2024 / 02

Next Paper
DOI: 10.47183/mes.2024.029

REVIEW

Multipotent mesenchymal stem cells: prospects for use in the treatment of injuries sustained in the Far North

Volkova MV, Eremin PS, Markov PA
About authors

National Medical Research Center for Rehabilitation and Balneology, Moscow, Russia

Correspondence should be addressed: Marina Viktorovna Volkova
Novy Arbat, 32, Moscow, 121099, Russia; ur.tsil@avoklov.hcetoib

About paper

Acknowledgements: the authors express their gratitude to Jan Borisovich Kovalevsky, General Director of Orion Chemical Company, for his assistance in writing the article.

Author contribution: Volkova MV — scientific justification, data analysis, manuscript authoring; Eremin PS — manuscript editing; Markov PA — project supervision, manuscript editing.

Received: 2024-05-20 Accepted: 2024-06-10 Published online: 2024-06-29
|
  1. Zheng K, Tong Y, Zhang S, He R, Xiao L, Iqbal Z, et al. Flexible bicolorimetric polyacrylamide/chitosan hydrogels for smart real– time monitoring and promotion of wound healing. Advanced Functional Materials. 2021; 31 (34): 2102599.
  2. Fourie J, Taute F, du Preez L, De Beer D. Chitosan composite biomaterials for bone tissue engineering — a review. Regenerative Engineering and Translational Medicine. 2022; 1–21.
  3. Loi F, Cordova LA, Pajarinen J, Lin T, Yao Z, Goodman SB. Inflammation, fracture and bone repair. Bone. 2016; 86: 119–30.
  4. Курбонов Х. Р., Джуракулов Б. И., Хусанов Т. Б. Методы улучшения ангиогенеза в регенерации костной ткани. Journal of Universal Science Research. 2023; 1 (10): 683–92.
  5. Zdravoohranenie v Rossii. Stat. sb. Rosstat. M., 2023; 181. Russian.
  6. Azarov II, Butakov SS, Zholus BI, Zetkin AYu, Remmer VN. Opyt sohranenija zdorov'ja voennosluzhashhih v Arktike v povsednevnoj dejatel'nosti i chrezvychajnyh situacijah. Morskaja medicina. 2017; 3 (3): 102–11. Russian.
  7. Shapovalov KA, Shapovalova PK. Travmatizm plavajushhego sostava morskogo transportnogo flota Cevernogo vodnogo bassejna. Hirurgija. Vostochnaja Evropa. 2019; 8 (3): 469–484. Russian.
  8. Pryanichnikov SV. Psihofiziologicheskoe sostojanie organizma v zavisimosti ot dlitel'nosti prebyvanija v vysokih shirotah Arktiki. Jekologija cheloveka. 2020; 12: 4–10. Russian.
  9. Zagorodnikov GG, Uhovskij DM. Voenno-professional'naja adaptacija voennosluzhashhih v uslovijah Krajnego Severa. SPb.: VmedA, 2013. Russian.
  10. Turk EE. Hypothermia. Forensic science, medicine, and pathology. 2010; 6 (2): 106–15.
  11. Moffatt S. E. Hypothermia in trauma. Emergency Medicine Journal. 2013; 30 (12): 989–96.
  12. McDonald A, Stubbs R, Lartey P, Kokot S. Environmental injuries: hyperthermia and hypothermia. MacEwan University Student eJournal. 2020; 4 (1).
  13. Grishin OV, Ustyuzhaninova NV. Gipometabolizm u severjan v uslovijah dejstvija nizkih temperatur. Sibirskij nauchnyj medicinskij zhurnal. 2010; 3: 12–17. Russian.
  14. Shishkin GS, Ustyuzhaninova NV. Funkcional'nye sostojanija vneshnego dyhanija zdorovogo cheloveka. Novosibirsk: Izd-vo SO RAN, 2012; 329 c. Russian.
  15. Ermolin SP. Fiziologicheskie reakcii organizma voennosluzhashhih v uslovijah arkticheskoj zony: dis. kand. med. nauk: 03.03.01. Arhangel'sk, 2015: 139. Russian.
  16. Ovechkina E, Ovechkin F. Human Pathophysiology in the Conditions of North Russia. Bulletin of Science and Practice. 2021.
  17. Liu J, Ding Y, Liu Z, Liang X. Senescence in mesenchymal stem cells: functional alterations, molecular mechanisms, and rejuvenation strategies. Frontiers in Cell and Developmental Biology. 2020; 8: 258.
  18. Lv H, Liu Q, Zhou J, Tan G, Deng X, Ci X. Daphnetin-mediated Nrf2 antioxidant signaling pathways ameliorate tert-butyl hydroperoxide (t-BHP)-induced mitochondrial dysfunction and cell death. Free Radical Biology and Medicine. 2017; 106: 38–52.
  19. Vorobeva NA, Vorobeva AI, Marusij AA. Risk jendotelial'noj disfunkcii i obshhaja antioksidantnaja sposobnost' u morjakov v uslovijah arkticheskogo rejsa. Zhurnal mediko-biologicheskih issledovanij. 2021; 9 (2): 192–200. Russian.
  20. Tyrenko VV, Aganov DS, Toporkov MM, Cygan EN, Bologov SG. Rannjaja diagnostika narushenija mineral'nogo obmena, kak sposob pervichnoj i vtorichnoj profilaktiki perelomov u voennosluzhashhih Arkticheskoj gruppirovki vojsk. Vestnik Rossijskoj voennomedicinskoj akademii. 2018; 4: 45–51. Russian.
  21. Volkova MV, Biryukov SA. Metodicheskie aspekty razrabotki i doklinicheskih issledovanij lekarstvennyh preparatov v interesah Arkticheskoj mediciny. Medicina jekstremal'nyh situacij. 2023; 25 (1): 12–20. Russian.
  22. Tamama K, Kerpedjieva SS. Acceleration of wound healing by multiple growth factors and cytokines secreted from multipotential stromal cells/mesenchymal stem cells. Advances in Wound Care. 2012; 1 (4): 177–82.
  23. Myznikov IL, Polishhuk YuS. Sostojanie zdorov'ja, zabolevaemost' i travmatizm u vodolazov, prohodjashhih sluzhbu v Kol'skom Zapoljar'e. Gigiena i sanitarija. 2014; 93 (4): 61–66. Russian.
  24. Revokatova DP, Zurina IM, Gorkun AA, Saburina IN. Sovremennye podhody k sozdaniju vaskuljarizirovannyh kostnyh biojekvivalentov. Patologicheskaja fiziologija i jeksperimental'naja terapija. 2022; 66 (3): 151–65. Russian.
  25. Wood T, Thoresen M. Physiological responses to hypothermia. Seminars in fetal and neonatal medicine. 2015; 20 (2): 87–96.
  26. Trupkovic T, Giessler G. Das Verbrennungstrauma–Teil. Der Anaesthesist. 2008; 57 (9): 898–907.
  27. Kotenko PK, Shevcov VI. Analiz mediko-social'nyh faktorov, opredeljajushhih perspektivnyj oblik sistemy okazanija medicinskoj pomoshhi postradavshim v chrezvychajnyh situacijah v Arkticheskoj zone Rossijskoj Federacii. Morskaja medicina. 2018; 4 (4): 44–54. Russian.
  28. Han Y, Li X, Zhang Y, Han Y, Chang F, Ding J. Mesenchymal stem cells for regenerative medicine. Cells. 2019; 8 (8): 886.
  29. Yorukoglu AC, Kiter A, Akkaya S, Satiroglu-Tufan NL, Tufan AC. A concise review on the use of mesenchymal stem cells in cell sheet-based tissue engineering with special emphasis on bone tissue regeneration. Stem cells international. 2017; 2017.
  30. Petite H, Viateau V, Bensaid W, Meunier A, de Pollak C, Bourguignon M, et al. Tissue-engineered bone regeneration. Nature biotechnology. 2000; 18 (9): 959–63.
  31. Rangatchew F, Vester-Glowinski P, Rasmussen BS, Haastrup E, Munthe-Fog L, Talman ML, et al. Mesenchymal stem cell therapy of acute thermal burns: A systematic review of the effect on inflammation and wound healing. Burns. 2021; 47 (2): 270–94.
  32. Chang YW, Wu YC, Huang SH, Wang HMD, Kuo YR, Lee SS. Autologous and not allogeneic adipose-derived stem cells improve acute burn wound healing. PloS one. 2018; 13 (5): e0197744.
  33. Volkova MV, Boyarinsev VV, Trofimenko AV, Rybalkin SP, Kovaleva EV, Biryukov SA, i dr. Jeffektivnost' primenenija mezenhimal'nyh stromal'nyh kletok dlja lechenija rvano-ushiblennyh ran v uslovijah gipotermii i gipoksii. Izvestija Rossijskoj Voenno-medicinskoj akademii. 2022; 41 (3): 261–68. Russian
  34. Volkova MV, Boyarintsev VV, Trofimenko AV, Kovaleva EV, Al Othman A, Melerzanov AV, et al. Local injection of bone-marrow derived mesenchymal stromal cells alters a molecular expression profile of a contact frostbite injury wound and improves healing in a rat model. Burns. 2023; 49 (2): 432–43.
  35. Lai RC, Yeo RWY, Lim SK. Mesenchymal stem cell exosomes. Seminars in cell & developmental biology. 2015; 40: 82–88.
  36. Yin K, Wang S, Zhao RC. Exosomes from mesenchymal stem/ stromal cells: a new therapeutic paradigm. Biomarker research. 2019; 7: 1–8.
  37. Barrientos S, Brem H, Stojadinovic O, Tomic-Canic M. Clinical application of growth factors and cytokines in wound healing. Wound Repair and Regeneration. 2014; 22 (5): 569–78.
  38. El Sadik AO, El Ghamrawy TA, Abd El-Galil TI. The effect of mesenchymal stem cells and chitosan gel on full thickness skin wound healing in albino rats: histological, immunohistochemical and fluorescent study. PloS one. 2015; 10 (9): e0137544.
  39. Graves DT, Cochran DL. Mesenchymal cell growth factors. Critical Reviews in Oral Biology & Medicine. 1990; 1 (1): 17–36.
  40. Misterova AAV. Optimizacija metoda ochistki rekombinantnogo faktora rosta trombocitov cheloveka RHPDGF-BB, poluchennogo v metiltrofnyh drozhzhah Pichia Pastoris. Prikladnaja biohimija i mikrobiologija. 2023; 59 (4): 383–91. Russian.
  41. Muhametov UF, Lyulin SV, Borzunov DYu, Gareev IF, Bejlerli OA. Alloplasticheskie i implantacionnye materialy dlja kostnoj plastiki: obzor literatury. Kreativnaja hirurgija i onkologija. 2021; 4: 343–53. Russian.
  42. Böttcher-Haberzeth S, Biedermann T, Reichmann E. Tissue engineering of skin. Burns. 2010; 36 (4): 450–60.
  43. Radke D, Chen L, Qi S, Zhao F. Prevascularized stem cell sheet for full-thickness skin wound repair. Vascular Surgery, Neurosurgery, Lower Extremity Ulcers, Antimicrobials, Wound Assessment, Care, Measurement and Repair. 2020: 167–72.
  44. Alaribe FN, Manoto SL, Motaung SCKM. Scaffolds from biomaterials: advantages and limitations in bone and tissue engineering. Biologia. 2016; 71 (4): 353–66. Available from: https://doi.org/10.1515/biolog-2016-0056.
  45. Hussey GS, Dziki JL, Badylak SF. Extracellular matrix-based materials for regenerative medicine. Nature Reviews Materials. 2018; 3 (7): 159–73.
  46. Levengood SKL, Zhang M. Chitosan-based scaffolds for bone tissue engineering. Journal of Materials Chemistry B. 2014; 2 (21): 3161–84.