental Association. 2020;3(2):109–114.
  18. Prastika DD, Setiawan B, Saputro AL, Yudaniayanti IS, Wibawati PA, Fikri F. Pengaruh Kitosan Udang Secara Topikal Terhadap Kepadatan Kolagen dalam Penyembuhan Luka Eksisi pada Tikus Putih. Jurnal Medik Veteriner. 2020;3:101–107.
  19. Tri Hartomo B, Griselda Firdaus F. Pemanfaatan Biomaterial Kitosan Dalam Bidang Bedah Mulut. B-Dent: Jurnal Kedokteran Gigi Universitas Baiturrahmah. 2019;6:62–67.
  20. Prabu D, Ravichandiran S, Jacob B, Manipal S, Mohan R. Effectiveness Of Chitosan On Oral Wound Healing: A Systematic Review. J Pharm Sci Res. 2019;11:3451–3457.
  21. Matica MA, Aachmann FL, Tøndervik A, Sletta H, Ostafe V. Chitosan As A Wound Dressing Starting Material: Antimicrobial Properties And Mode Of Action. International Journal of Molecular Sciences. 2019;20:5880–5889.
  22. Amer MA, Attia EMH. Characterization And Evaluation For Wound Healing Of Chitosan Extracted From The Exoskeleton Of Freshwater Crab Potamonautes niloticus. Journal of Applied Pharmaceutical Science. 2020;10:43–48.
  23. Dwi Sulisetyowati S, Oktariani M. Perbandingan Efektivitas Lendir Bekicot (Achatina fulica) Dengan Kitosan Terhadap Penyembuhan Luka. Jurnal KesMaDaSka-Juli. 2015;1:104–110.
  24. Inan ZDS. Investigation of The Wound Healing Effects of Chitosan on FGFR3 and VEGF Immunlocalization in Experimentally Diabetic Rats. International Journal of Biomedical Materials Research. 2013;1:1–8.
  25. Putri DKT, Wijayanti Diah WH, Oktiani BW, Candra, Sukmana BI, Rachmadi P, et al. Synthesis and characteristics of Chitosan from Haruan (Channa striata) fish scales. Systematic Reviews in Pharmacy. 2020;11:15–20.
  26. Widyaningrum DRW, Putri DKT, Taufiqurrahman I. Antibacterial Activities Of Chitosan In Haruan Fish Scales (Channa striata) To The Growth Of Staphylococcus aureus. Dentino : Jurnal Kedokteran Gigi. 2019 Sep 6;4(2):162–167.
  27. Rahma Dania A, Deby Kania T, Taufiqurrahman I. Antibacterial Activity Of Chitosan From Haruan (Channa striata) Fish Scales Against The Growth Of Porphyromonas gingivalis. Dentino. 2020;1:53–57.
  28. Kania Tri Putri D, Widya Oktiani B, Adhani R. Antioxidant Activity Potency Of Chitosan From Haruan (Channa Striata) Scales. Dentino. 2020;2:139–144.
  29. Ghifari M, Putri D, Dwinuria Y. Pengaruh Perendaman Larutan Kitosan Sisik Ikan Haruan (Channa Striata) Terhadap Pelepasan Kalsium Pada Gigi. Dentin. 2020;4:111–114.
  30. M K. Chitosan-Properties and Applications in Dentistry. Advances in Tissue Engineering & Regenerative Medicine: Open Access. 2017 Jun 8;2(4).
  31. Fakhrurrazi F, Hakim R, Chairunissa A. Efek Ekstrak Daun Ceremai (Phyllanthus Acidus (L.) Skeels) Terhadap Penyembuhan Luka Mukosa Tikus Wistar (Rattus Norvegicus). Cakradonya Dent J. 2020;12:119–125.
  32. Amir N, Suprayitno E, Nursyam H. Pengaruh Sipermetrin Pada Jambal Roti Terhadap Kadar Ureum Dan Kreatinin Tikus Wistar (Rattus norvegicus). Jurnal IPTEKS PSP. 2015;2:283–93.
  33. Gunawan S, Berata I, Wirata I. Histopatologi Kulit pada Kesembuhan Luka Insisi Tikus Putih Pasca Pemberian Extracellular Matrix ( ECM) yang Berasal dari Vesica Urinaria Babi. Indones Med Veterinus. 2019;8:313–324.
  34. Eriadi A, Arifin H, Rizal Z, Barmitoni. Pengaruh Ekstrak Etanol Daun Binahong (Anredera cordifolia (Tenore) Steen) Terhadap Penyembuhan Luka Sayat pada Tikus Jantan. J Farm Higea. 2015;7:162–163.
  35. Widyawati R, Dirgantara B, Ayomi S. The Comparison of Ketamine, Xylazine, and Ketamine-Xylazine Combination to Rat (Rattus norvegicus). VITEK. 2015;5:1–5.
  36. Fadhilah A, Sugianto H, Hadi K, Firmandhani SW, Woro Murtini T, Pandelaki EE, et al. Kajian Pengelolaan Sampah Kampus Jurusan Arsitektur Fakultas Teknik Universitas Diponegoro. Agustus. 2011;11:853–2877.
  37. Rahma Putri R, Fanani Hakim R. Pengaruh Ekstrak Daun Tapak Dara (Catharanthus Roseus) Terhadap Jumlah Fibroblas Pada Proses Penyembuhan Luka Di Mukosa Oral. Caninus Denstistry. 2017;2:20–30.
  38. Primadina N, Basori A, Perdanakusuma DS. Proses Penyembuhan Luka Ditinjau dari Aspek Mekanisme Seluler dan Molekuler. Qanun Medika. 2019;3:31-43.
  39. Fitrian A. Efek Angiogenesis Gel Ekstrak Daun Lamtoro (Leucaena Leucocephala) Pada Luka Insisi Tikus. J Biosains Pascasarj. 2018; 20:22-32
  40. Luthfi M, Juliastuti WS, Risky YA. Angiogenesis Of Extracted Tooth Wound On Wistar Rats After Application Of Okra (Abelmoschus Esculentus) Gel Extract. Pesqui Bras Odontopediatria Clin Integr. 2020;20:1–8.
  41. Laut M, Ndaong N, Utami T, Junersi M, Bria Seran Y. Efektivitas Pemberian Salep Ekstrak Etanol Daun Anting-Anting (Acalypha indica Linn.) Terhadap Kesembuhan Luka Insisi pada Mencit (Mus musculus). Jurnal Kajian Veteriner. 2019;7:1–11.
  42. Dayanti EW, Arimbi A, Yunita MN, Plumeriastuti H, Purnama MTE, Wibawati PA. Efektivitas Kitosan Dari Limbah Kulit Udang Terhadap Angiogenesis dalam Penyembuhan Luka Eksisi pada Tikus Putih (Rattus norvegicus) Jantan. Media Kedokt Hewan. 2021; 32:60-69.
  43. Suhartono M. Perbedaan Pengaruh Aplikasi Gel Kombinasi Kitosan Berat Molekul Tinggi dan Rendah dengan Ekstrak Lidah Buaya (Aloe vera) Terhadap Kepadatan Kolagen pada Proses Penyembuhan Ulkus
  44. Traumatikus. Denta Jurnal Ked.Gi. 2018;12: 60-71
  45. Sularsih, Soeprijanto. Perbandingan Jumlah Sel Osteoblas Pada Penyembuhan Luka Antara Penggunaan Kitosan Gel 1% Dan 2%. J Mater Kedokt Gigi. 2012;1:163-181.
  46. Bigliardi PL, Alsagoff SAL, El-Kafrawi HY, Pyon JK, Wa CTC, Villa MA. Povidone Iodine In Wound Healing: A Review Of Current Concepts And Practices. Int J Surg. 2017;44: 260-268.
  47. Sularsih. Penggunaan kitosan dengan berat molekul berbeda terhadap jumlah pembuluh darah pada penyembuhan luka pencabutan gigi. J PDGI. 2016;65:31–35.
  48. Saifudin M, Herbani M, Andriana D. Perbandingan Efek Perasan Daging Daun Lidah Buaya (Aloe Vera L.) Dan Povidone Iodine Terhadap Ekspresi Vegf Dan Jumlah Lumen Pembuluh Darah Tikus Wistar Dengan Luka Sayat. J Kedokt Komunitas. 2020;8:1–10.
  49. Widowati A. Terapi Salep Ekstrak Kitosan Cangkang Rajungan (Portunus Pelagicus) Terhadap Ekspresi Hif-1α Dan Protein Hsp90 Pada Tikus (Rattus Norvegicus) Diinduksi Luka Bakar. Univ Brawijaya. 2018.
  50. Setiawan MR, Dewi N, Oktaviyanti IK. Ekstrak ikan haruan (Channa striata) meningkatkan jumlah neokapiler pada penyembuhan luka. Dentofasial. 2015;14:1–5.
  51. Wang L, Qin W, Zhou Y, Chen B, Zhao X, Zhao H, et al. Transforming growth factor β plays an important role in enhancing wound healing by topical application of Povidone-iodine. Scientific Reports. 2017;7:1–5.

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