What “regenerative” means in aesthetic medicine: a narrative literature review attempting to demystify the core essence of regenerative aesthetics

Maurizio Cavallini; Emanuele Chittano Congedo; Barbara Claysset; George Christopoulos; Ting Song Lim; Josè Ramon Saucillo Gibert; Hema Sundaram; Francesca Arrigoni; Valentina Merenda

doi:10.20517/2347-9264.2025.127

Plastic and Aesthetic Research ›› 2026, Vol. 13 ›› Issue (1) :5 DOI: 10.20517/2347-9264.2025.127

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What “regenerative” means in aesthetic medicine: a narrative literature review attempting to demystify the core essence of regenerative aesthetics

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Abstract

Regenerative aesthetic medicine has rapidly evolved from a primarily corrective discipline into a biologically oriented field focused on restoring tissue function, quality, and homeostasis. This narrative review examines the conceptual foundations of “regeneration” in aesthetic practice and critically discusses the biological rationale and clinical evidence supporting the main injectable modalities currently described as regenerative, including platelet-rich plasma (PRP), polynucleotides, exosomes, stromal vascular fraction (SVF)-based approaches, poly-L-lactic acid (PLLA), and calcium hydroxylapatite (CaHA). These interventions act through distinct yet partially overlapping mechanisms, involving modulation of inflammation, fibroblast activation, extracellular matrix remodeling, angiogenesis, and immunobiological signaling. PRP provides concentrated growth factors with context-dependent effects on tissue repair; polynucleotides enhance fibroblast activity and dermal hydration through nucleotide-mediated pathways; exosomes function as intercellular signaling mediators influencing inflammatory cascades and tissue remodeling; SVF-based therapies combine volumetric support with paracrine and cellular effects; while PLLA and CaHA act as long-term biostimulatory fillers, promoting sustained neocollagenesis and dermal reorganization through controlled inflammatory and macrophage-mediated responses. Although clinical studies report improvements in skin quality parameters, dermal architecture, elasticity, and hair density, the available evidence is heterogeneous and often limited by variability in preparation methods, product characteristics, injection protocols, and outcome measures. Issues related to standardization, reproducibility, and regulatory classification remain particularly relevant for biologically derived products such as PRP, exosomes, and SVF. Overall, regenerative aesthetics represents a paradigm shift from transient correction toward biologically driven tissue renewal; however, consolidation within evidence-based aesthetic medicine will require higher-quality comparative trials, standardized methodologies, and clearer regulatory frameworks.

Keywords

Regenerative aesthetic medicine / regenerative aesthetics / tissue regeneration / biostimulation / skin rejuvenation

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Maurizio Cavallini, Emanuele Chittano Congedo, Barbara Claysset, George Christopoulos, Ting Song Lim, Josè Ramon Saucillo Gibert, Hema Sundaram, Francesca Arrigoni, Valentina Merenda. What “regenerative” means in aesthetic medicine: a narrative literature review attempting to demystify the core essence of regenerative aesthetics. Plastic and Aesthetic Research, 2026, 13(1): 5 DOI:10.20517/2347-9264.2025.127

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References

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[1]	Zarbafian M,Dayan S.The emerging field of regenerative aesthetics-where we are now.Dermatol Surg2022;48:101-8

[2]	Mason C.A brief definition of regenerative medicine.Regen Med2008;3:1-5

[3]	Trovato F,Michelini S.Advancements in regenerative medicine for aesthetic dermatology: a comprehensive review and future trends.Cosmetics2024;11:49

[4]	Samadi P,Khoshinani HM.The use of platelet-rich plasma in aesthetic and regenerative medicine: a comprehensive review.Aesthetic Plast Surg2019;43:803-14

[5]	Leo MS,Kirit R,Sivamani RK.Systematic review of the use of platelet-rich plasma in aesthetic dermatology.J Cosmet Dermatol2015;14:315-23

[6]	Gupta S,Delgado D.Evidence-based indications of platelet-rich plasma therapy.Expert Rev Hematol2021;14:97-108

[7]	Justicz N,Chen JX.Platelet-rich plasma for hair restoration.Facial Plast Surg Clin North Am2020;28:181-7

[8]	Everts P,Jayaram P,Mautner K.Platelet-rich plasma: new performance understandings and therapeutic considerations in 2020.Int J Mol Sci2020;21:7794 PMCID:PMC7589810

[9]	Asubiaro J.Platelet-rich plasma in aesthetic dermatology: current evidence and future directions.Cureus2024;16:e66734 PMCID:PMC11391108

[10]	Lin MY,Hu S.Progress in the use of platelet-rich plasma in aesthetic and medical dermatology.J Clin Aesthet Dermatol2020;13:28-35 PMCID:PMC7595356

[11]	Elghblawi E.Platelet-rich plasma, the ultimate secret for youthful skin elixir and hair growth triggering.J Cosmet Dermatol2018;17:423-30

[12]	Maurizio C. Long chain polynucleotides gel and skin biorevitalization. Available from: https://www.agfarma.com/wp-content/uploads/2025/01/2007-Cavallini-Papagni-JPD-Long-chain-polynucleotides-gel-ans-skin-biorivitalization-Plinest-143-pts.pdf. [Last accessed on 28 Jan 2026].

[13]	Bartoletti E,Maioli L. Introduction to polynucleotides highly purified technology. Available from: https://www.researchgate.net/publication/365759324_Introduction_to_polynucleotides_highly_purified_technology. [Last accessed on 28 Jan 2026].

[14]	Bartoletti E. Polynucleotides highly purified technology, the new class of body skin biorevitalizing agents. Available from: https://www.agfarma.com/wp-content/uploads/2025/01/2021-NR-4-BARTOLETTI-TROCCHI-AEM-narrative-PN-body-skin.pdf. [Last accessed on 28 Jan 2026].

[15]	Lee KWA,Lee A.Polynucleotides in Aesthetic Medicine: A Review of Current Practices and Perceived Effectiveness.Int J Mol Sci2024;25:8224 PMCID:PMC11311621

[16]	Brandi C,Nisi G,D’Aniello C.Face rejuvenation: a new combinated protocol for biorevitalization.Acta Biomed2018;89:400-5 PMCID:PMC6502127

[17]	Cavallini M,Maioli L.Consensus report on the use of PN-HPT^TM (polynucleotides highly purified technology) in aesthetic medicine.J Cosmet Dermatol2021;20:922-8 PMCID:PMC7984045

[18]

Maioli L. Polynucleotides highly purified technology and nucleotides for the acceleration and regulation of normal wound healing. Available from: https://www.agfarma.com/wp-content/uploads/2025/01/2020-NR-2-Maioli-L.-Polynucleotides-HPT-and-nucleotides-for-the-acceleration-and-regulation-of-normal-wound-healing.pdf. [Last accessed on 28 Jan 2026].

[19]	Lampridou S, Bassett S, Cavallini M, Christopoulos G. The effectiveness of polynucleotides in esthetic medicine: a systematic review. J Cosmet Dermatol. 2025;24:e16721. PMCID:PMC11845969

[20]	Massirone A. Polynucleotides highly purified technology and the face skin, a history of innovative skin priming. Available from: https://www.ami.co.il/wp-content/uploads/2025/10/2021-NR-3-MASSIRONE-AEM-narrative-PN-face-skin.pdf. [Last accessed on 28 Jan 2026].

[21]	Lee DK,Kim MJ.Clinical effects of polynucleotide with hyaluronic acid intradermal injections on facial erythema: effective redness treatment using polynucleotides.Skin Res Technol2024;30:e70034 PMCID:PMC11388635

[22]	Vyas KS,Munavalli GS,Behfar A.Exosomes: the latest in regenerative aesthetics.Regen Med2023;18:181-94

[23]	Zhang B,He L.Exosomes based advancements for application in medical aesthetics.Front Bioeng Biotechnol2022;10:1083640 PMCID:PMC9810265

[24]	Olumesi KR.A review of exosomes and their application in cutaneous medical aesthetics.J Cosmet Dermatol2023;22:2628-34

[25]	Xiong M,Hu W.The novel mechanisms and applications of exosomes in dermatology and cutaneous medical aesthetics.Pharmacol Res2021;166:105490

[26]	Ha DH,Lee J.Mesenchymal stem/stromal cell-derived exosomes for immunomodulatory therapeutics and skin regeneration.Cells2020;9:1157 PMCID:PMC7290908

[27]	Hartman N,Fabi S.Update on exosomes in aesthetics.Dermatol Surg2022;48:862-5

[28]	Bernardini FP,Izzo L.Superficial enhanced fluid fat injection (SEFFI) to correct volume defects and skin aging of the face and periocular region.Aesthet Surg J2015;35:504-15

[29]	Gennai A,Repaci E.Skin rejuvenation and volume enhancement with the micro superficial enhanced fluid fat injection (M-SEFFI) for skin aging of the periocular and perioral regions.Aesthet Surg J2017;37:14-23

[30]	Neuber F. Fettransplantation. Bericht uber die Verhandlungen der Deutschen Gesellschaft fur Chirurgie. (in German) Available from: https://cir.nii.ac.jp/crid/1581980076082320896. [Last accessed on 28 Jan 2026].

[31]	Pu LL,Coleman SR.Future perspectives of fat grafting.Clin Plast Surg2015;42:389-94

[32]	Zuk PA,Ashjian P.Human adipose tissue is a source of multipotent stem cells.Mol Biol Cell2002;13:4279-95 PMCID:PMC138633

[33]	Frese L,Hoerstrup SP.Adipose tissue-derived stem cells in regenerative medicine.Transfus Med Hemother2016;43:268-74 PMCID:PMC5040903

[34]	Trivisonno A,Cannistra C.Harvest of superficial layers of fat with a microcannula and isolation of adipose tissue-derived stromal and vascular cells.Aesthet Surg J2014;34:601-13

[35]	Wazer DE.4-45 clinical treatment of radiotherapy tissue damage by lipoaspirate transplant: a healing process mediated by adipose-derived adult stem cells.Breast Dis Year Book Q2008;18:393-4

[36]	Nguyen PS,Gay AM,Magalon G.Development of micro-injection as an innovative autologous fat graft technique: the use of adipose tissue as dermal filler.J Plast Reconstr Aesthet Surg2012;65:1692-9

[37]	Capuana E,Ceraulo M.Poly-L-lactic acid (PLLA)-based biomaterials for regenerative medicine: a review on processing and applications.Polymers2022;14:1153 PMCID:PMC8955974

[38]	Christen MO.Collagen stimulators in body applications: a review focused on Poly-L-lactic acid (PLLA).Clin Cosmet Investig Dermatol2022;15:997-1019 PMCID:PMC9233565

[39]	Ao YJ,Wu GH.Application of PLLA (Poly-L-lactic acid) for rejuvenation and reproduction of facial cutaneous tissue in aesthetics: a review.Medicine2024;103:e37506 PMCID:PMC10939544

[40]	Bravo BSF,Nobre CS,Zafra MC.Exploring the safety and satisfaction of patients injected with collagen biostimulators-a prospective investigation into injectable Poly-L-lactic acid (PLLA).J Cosmet Dermatol2025;24:e16723 PMCID:PMC11845952

[41]	Oh S,Kim HM.Poly-L-lactic acid fillers improved dermal collagen synthesis by modulating M2 macrophage polarization in aged animal skin.Cells2023;12:1320 PMCID:PMC10177436

[42]	Sedush NG,Azarkevich PN.Physicochemical characteristics and hydrolytic degradation of polylactic acid dermal fillers: a comparative study.Cosmetics2023;10:110

[43]	Zhu W.Poly-L-lactic acid increases collagen gene expression and synthesis in cultured dermal fibroblast (Hs68) through the TGF-β/Smad pathway.J Cosmet Dermatol2023;22:1213-9

[44]	Zou Y,Tai M.A feedback loop driven by H4K12 lactylation and HDAC3 in macrophages regulates lactate-induced collagen synthesis in fibroblasts via the TGF-β signaling.Adv Sci2025;12:e2411408 PMCID:PMC11967864

[45]	Chirumbolo S,Magistretti P.Insights on the role of L-lactate as a signaling molecule in skin aging.Biogerontology2023;24:709-26 PMCID:PMC9883612

[46]	Baranov MV,Sacanna S,van den Bogaart G.Modulation of immune responses by particle size and shape.Front Immunol2020;11:607945 PMCID:PMC7927956

[47]	Morhenn VB,Gallo RL.Phagocytosis of different particulate dermal filler substances by human macrophages and skin cells.Dermatol Surg2002;28:484-90

[48]	Matlaga BF,Salthouse TN.Tissue response to implanted polymers: the significance of sample shape.J Biomed Mater Res1976;10:391-7

[49]	Dong Y,Yu H.Poly-L-lactic acid microspheres delay aging of epidermal stem cells in rat skin.Front Immunol2024;15:1394530 PMCID:PMC11177849

[50]	Kim HW,Yun JM.Effects of Poly-L-lactic acid on adipogenesis and collagen gene expression in cultured adipocytes irradiated with ultraviolet B rays.Ann Dermatol2023;35:424-31 PMCID:PMC10733076

[51]	Avelar LE,Wüst S.Unveiling the mechanism: injectable Poly-L-lactic acid’s evolving role-insights from recent studies.J Cosmet Dermatol2025;24:e16635 PMCID:PMC11743305

[52]	Amiri M,Niehot CD.Skin regeneration-related mechanisms of calcium hydroxylapatite (CaHA): a systematic review.Front Med2023;10:1195934 PMCID:PMC10273839

[53]	John S,Sebastian T.Evaluation of hand function in healthy individuals and patients undergoing uninstrumented central corpectomy for cervical spondylotic myelopathy using nine-hole peg test.Neurol India2017;65:1025-30

[54]	Dal Col V,Ribas F.In vitro comparative study of calcium hydroxyapatite (Stiim): conventional saline dilution versus poly-micronutrient dilution.Cureus2025;17:e80344 PMCID:PMC11980529

[55]	Trindade de Almeida AR, Marques ERMC, Contin LA, Trindade de Almeida C, Muniz M. efficacy and tolerability of hyperdiluted calcium hydroxylapatite (Radiesse) for neck rejuvenation: clinical and ultrasonographic assessment.Clin Cosmet Investig Dermatol2023;16:1341-9 PMCID:PMC10226485

[56]	Sato M,Ferreira LRC.Treatment of mid-face aging with calcium hydroxylapatite: focus on retaining ligament support.Clin Cosmet Investig Dermatol2024;17:2545-53 PMCID:PMC11566585

[57]	Schneider C,Cure E,Parra AM.Calcium hydroxyapatite as a co-adjuvant treatment option in a patient with morphea: a report of a case with a one-year follow-up.Cureus2024;16:e69741 PMCID:PMC11490297