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Медико-биологический
информационный портал
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Vol. 23, Art. 28 (pp. 481-498) | 2022
Biotechnologies in the treatment of burn lesions (Review of literature)
Derii E.K.1, Kostyakov D.V.1, Movchan K.N.2, Pyatakov S.N.2, Manukovskiy V.A.1
1. State Healthcare Institution «Saint-Petersburg Research Institute of Emergency Medicine named after I. I. Dzhanelidze» 2. State Healthcare Institution «Medical analytical center» 3. State Healthcare Institution «City Hospital ?4»
Brief summary
Burn injury is a serious global problem. Despite the many ways to treat this pathology, the search for more modern and effective methods remains relevant. One of these areas is biotechnology. Modern biotechnological cell products used in clinical medicine include the use of cultured keratinocytes, fibroblasts, stem cells and various living skin equivalents. Other promising technologies are also described in the literature, many of which are experimental. These include: 3D bioprinting, reprogramming of somatic cells, the use of three-dimensional grid matrices. Methods of biotechnological restoration of the skin cover have a number of disadvantages. The main ones include: the high cost of developing and using cell products, the need for expensive equipment and highly qualified specialists in a medical institution, and unresolved issues in the legal field. Nevertheless, overcoming these problematic aspects will make it possible to routinely apply biotechnologies in the treatment of burn patients with high efficiency. Key words skin burns, skin restoration, biomedical cell product, stem cells, fibroblasts, keratinocytes. (The article in PDF format. For preview need Adobe Acrobat Reader)  Open article in new window
Reference list 1. Abdylloev Dj.A., Nekotorie aspekti ojogovih travm v Respyblike Tadjikistan (rasprostranennost, problemi i perspektivi lecheniya) / Dj.A. Abdylloev, T.G. Gairatov, I.A. Paikov // Vestnik Akademii medicinskih nayk Tadjikistana. - 2018. T. 8, 1(25). - S. 5-9. 2. Tian, H. Epidemiology and outcome analysis of facial burns: A retrospective multicentre study 2011-2015 / H. Tian, L. Wang, W. Xie [et all] // Burns. - 2020 - Vol. 46, 3. - P. 718-726. 3. Lernevall, L.S.T. Support needs of parents of hospitalised children with a burn injury: An integrative review / L.S.T. Lernevall, A.L. Moi, M. Cleary [et all] //Burns. - 2020. Vol. 46, 4. - P. 771-781. 4. Ryder, C., Burn Injuries in Hospitalized Australian Children-An Epidemiological Profile / S. Ryder, T. Mackean, K. Hunter [et all] //Journal of Burn Care & Research. - 2021. - Vol. 42, 3. - P. 381-389. 5. Orlova, O.V. Mejgospitalnaya transportirovka obojjennih / O.V. Orlova, V.S. Afonchikov // Skoraya medicinskaya pomosh: materiali 19-go Vserossiiskogo kongressa (Vserossiiskoi naychno-prakticheskoi konferencii s mejdynarodnim ychastiem). - Sankt-Peterbyrg, 2020. - S. 48. 6. Edilbekova, A.B., Pchelinii vosk v lechenii kosmeticheskih defektov i boleznei / A.B. Edilbekova, K.S. Isakova, E.R. Raimberdieva i dr. // Bulleten nayki i praktiki. - 2022. - T.8, 3. - S. 274-278. 7. Imangazinov, S.B. Novoe v mestnom lechenii ojogovih ran / S.B. Imangazinov, N.K. Anlasbekov, M.G. Kanjigalin i dr. // Valeologiya: Zdorove, Bolezn, Vizdorovlenie. - 2022. - 1. - S. 72-76. 8. Roshangar, L. Using 3D‐bioprinting scaffold loaded with adipose‐derived stem cells to burns wound healing / L. Roshangar, J.S. Rad, R. Kheirjou [et all] //Journal of tissue engineering and regenerative medicine. - 2021. - Vol. 15, 6. - P. 546-555. 9. De Magalhães, J. P. Cellular reprogramming and the rise of rejuvenation biotech / J.P. De Magalhães, A. Ocampo // Trends in Biotechnology. - 2022. - Vol. 40, 6. - P. 639-642. 10. Goryaev, A.A. Redaktirovanie genoma i biomedicinskie kletochnie prodykti: sovremennoe sostoyanie, bezopasnost i effektivnost / A.A. Goryaev, Savkina M.V., Mefed K.M. i dr. // BIOpreparati. Profilaktika, diagnostika, lechenie. - 2018. T.18, 3. - S. 140-149. 11. Nechaeva, E.M. Gistologiya vchera, segodnya i zavtra / E. M. Nechaeva, V. I. Narchyk // Stydent goda 2021 : sbornik statei II Mejdynarodnogo ychebno-issledovatelskogo konkyrsa : v 6 ch. - Petrozavodsk, 2021. - S. 265-276. 12. Negri, V.A., Understanding human epidermal stem cells at single-cell resolution / V.A. Negri, F.M. Watt // Journal of Investigative Dermatology. 2022. - P. 1-7. 13. Lo, C.H. A systematic review: current trends and take rates of cultured epithelial autografts in the treatment of patients with burn injuries / C.H. Lo, E. Chong, S. Akbarzadeh [et all] // Wound Repair and Regeneration. - 2019. - Vol. 27, ?6. - P. 693-701. 14. Malara, M.M. Cultured epithelial autograft combined with micropatterned dermal template forms rete ridges in vivo / M.M. Malara, B.N. Blackstone, M.E. Baumann [et all] // Tissue Engineering Part A. - 2020. - Vol. 26, 21-22. P. 1138-1146. 15. Nagibovich, O. A. Kletochnie prodykti dlya lecheniya povrejdenii koji / O.A. Nagibovich // Geni i Kletki. - 2017. - T. 12, 3. - S. 51-51. 16. Choong A.W., Yik Cheong Khoo, Thi Thu Ha Truong From skin allograft coverage to allograft-micrograft sandwich method: A retrospective review of severe burn patients who received conjunctive application of cultured epithelial autografts / A.W. Choong, Khoo Y.C., Truong T.T.H. [et all] // Burns. - 2018. - Vol. 44, 5. - P. 1302-1307. 17. Borovkova, N.V. Biologicheskoe pokritie na osnove trypnoi koji v lechenii obojjennih / N. V. Borovkova, A. V. Sachkov, S. V. Frolov [i dr.] // Rol bolnic skoroi pomoshi i naychno issledovatelskih institytov v snijenii predotvratimoi smertnosti sredi naselenii : Materiali 4-go sezda vrachei neotlojnoi medicini s mejdynarodnim ychastiem. - Moskva, 2018. - S. 55-57. 18. Peirce, S.C. ReCell? spray-on skin system for treating skin loss, scarring and depigmentation after burn injury: a NICE medical technology guidance / S.C. Peirce, G. Carolan-Rees // Applied Health Economics and Health Policy. - 2019. - Vol. 17, 2. - P. 131-141. 19. Larson, K.W. Treatment of a full-thickness burn injury with NovoSorb biodegradable temporizing matrix and RECELL autologous skin cell suspension: a case series / K.W. Larson, C.L. Austin, S.J. Thompson // Journal of Burn Care & Research. - 2020, Vol. 41, 1. - P. 215-219. 20. Arefev, I.U. Aytologichnie nekyltivirovannie kletki koji v sochetanii s setchatim transplantatom 1: 6 pri lechenii ojogov / I.U. Arefev, D.Ya. Aleinik, E.V. Vorobev i dr. // Mejdynarodnii jyrnal prikladnih i fyndamentalnih issledovanii. - 2019. - 8. - S. 38-43. 21. Tracy, L.E. Extracellular matrix and dermal fibroblast function in the healing wound / L.E. Tracy, R.A. Minasian, E.J. Caterson //Adv Wound Care (New Rochelle). - 2016. - Vol. 5, 3. - P. 119-136. 22. Chua, A. W. C. Skin tissue engineering advances in severe burns: review and therapeutic applications / A.W.C. Chua, Y.C. Khoo, B.K. Tan [et all] // Burns & trauma. - 2016. - Vol. 4. - 1. - P. 3. 23. Aleinik, D.Ya. Ispolzovanie kletochnih tehnologii dlya vosstanovleniya povrejdenii koji pri ojogovoi travme / D. Ya. Aleinik, V. L. Zorin, I. I. Eremin i dr. // Sovremennie problemi nayki i obrazovaniya. - 2015. - 4. - S. 331. 24. Vagner, D.O. Rezyltati transplantacii allogennih fibroblastov y postradavshih s termicheskimi ojogami koji / D. O. Vagner, E. V. Zinovev, V. V. Soposhenko i dr. // Rol bolnic skoroi pomoshi i naychno issledovatelskih institytov v snijenii predotvratimoi smertnosti sredi naselenii: Materiali 4-go sezda vrachei neotlojnoi medicini s mejdynarodnim ychastiem - Moskva, 2018. - S. 59-60. 25. Gilevich, I.V., Dostijeniya kletochnoi terapii v kombystiologii / I.V. Gilevich, T.V. Fedorenko, E.A. Kolomoiceva i dr. // Innovacionnaya medicina Kybani. - 2017. - T. 6, 2. - S. 6-14. 26. Kyzmicheva, V.I. Fibroblasti kak obekt izycheniya proliferativnoi aktivnosti in vitro / V.I. Kyzmicheva // Nayka i innovacii v medicine. - 2020. - T. 5, 3. - S. 210-215. 27. Ashtiani, H.R.A. Repairing injured skin: biologics, skin substitutes, and scaffolds / H.R.A. Ashtiani, M.A. Nilforoushzadeh, M. Akaberi // Journal of Skin and Stem Cell. - 2018. - Vol. 5, 4. 28. Vagner, D. O. Opit klinicheskogo primeneniya allogennih fibroblastov y postradavshih s obshirnimi ojogami koji / D. O. Vagner, E. V. Zinovev, K. M. Krilov i dr. // Vestnik Severo-Zapadnogo gosydarstvennogo medicinskogo yniversiteta im. I. I. Mechnikova. - 2018. - T. 10, 3. - S. 65-72. 29. Krilov, K.M. Opit primeneniya dermalnogo ekvivalenta v lechenii ojogov 3 stepeni / K.M. Krilov, D.A. Kozylin, A.V. Panov i dr. // III sezd kombystiologov Rossii: sb. tez. - M., 2010. - S. 174. 30. Stabaeva, G.S. Sovremennie ranevie pokritiya / G.S. Stabaeva, A.T. Mysaev, J.Sh. Yglanov i dr. // Mejdynarodnii jyrnal prikladnih i fyndamentalnih issledovanii. - 2016. - 10-2. - S. 235-239. 31. Towler, M.A. Randomized, prospective, blinded-enrollment, head-to-head venous leg ulcer healing trial comparing living, bioengineered skin graft substitute (Apligraf) with living, cryopreserved, human skin allograft (TheraSkin) / M.A. Towler, E.W. Rush, M.K. Richardson [et all] // Clinics in podiatric medicine and surgery. - 2018. - Vol. 35, 3. - P. 357-365. 32. Lu, K.W. Skin substitutes for the management of mohs micrographic surgery wounds: a systematic review / K.W. Lu, A. Khachemoune //Archives of Dermatological Research. - 2022. - P. 1-15. 33. Jackson, S.R. Matriderm and split skin grafting for full-thickness pediatric facial burns / S.R. Jackson, S. Roman // Journal of Burn Care & Research. - 2019. - Vol. 40, 2. - P. 251-254. 34. Allotey, G. Dilemmas of neonatal burn management: A case report / G. Allotey // Burns Open. - 2019. - Vol. 3, 2. - P. 62-67. 35. Liu, G. Advances in pluripotent stem cells: history, mechanisms, technologies, and applications / G. Liu, B.T. David, M. Trawczynski [et all] //Stem cell reviews and reports. - 2020. - Vol. 16, 1. - P. 3-32. 36. Francis, E. The effects of stem cells on burn wounds: a review / E. Francis, L. Kearney, J. Clover // International journal burns and trauma. - 2019. - Vol. 9, 1. - P.1-12. 37. Zinovev, E.V. Eksperimentalnaya ocenka effektivnosti primeneniya adipogennih mezenhimalnih stvolovih kletok dlya lecheniya ojogov koji III stepeni / E.V. Zinovev, V.N. Cigan, M.S. Asadylaev [i dr.] // Vestnik Rossiiskoi Voenno-medicinskoi akademii. - 2017. - 1(57). - S. 137-141. 38. Bondarenko, N.A. Izmeneniya fynkcionalnih svoistv mezenhimalnih stvolovih kletok pod vliyaniem eritropoetina / N.A. Bondarenko, A.P. Likov, O.V. Kazakov i dr. // Sovremennie problemi nayki i obrazovaniya. - 2017. - 6. 39. Han, Y. Mesenchymal stem cells for regenerative medicine / Y. Han, X. Li, Y. Zhang // Cells. - 2019. - Vol. 8, 8. - P. 886. 40. Johal, K.S. Adipose-derived stem cells: selecting for translational success / K.S. Johal, V.C. Lees, A.J. Reid // Regen. Med. - 2015. - Vol.10, 1. - P. 79-96. 41. Zahorec, P. Mesenchymal stem cells for chronic wounds therapy / P. Zahorec, J. Koller, L. Danisovic [et all] // Cell Tissue Bank. - 2015. - Vol. 16, 1. - P. 19-26. 42. Kapystin, M.A. Ispolzovanie metoda elektrospinninga dlya polycheniya 3d-skaffoldov s biologicheski aktivnimi veshestvami kyrkymi / M.A. Kapystin, A.S. Chybarova, V.P. Kyrchenko i dr. // Molekylyarno-geneticheskie i biotehnologicheskie osnovi polycheniya i primeneniya sinteticheskih i prirodnih biologicheski aktivnih veshestv (Narochanskie chteniya-11). - 2017. - S. 234-240. 43. Zhang, C.L . Nanoparticles meet electrospinning: recent advances and future prospects / C.L. Zhang , S.H. Yu // The Royal Society of Chemistry. - 2014. - Vol. 43, 13. - P. 4423-4448. 44. Rahmatyllin, R.R. Bioplasticheskii material dlya vosstanovitelnoi i rekonstryktivnoi hiryrgii / R.R. Rahmatyllin //avtoreferat dissertacii na soiskanie ychenoi stepeni doktora biologicheskih nayk. - 2014. - S. 11-33. 45. Mitroshin, A.N., Sovremennie predstavleniya o primenenii skaffoldov v regenerativnoi medicine (obzor literatyri) / A.N. Mitroshin, M.G. Fedorova, I.V. Latinova i dr. // Izvestiya visshih ychebnih zavedenii. Povoljskii region. Medicinskie nayki. - 2019. - 2 (50). - S. 133-143. 46. Mager, M.D. Exploring and exploiting chemistry at the cell surface / M. D. Fager, V. LaPointe, M. M. Stevens // Nature Chem. - 2011. - 3. - P. 582-589. 47. Alekseev, A.A. Izychenie effektivnosti lecheniya postradavshih ot ojogov s primeneniem povyazok hitopran / A.A, Alekseev, A.E. Bobrovnikov, N.B. Malutin // Kombystiologiya (elektronnii naychnoprakticheskii jyrnal). - 2015. - 55. 48. Ravnic D.J. Transplantation of bioprinted tissues and organs: technical and clinical challenges and future perspectives / D.J. Ravnic, A.N. Leberfinger, S.V. Koduru [et all] // Ann. Surg. - 2017. - Vol. 266. - P. 48-58. 49. Bydko, A.I. 3D-bioprinteri / A. I. Bydko, I. A. Ivanov, A. E. Korovin // Klinicheskaya patofiziologiya. - 2019. - T. 25. - 4. - S. 26-37. 50. Polyanskaya, A.A. Bioprinting v medicine. osobennosti i perspektivi ispolzovaniya / A.A. Polyanskaya, D.B. Girkina, E.A. Sterleva i dr. // Mejdynarodnii jyrnal prikladnih nayk i tehnologii «Integral». - 2022. - 1. - S. 85-103. 51. Xing, F. 3D Bioprinting for Vascularized Tissue-Engineered Bone Fabrication / F. Xing, Z. Xiang, P.M. Rommens // Materials. - 2020. - Vol. 13. - P. 2278. 52. Tijore, A. Contact guidance for cardiac tissue engineering using 3D bioprinted gelatin patterned hydrogel / A. Tijore, S.A. Irvine, P. Mhaisalkar [et all] //Biofabrication. - 2018. - Vol. 10, 2. - P. 3-25. 53. Cubo, N. 3D bioprinting of functional human skin: Production and in vivo analysis / N. Cubo, M. Garcia, J.F. Del Canizo // Biofabrication. - 2016. - Vol. 9. - P. 6-15. 54. Xie, Z. D Bioprinting in tissue engineering for medical applications: the classic and the hybrid / Z. Xie, M. Gao, A.O. Lobo // Polymers. - 2020. - Vol.12. - P. 1717. 55. Tachibana, K. The beginning of totipotency / K. Tachibana // Nature Reviews Molecular Cell Biology. - 2018. - Vol. 19, 7. - P. 417. 56. De Magalhães, J. P. Cellular reprogramming and the rise of rejuvenation biotech / J.P. De Magalhães, A. Ocampo // Trends in Biotechnology. - 2022. - Vol. 40, 6. - P. 639-642. 57. Vaskova, E.A. Fenomen «epigeneticheskoi pamyati» indycirovannih pluripotentnih stvolovih kletok / E.A. Vaskova, A.E. Stekleneva, S.P. Medvedev, S.M. Zakiyan // Acta naturae. - 2013. - 4. - S.15-23. 58. Bikkyzin, T.I. Metodi polycheniya indycirovannih pluripotentnih stvolovih kletok / T.I. Bikkyzin, V.N. Pavlov, I.F. Gareev // Medicinskii vestnik Bashkortostana. - 2018. - Vol. 13, 2(74). - P. 91-96. 59. Korel, A.V. Napravlennoe pereprogrammirovanie somaticheskih kletok: preimyshestva i nedostatki indycirovannih pluripotentnih stvolovih kletok (obzor literatyri) / A.V. Korel, S.B. Kyznecov // Sibirskii naychnii medicinskii jyrnal. - 2018. - Vol. 38, 4. - P. 21-29. 60. Jia, F. A nonviral minicircle vector for deriving human iPS cells / F. Jia // J. Nat Methods. - 2010. - Vol. 7. - P. 197-199. 61. Meraviglia, V. Generation of induced pluripotent stem cells from frozen buffy coats using non-integrating episomal plasmids / V. Meraviglea, A. Zanon, A.A. Lavdas [et all] // J. Vis. Exp. - 2015. - Vol. 100. 62. Bhutani K. Whole-genome mutational burden analysis of three pluripotency induction methods / K. Bhutani [et. all] // J. Nat Commun. - 2016. - Vol. 7. - P. 233-242. 63. Yu J. Human induced pluripotent stem cells free of vector and transgene sequences / J. Yu [et. al.] // J. Science. - 2009. - Vol. 324 - P. 797-801. 64. Andia, I. Burgos-Alonso N. Stromal vascular fraction technologies and clinical applications / I. Andia, N. Maffulli, N. Burgos-Alonso // Expert opinion on biological therapy. - 2019. - Vol. 19, 12. - P. 1289-1305. 65. Ponomarev, D.N. Klinicheskoe primenenie stromalno-vaskylyarnoi frakcii / D.N. Ponomarev, A.U. Sockov, I.S. dr. // World science: problems and innovations : sbornik statei L Mejdynarodnoi naychno-prakticheskoi konferencii. - Penza, 2021. - S. 254-257. 66. Shihirman, E.V. Liposakciya v kompleksnom lechenii virajennogo ojireniya / E.V. Shihirman, K.V. Pychkov // Medicinskii sovet. - 2016. - 17. - S. 154-155. 67. Vasilev, V.S. Vozmojnosti klinicheskogo primeneniya stromalno-vaskylyarnoi frakcii jirovoi tkani v plasticheskoi hiryrgii / V. S. Vasilev, S. A. Vasilev, I. A. Karpov [i dr.] // Annali plasticheskoi, rekonstryktivnoi i esteticheskoi hiryrgii. - 2017. - 2. - S. 82-91. 68. Ghiasloo, M. Expanding clinical indications of mechanically isolated stromal vascular fraction: a systematic review / M. Ghiasloo, R.C. Lobato, J.M. Diaz // Aesthetic surgery journal. - 2020. - Vol. 40, 9. - P. 546-560. 69. Lee, S.C. Lipopolysaccharide preconditioning of adipose-derived stem cells improves liver-regenerating activity of the secretome / S.C. Lee, H.J. Jeong, S.K. Lee [et all] // Stem Cell Res. Ther. - 2015. - Vol. 6. - P.75. 70. Naida, D.A. Klinicheskoe ispolzovanie stromalno-vaskylyarnoi frakcii jirovoi tkani pri lechenii posledstvii travm i zabolevanii oporno-dvigatelnogo apparata / D. A. Naida // Opinion Leader. - 2018. - 5(13). - S. 36-44. 71. Veremeev, A.V. Stromalno-vaskylyarnaya frakciya jirovoi tkani kak alternativnii istochnik kletochnogo materiala dlya regenerativnoi medicini / A.V. Veremeev, R.N. Bolgarin, M.A. Petkova // Geni i kletki. - 2016. - T. 11, 1. - S. 35-42. 72. Koyrov, A.S. Primenenie trombocitarnoi aytologichnoi plazmi v mestnom lechenii ojogov i ran razlichnoi etiologii / A.S. Koyrov, E.V. Zinovev, N.V. Shperling i dr. // Jyrnal Neotlojnaya hiryrgiya im. I.I. Djanelidze. - 2021. - S1. - S. 37-38. 73. Medvedev, V.L. Aytologichnaya plazma obogashennaya trombocitami: chto eto i dlya chego? / V.L. Medvedev, M.I. Kogan, I.V. Mihailov // Vestnik yrologii. - 2020. - Vol. 8, 2. - P. 67-77. 74. Bogdan, V.G. Klinicheskaya effektivnost aytodermoplastiki s ispolzovaniem obogashennoi trombocitami aytoplazmi pri plasticheskom zakritii troficheskih yazv venoznoi etiologii bolshih razmerov / V.G. Bogdan, D.A. Tolstov // Novie tehnologii v medicine. - 2015. - S. 65-69. 75. Kostyakov, D.V. Pervii opit primeneniya aytologichnih mezenhimalnih stvolovih kletok i aytoplazmi pri aytodermoplastike / D.V. Kostyakov, E.V. Zinovev, I.V. Arcimovich i dr. // Jyrnal Neotlojnaya hiryrgiya im. I.I. Djanelidze. - 2021. - S1. - S. 35-36. 76. Stevens, H.P. Platelet rich stroma, the combination of PRP and tSVF and its potential effect on osteoarthritis of the knee / H.P. Stevens, van Boxtel, J. van Dijck // Applied Sciences. - 2020. - Vol. 10, 14. - P. 4691. 77. Federalnii zakon ot 23.06.2016 ? 180-FZ «O biomedicinskih kletochnih prodyktah» // Sobranie zakonodatelstva Rossiiskoi Federacii. - 2016. - 26. - St. 3849. - S. 7988-8028. 78. Ivanov, D.V. Zakon o kletochnih prodyktah: proriv ili porajenie / D.V. Ivanov, A.V. Chabanenko // Vestnik novih medicinskih tehnologii. - 2017. - T. 24, 4. - S. 166-176. |
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