Stem and Somatic Cell Monotherapy for the Treatment of Diabetic Foot Ulcers: Review of Clinical Studies and Mechanisms of Action

O A Krasilnikova¹, D S Baranovskii^{1

2}, A V Lyundup², P V Shegay³, A D Kaprin^{2

3}, I D Klabukov^{4

5

6}

Affiliations

¹ A. Tsyb Medical Radiological Research Center - branch of the National Medical Research Radiological Center, Obninsk, Russia.
² Research and Educational Resource Center for Cellular Technologies, Peoples' Friendship University of Russia (RUDN University), Moscow, Russia.
³ Department of Regenerative Medicine, National Medical Research Radiological Center, Obninsk, Russia.
⁴ Research and Educational Resource Center for Cellular Technologies, Peoples' Friendship University of Russia (RUDN University), Moscow, Russia. ilya.klabukov@gmail.com.
⁵ Department of Regenerative Medicine, National Medical Research Radiological Center, Obninsk, Russia. ilya.klabukov@gmail.com.
⁶ Obninsk Institute for Nuclear Power Engineering of the National Research Nuclear University MEPhI, Obninsk, Russia. ilya.klabukov@gmail.com.

PMID: 35476187
DOI: 10.1007/s12015-022-10379-z

Review

Stem and Somatic Cell Monotherapy for the Treatment of Diabetic Foot Ulcers: Review of Clinical Studies and Mechanisms of Action

O A Krasilnikova et al. Stem Cell Rev Rep. 2022 Aug.

. 2022 Aug;18(6):1974-1985.

doi: 10.1007/s12015-022-10379-z. Epub 2022 Apr 27.

Authors

O A Krasilnikova¹, D S Baranovskii^{1

2}, A V Lyundup², P V Shegay³, A D Kaprin^{2

3}, I D Klabukov^{4

5

6}

Affiliations

¹ A. Tsyb Medical Radiological Research Center - branch of the National Medical Research Radiological Center, Obninsk, Russia.
² Research and Educational Resource Center for Cellular Technologies, Peoples' Friendship University of Russia (RUDN University), Moscow, Russia.
³ Department of Regenerative Medicine, National Medical Research Radiological Center, Obninsk, Russia.
⁴ Research and Educational Resource Center for Cellular Technologies, Peoples' Friendship University of Russia (RUDN University), Moscow, Russia. ilya.klabukov@gmail.com.
⁵ Department of Regenerative Medicine, National Medical Research Radiological Center, Obninsk, Russia. ilya.klabukov@gmail.com.
⁶ Obninsk Institute for Nuclear Power Engineering of the National Research Nuclear University MEPhI, Obninsk, Russia. ilya.klabukov@gmail.com.

PMID: 35476187
DOI: 10.1007/s12015-022-10379-z

Abstract

Diabetic foot ulcer (DFU) is one of the most severe complications of diabetes mellitus, often resulting in a limb amputation. A cell-based therapy is a highly promising approach for an effective DFU treatment. However, there is no consensus regarding the most effective cell type for DFU treatment. Various cell types contribute to chronic wound healing via different mechanisms. For example, application of keratinocytes can stimulate migration of native keratinocytes from the wound edge, while mesenchymal stem cells can correct limb ischemia. To assess the effectiveness of a certain cell type, it should be administered as a monotherapy without other substances and procedures that have additional therapeutic effects. In the present review, we described therapeutic effects of various cells and provided an overview of clinical studies in which stem and somatic cell-based therapy was administered as a monotherapy. Topical application of somatic cells contributes to DFU healing only, while injection of mesenchymal stem cells and mononuclear cells can break a pathophysiological chain leading from insufficient blood supply to DFU development. At the same time, the systemic use of mesenchymal stem cells carries greater risks. Undoubtedly, cell therapy is a potent tool for the treatment of DFU. However, it is vital to conduct further high-quality clinical research to determine the most effective cell type, dosage and way of administration for DFU treatment. Ischemia, neuropathy and neuro-ischemia are underlying factors of diabetic foot ulcer. Stem and somatic cells monotherapy can improve chronic wound healing via different mechanisms.

Keywords: Cell therapy; Diabetic foot ulcer; Mesenchymal stromal cells; Stem cells; Technology assessment.

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References

1. IDF Atlas-10th edition. 2021. Available at www.diabetesatlas.org . Accessed 12 Apr 2022.
1. Zhang, P., Lu, J., Jing, Y., Tang, S., Zhu, D., & Bi, Y. (2017). Global epidemiology of diabetic foot ulceration: A systematic review and meta-analysis. Annals of medicine, 49(2), 106–116. - PubMed - DOI
1. Apelqvist, J., Bakker, K., Van Houtum, W. H., Schaper, N. C., International Working Group on the Diabetic Foot (IWGDF) Editorial Board. (2008). Practical guidelines on the management and prevention of the diabetic foot: based upon the International Consensus on the Diabetic Foot (2007) Prepared by the International Working Group on the Diabetic Foot. Diabetes/Metabolism research and reviews, 24, S181–S187. - PubMed - DOI
1. Edmonds, M., Manu, C., & Vas, P. (2021). The current burden of diabetic foot disease. Journal of Clinical Orthopaedics and Trauma, 17, 88–93. - PubMed - PMC - DOI
1. Vuorisalo, S., Venermo, M., & Lepäntalo, M. (2009). Treatment of diabetic foot ulcers. Journal of Cardiovascular Surgery, 50(3), 275. - PubMed

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Stem and Somatic Cell Monotherapy for the Treatment of Diabetic Foot Ulcers: Review of Clinical Studies and Mechanisms of Action

Affiliations

Stem and Somatic Cell Monotherapy for the Treatment of Diabetic Foot Ulcers: Review of Clinical Studies and Mechanisms of Action

Authors

Affiliations

Abstract

References

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MeSH terms

LinkOut - more resources

Full Text Sources

Medical