New Frontiers in Skin Rejuvenation, Including Stem Cells and Autologous Therapies Aunna Pourang, MD a , Helena Rockwell, BSc b , Kian Karimi, MD c, * Video content accompanies this article at http://www.facialplastic.theclinics.com. INTRODUCTION Minimally invasive cosmetic procedures continue to dominate the aesthetic arena. There are a large number of younger patients requesting cosmetic procedures with a focus on maintaining a youthful, natural look. 1 For this reason, so-called prejuvena- tion has become a popular aesthetic goal for many. There is nothing more natural than a person’s own tissues. Autologous therapies are increasingly being implemented for skin rejuvenation purposes in individuals of all ages. Using an individual’s own fat, yielding nanofat, adipose-derived stem cells (ASCs), and stromal vascular fraction, as well as platelets and fibrin from the person’s blood, aging can be delayed or “reversed” with relative safety and efficacy. Much of the research on autologous therapy is in its infancy, but this revolutionary tech- nology holds great promise. Noninvasive cosmetic procedures, in general, continue to dominate aesthetics. New develop- ments in technologies of botulinum toxin, fillers, and threads provide patients with multiple options. A combination approach of all available interventions can be used in clinical practice to provide patients with optimal, tailored skin rejuvenation. Disclosure: K. Karimi is the medical director of CosmoFrance, Inc, which manufactures and distributes platelet- rich fibrin centrifuges and tubes as well as polydioxanone (PDO) threads. A. Pourang has served as a faculty member for LearnSkin.com. H. Rockwell has no relevant financial disclosures. a Department of Dermatology, University of California, Davis, 3301 C Street, Suite 1400, Sacramento, CA 95816, USA; b University of California, San Diego, School of Medicine, 9500 Gilman Drive, La Jolla, CA 92093, USA; c Rejuva Medical Aesthetics, 11645 Wilshire Boulevard #605, Los Angeles, CA 90025, USA * Corresponding author. E-mail address: [email protected]KEYWORDS Stem cells Rejuvenation Aesthetic Cosmetic Fat transfer Platelet therapy Adipose Thread lift KEY POINTS Minimally invasive cosmetic procedures are increasing in demand and popularity with a recent trend toward a more natural look. Autologous therapies, such as adipose-derived stem cells, stromal vascular fraction, microfat, nanofat, and platelet therapies, have been shown to effectively rejuvenate the skin. Innovations in botulinum toxin, fillers, and thread lifts parallel the increasing trends in autologous therapy use in aesthetic medicine. A combination approach using both autologous and traditional aesthetic therapies can provide optimal aesthetic outcomes. Facial Plast Surg Clin N Am 28 (2020) 101–117 https://doi.org/10.1016/j.fsc.2019.09.009 1064-7406/20/Ó 2019 Elsevier Inc. All rights reserved. facialplastic.theclinics.com
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New Frontiers in SkinRejuvenation, Including
Stem Cells and AutologousTherapies Aunna Pourang, MDa, Helena Rockwell, BScb, Kian Karimi, MDc,*
� Minimally invasive cosmetic procedures are increasing in demand and popularity with a recenttrend toward a more natural look.
� Autologous therapies, such as adipose-derived stem cells, stromal vascular fraction, microfat,nanofat, and platelet therapies, have been shown to effectively rejuvenate the skin.
� Innovations in botulinum toxin, fillers, and thread lifts parallel the increasing trends in autologoustherapy use in aesthetic medicine.
� A combination approach using both autologous and traditional aesthetic therapies can provideoptimal aesthetic outcomes.
Discrichmema De95819209* CoE-ma
Facihttp1064
Video content accompanies this article at http://www.facialplastic.theclinics.com.
INTRODUCTION
Minimally invasive cosmetic procedures continueto dominate the aesthetic arena. There are a largenumber of younger patients requesting cosmeticprocedures with a focus on maintaining a youthful,natural look.1 For this reason, so-called prejuvena-tion has become a popular aesthetic goal for many.
There is nothing more natural than a person’sown tissues. Autologous therapies are increasinglybeing implemented for skin rejuvenation purposesin individuals of all ages. Using an individual’s ownfat, yielding nanofat, adipose-derived stem cells(ASCs), and stromal vascular fraction, as well as
losure: K. Karimi is the medical director of CosmoFranfibrin centrifuges and tubes as well as polydioxanonber for LearnSkin.com. H. Rockwell has no relevantpartment of Dermatology, University of California6, USA; b University of California, San Diego, Sch3, USA; c Rejuva Medical Aesthetics, 11645 Wilshirerresponding author.il address: [email protected]
al Plast Surg Clin N Am 28 (2020) 101–117s://doi.org/10.1016/j.fsc.2019.09.009-7406/20/� 2019 Elsevier Inc. All rights reserved.
platelets and fibrin from the person’s blood, agingcan be delayed or “reversed” with relative safetyand efficacy. Much of the research on autologoustherapy is in its infancy, but this revolutionary tech-nology holds great promise.
Noninvasive cosmetic procedures, in general,continue to dominate aesthetics. New develop-ments in technologies of botulinum toxin, fillers,and threads provide patients with multipleoptions. A combination approach of all availableinterventions can be used in clinical practiceto provide patients with optimal, tailored skinrejuvenation.
ce, Inc, which manufactures and distributes platelet-e (PDO) threads. A. Pourang has served as a facultyfinancial disclosures., Davis, 3301 C Street, Suite 1400, Sacramento, CAool of Medicine, 9500 Gilman Drive, La Jolla, CABoulevard #605, Los Angeles, CA 90025, USA
The therapeutic potential for autologous therapy isan area of medicine that continues to be exploredin many fields, from orthopedics to dermatologyand plastic surgery.2 An individual’s tissues andcells are processed outside of the body and rein-troduced back into the donor, with minimal riskof hypersensitivity reactions. Autologous therapiesvary and involve different cell types and growthfactors that help regenerate tissues.
Stem Cells
The regenerative potential of stem cells hasexpanded beyond the treatment of chronic degen-erative diseases and into aesthetic medicine.Compared with embryonic stem cells or inducedpluripotent stem cells, mesenchymal stem cells(MSCs) are preferred for use in clinical practicegiven the high availability, ability to differentiateinto many cell types, and relative lack of ethicalconcerns.2
ASCs are the multipotent MSC population foundin the stromal vascular fraction (SVF) of fat tissue,with the ability to differentiate into mesoderm,ectoderm, and endoderm lineages.3–5 ASCs alsoshow regenerative and wound healing proper-ties.6,7 They can be obtained from adipose tissuein large quantities using a standard wet liposuctionprocedure under local anesthesia, with minimaldiscomfort and morbidity of the patient, andwithout the need for expansion in culture, incontrast with bone marrow MSCs (BM-MSCs).8,9
Other sources of stem cells include amniotic fluidstem cells, umbilical cord blood stem cells, andWharton jelly, which have greater proliferativeand differentiation potential compared with ASCsand BM-MSCs, but are limited in cell availabilityafter in vitro expansion.10–12
Different methods of ASC isolation have beendescribed in the literature.2,13–15 Lipoaspirate isharvested by using tumescent abdominal liposuc-tion techniques or surgical resection.16 ASCs areusually isolated by collagenase digestion of iso-lated white adipose tissue, followed by centrifuga-tion to separate the SVF-containing ASCs in thepellet fraction from floating adipocytes andblood.8,17–19 SVF is the heterogeneous mixtureof cells obtained by enzymatic separation of adi-pocytes, and contains fibroblasts, endothelialcells, monocytes, macrophages, granulocytes,and lymphocytes.20,21
ASCs can ultimately be isolated from SVF afterseparation from adipocytes and can be culturedto form fibroblast-like colonies.20 ASCs used aloneafter expansion in vitro or with SVF are the mostcommon MSCs used in aesthetic dermatology
and plastic surgery practice.2 Because pureASCs alone require in vitro expansion, which canbe time consuming and labor intensive, SVF isoften used because it already contains ASCs.
Mechanisms of action and clinical applicationsThe regenerative potential of SVF and ASCs isthought to be caused by various mechanisms.The regenerative ability of the skin is maintainedby the stem cells that are present in the hair follicle,interfollicular epidermis, and sebaceous glands,as well as being influenced by mesenchymal-epithelial crosstalk through secreted stimulatoryfactors.22–25 Intradermal adipocyte lineage cellshave been found to be necessary in driving hair fol-licle stem cell activation and likely play a role inother epithelial stem cell functions.24,26 ASCs arealso thought to stimulate the recruitment of endog-enous stem cells and promote their differentiationto cells that are needed, such as at a site of tissueinjury.13 In addition, stem cells, in general, haveantioxidant capabilities that likely mitigate inflam-mation and wound healing.27 Some investigatorssuggest that the preadipocytes and macrophagesin SVF confer regenerative properties throughenhanced immune response or removal of dyingcells, leading to tissue remodeling.28,29 BothSVF and ASCs are thought to have propertiesthat increase vascularization, the secretion ofgrowth factors, vascular endothelial growth factor(VEGF), hepatocyte growth factor, and insulinlikegrowth factor.30–34 Such properties are also likelyresponsible for enhancing fat graft survival.Cultured ASCs have been shown to improve
scar outcomes of full-thickness skin defects.35
Cultured ASCs have also been found to reducewrinkles through collagen and elastic fiber produc-tion and other antiaging effects in the skin throughglycation suppression, antioxidation, and trophiceffects.36,37 SVF, which contains ASCs, has alsobeen used to treat necrosis resulting from facialfiller injections.38,39
Scientific evidence and regulatory issuesIt is important to keep in mind that stem celltechnology is still in its infancy, with US Foodand Drug Administration (FDA)–approved trials inearly phases.2,24,40 Potential side effects of stemcells such as rejection, hyperimmune response,neoplasm, cross contamination with other stemcell lines, and uncontrolled differentiation havebeen proposed.41–44 Human ASCs that havebeen cultured in vitro for long periods of timehave been found to produce tumors in immunode-ficient mice.45 There is also a question as towhether or not the donor’s age affects the regen-erative potential of ASCs.46 The lack of safety
New Frontiers in Skin Rejuvenation 103
and potential side effects data are limited andfurther randomized clinical trials are necessary.2
Furthermore, there is no single standard protocolfor obtaining ASCs, which can lead to regulatoryand quality issues.6,47
Some clinicians are even calling on the FDA toexpedite the oversight of companies and clinicsoffering stem cell–based treatments.48 Proced-ures are being offered in some spalike settingsand are at risk for contamination and infection.Professional groups are requesting that stem cellproducts be regulated like drugs, that the scopeof practice for such procedures be regulated,and that these procedures be performed instate or national facilities accredited by surgicalassociations.
Fat Transfer
Fat transfer procedures (Table 1) are becomingincreasingly popular given it is a relatively safeautologous therapy, helping reverse volume losswith the added benefit of removing unwanted fat.Lipofilling procedures are often used to correctdark circles and hollows around the eyes, volumizethe midface, and augment the chin20,49–51 (Fig. 1).Adipose tissue is not only an ideal filler because ofits ability to integrate into a donor’s tissues withminimal risk of immunogenicity but also containsseveral cell types with regenerative potential, asdiscussed earlier, which can rejuvenate the skinof the face.52–54 The ASCs in the fat have beenshown to promote new collagen deposition, localhypervascularity, and dermal hyperplasia.55,56
Microfat, superficial enhanced fluid fatinjection, and nanofatSuccessful fat grafting depends on several factors,including proper procedural technique, the possi-bility of needing multiple treatments, and optimiza-tion of the recipient site’s capacity to support thegraft.59 Disadvantages of traditional fat grafting,which uses large blunt cannulas, include the risksof irregular fat accumulation, visible lumpiness, fatnecrosis, and poor fat graft survival.20,60
Mechanical and enzymatic disruption of fathas been shown to improve the viability of adipo-cytes and graft retention.20,61–63 Microfat isgenerated by using a smaller multiport cannula,as small as 0.7 mm in diameter, and is theninjected intradermally to treat fine wrinkles.64–66
Superficial enhanced fluid fat injection (SEFFI)is a procedure that was developed to overcomemanual centrifugation’s effects on adipocyteviability.57 Micro side-port cannulae are used toharvest microfat rich in stem cells and viable ad-ipocytes, which is then enhanced with autolo-gous platelet-rich plasma (PRP) and injected
superficially with syringe needles. This treatmenthas been shown to result in lump-free skin reju-venation and volume enhancement.58 Micro-SEFFI (M-SEFFI) is a refined version of the SEFFIprocedure, obtaining smoother fat, harvestedwith a multiperforated cannula with extremelysmall ports (0.3 mm).21
Nanofat is generated by further processing offat via mechanical emulsification. Tonnard andcolleagues20 describe their procedure for nano-fat production in which standard high-negative-pressure liposuction is used to harvest fat usinga multiport 3-mm cannula with sharp side holesof 1 mm in diameter. After saline rinsing andfiltering, adipose tissue is then emulsified byshifting the fat 30 times between two 10-mL sy-ringes connected by a female-to-female Luer-Lok connector to create an emulsion, which isfiltered over a sterile nylon cloth. The remainingeffluent without connective tissue is called nano-fat, yielding 1 mL of nanofat per 10 mL of lipoas-pirate (Video 1). Nanofat is layered fanwiseintradermally using a 27-gauge needle in delicateareas such as superficial rhytids and eyelids,with a delayed effect usually appearing within4 weeks to 3 months. Nanofat does not containviable adipocytes, limiting its ability to volumizetissue, but retains high levels of ASCs, whichcan be used for skin rejuvenation purposes. Itis thought that increased collagen and elastinformation and skin remodeling occurs becauseof the ASCs.20
Nanofat injection may be a less expensive,less time-consuming way of introducing beneficialstem cells to surrounding tissues, because SVFwould need to be further isolated from the nano-fat’s dead adipocyte fraction.20 The fragmentedadipocyte portion may even be beneficial becauseit can induce cytokine release and growth factors,which can help regenerate tissue.20,67
Combination therapiesASCs from processed adipose tissue are oftencombined with macrofat grafts to improve out-comes. Although nanofat alone is typically usedfor skin rejuvenation, it is often combined withmacrofat grafts. Gu and colleagues68 usedcondensed nanofat, removing oil that was thoughtto be too bulky to inject into scars, combined withfat grafts to effectively treat atrophic facial scars.
Cell-assisted lipotransfer (CAL), a technique inwhich fat grafts are enriched with SVF, has beenshown to improve fat transfer in facial lipoatrophycompared with conventional lipoinjection, alongwith a decreased risk of fibrosis, pseudocyst for-mation, and calcification as seen with traditionallipoinjection.69,70
Table 1Types of autologous fat therapy
Cell Type Mechanism of Extraction Pros ConsContain ViableAdipocytes?
ContainsASCs?
Macrofat Standard liposuction using large multiportcannula
Good filler Granuloma formationLumpsFat necrosisCalcificationPoor graft retention possibleMay need multiple treatments
Yes Yes
Microfat Liposuction using small multiport cannula Good fillerRejuvenates skin
Same as macrofat Yes Yes
SEFFI57 Liposuction using small multiport cannula(0.8 and 0.5 mm) 1 PRP
Finer than microfatGood fillerRejuvenates skinDoes not require furthertissue manipulation
Includes PRP growth factors
Oil cyst formation reported insome patients
Requires additional procedure(PRP)
Yes Yes
M-SEFFI58 Liposuction using small multiport cannula(0.3 mm) 1 PRP
Finer than SEFFIGood fillerRejuvenates skinDoes not require furthertissue manipulation
Includes PRP growth factors
Requires additional procedure(PRP)
Yes Yes
Nanofat20 Liposuction using multiport 3-mm cannulawith sharp side holes of 1 mm in diameterwith subsequent emulsification of microfat,filtered to remove connective tissue
SVF2 Lipoaspirate undergoes processing usingenzymatic or mechanical separation and isthen washed, treated with collagenase,centrifuged, and red blood cells areremoved
InexpensiveApplied during 1 surgicalprocedure
Not purely ASCs (heterogeneouscell fraction), which is stillbeneficial
Requires additional processingafter liposuction
No Yes
ASC (alone,afterexpansionin vitro)2
Culture from SVF Obtain homogeneous cellfraction with fully definedphenotype
Cost and time intensivePotential tumorigenic abilityRequires additional processingand culturing after liposuction
Fig. 1. (A) Before and (B) after chin augmentationwith autologous microfat graft purifed byPureGraft (Bimini Technologies, Solana Beach, CA)mixed with autologous PRF obtained using ezPRFSystem.
Table 2Growth factors found in platelet therapies andtheir functions
GrowthFactor Functions
PDGF � Stimulates fibroblasts and leu-kocytes such as neutrophils andmacrophages
� Chemotactically recruits MSCs,endothelial cells, and fibroblasts,and stimulates their replication
� Important for blood vesselmaturation
� Collagen production
FGF � Mitogenic for fibroblasts andendothelial cells
� Facilitates repair of soft tissues� Angiogenic effects lay ground-work for the synthesis, deposi-tion, organization, and ultimateformation of extracellular matrix
� Hyaluronic acid production� Collagenesis
EGF � Regulates proliferation, growth,and the migration of epithelialcells
� Angiogenic
IGF � Promotes cell growth
TGFb � Mitogenic and morphogenicfunctions
� Promotes wound healing� The TGFb3 isoform inhibits
New Frontiers in Skin Rejuvenation 105
Autologous Platelet Therapies
Despite origins in oral maxillofacial surgery,71,72
autologous platelet therapies have been found tobe useful in several other clinical fields, includingaesthetics. This usefulness is largely caused bythe existence of parallels between the body’sinnate mechanisms of wound healing, in whichplatelets play a major contributing role, and thepathways necessary for rejuvenation. First, therewas platelet-rich plasma (PRP)71,72 but, with theturn of the century, came the emergence ofplatelet-rich fibrin (PRF).73
haphazard scarring and pro-motes cellular differentiationand replication
� Stimulates collagenesis
VEGF � Angiogenic� Facilitates extracellular matrixsynthesis and deposition
Mechanism of actionAs cellular constituents of whole blood, plateletsare among the first responders to sites oftissue and vascular injury. In such events,platelet aggregation and activation result in therelease of several critical growth factorsfrom platelet alpha granules, including platelet-derived growth factor, fibroblastic growth factor,epithelial growth factor, insulinlike growth factor,
transforming growth factor, and VEGF,74–77
which are further described in Table 2.The chemotactic properties of these growth fac-
tors serve, in part, to recruit MSCs, which thendifferentiate at the site of injury.77–79 Furthermore,during this process of response to injury, theenzyme thrombin converts the soluble blood pro-tein fibrinogen into insoluble fibrin. Fibrin thenacts as a binding scaffold for erythrocytes andplatelets to stabilize clot formation, establishing afibrin matrix for subsequent remodeling, and sus-taining growth factors.77,80–83 It is these growth
Pourang et al106
factors that ultimately orchestrate the healing,regenerative, and rejuvenating properties of plate-lets. Thus, by using blood concentrates such asPRP and PRF, clinicians can selectively implementthe clinically relevant effects of platelet growthfactors.
Platelet-rich plasma and platelet-rich fibrinPRP and PRF are acquired by centrifugingwhole blood for product-specific durations oftime and either with or without additives(Fig. 2). PRP and PRF primarily differ intheir respective preparation, rate of growthfactor release, and mode of activation for clotformation. These basic differences and similar-ities and several others are summarized inTable 3.
Platelet-rich plasma versus platelet-rich fibrinThe preferred use of PRF compared with PRP iswell justified. First, without the need for addi-tives, as is the case with PRP, preparationand use of PRF confers reduced costs forpatients and providers as well as a more stan-dardized protocol that is less susceptible to hu-man error. Furthermore, PRF is a completelyautologous product, whereas PRP, as a resultof its preparation, is not; thus, PRP presentsthe risk of inducing an adverse immuneresponse.88
With continued consideration of their differ-ences in preparation, the high-speed versuslow-speed centrifugation parameters of PRPand PRF preparation, respectively, diversify theircomposition. As a result of low-speed
Fig. 2. The generation of PRP from whole blood (left) andsupernatant contains the desired product, whereas the hconstitutes the inferior subsection of the solution, and is dmoFrance Inc., Miami, Florida and modified from Karimi KFacial Plastic Surgery Clinics. 2019;27(3); with permission.)
centrifugation, a greater proportion of the bene-ficial cellular content of blood is preserved withinthe resulting PRF layer,84,91 whereas the high-speed centrifugation of PRP pushes many cellstoward the hematocrit,86,91 which is ultimatelyunused and discarded.PRF further surpasses PRP with regard to
growth factor release. The rapid activationand release of growth factors in PRP hasbeen noted to yield short-term benefits withoutlong-term advances in wound healing.90
Contrastingly, the natural, physiologic activationof PRF and its prolonged growth factorrelease sustains healing and regenerative signalsfor a longer period of time.90 In addition, in 1particular study, PRF was found to yield higheroverall concentrations of growth factors thanPRP.92
Although the growth factor signaling ofboth PRP and PRF attracts MSC migration tosites of implementation and injury, PRF hasbeen shown to contain multipotent stem cellmarkers and carry cells that bear phenotypicfeatures that are characteristic of MSCs.93 Asa result, PRF serves not only to attract and sus-tain MSCs with its autologous and naturallyforming fibrin matrix but may also serve as areservoir of these regenerative and rejuvenatingcells.Collectively, these findings, as well as other
comparative studies and reviews documented inthe literature, support PRF’s superiority to PRPfor use as a wound healing and regenerativeaid.86,94–96
PRF from whole blood (right) from centrifugation. Theematocrit, consisting of concentrated red blood cells,iscarded. PPP, platelet-poor plasma. (Courtesy of Cos-, Rockwell H. The Benefits of Platelet Rich Fibrin (PRF).
Table 3Comparison between platelet-rich plasma and platelet-rich fibrin
PRP PRF
Preparation: CentrifugationSpeed84,85
Generally higher speeds Generally lower speeds
Preparation: Additives86,87 Whole blood is spun withanticoagulant andseparating gel
Whole blood is spun withoutany additives
Activation and Coagulation(Fibrin Polymerization/ClotFormation)86–89
Induced by the addition ofthrombin (often bovinederived) and calciumchloride or entrusted to bestimulated by endogenouscoagulation factors afterapplication/injection
Spontaneous; natural cascadeof coagulation and fibrinclot formation based onintrinsic processes
Growth Factor ReleaseRate85,90
Rapid release of growthfactors on implementation(w24 h)
Prolonged duration of growthfactor release (w7–10 d)
Leukocyte Content86,87 0%–50% of cells insupernatant product; lowerretention
w65% of cells in supernatantproduct; higher retention
APPLICATIONS OF PLATELET-RICH PLASMAAND PLATELET-RICH FIBRIN
PRP and PRF boast an array of surgical andnonsurgical aesthetic applications, includingimproved retention of fat grafts, hair restoration,optimizing cartilage grafts in rhinoplasty,improving scar appearance, collagen inductiontherapy, ablative laser resurfacing, and volumiza-tion both independently and in conjunction withhyaluronic acid filler.97,98
Implications as an Injectable
As people age, the collagen, elastin, subcutane-ous fat, and hyaluronic acid content of the facialskin declines,99 which manifests as facial hollow-ness, drooping skin, and the formation of rhytids.It has been suggested that injection of growth fac-tors stimulates dermal collagen synthesis.75 PRP’starget site–specific growth factor release has beenshown to promote fibroblast proliferation andstimulate both type I collagenesis100 and hyaluron-ic acid production.98 Although PRP is known toenhance the duration of the effects from hyaluron-ic acid filler treatments,98 the prolonged release ofgrowth factors85 and physiologic rate of remodel-ing of the PRF fibrin matrix86 is hypothesized tofurther improve the duration of hyaluronic acid filler
treatments. Author K.K. has observed this effect inhis own practice with patients who have receivedboth treatment with filler alone as well as fillercombined with PRF for injection. Injecting PRFprovides an immediate volumization effect that di-minishes over the following few weeks; however,anecdotal evidence from repeat treatments ofPRF by author K.K. has suggested long-term im-provements in facial volume, skin texture, andskin pigmentation when used as a lone autologousdermal filler (Fig. 3).97
Microneedling
Microneedling, or collagen induction therapy, is apopular, minimal-downtime procedure known toimprove skin texture, the presence of fine linesand scars, and enhance skin appearance withoutrisks of hyperpigmentation.101 This superficial,controlled puncturing of the skin by very fine nee-dles stimulates the wound healing response, ulti-mately leading to the release of growth factorsby platelets and neocollagenesis. Topical applica-tion of growth factors has been shown to improveskin texture and appearance102; thus, applyingeither PRP or PRF topically during and immedi-ately after microneedling treatment can improveresults by saturating the newly created fine,porous wounds with concentrated growth factors
Fig. 3. (A and C) Before and (B and D) after 3 treat-ments of PRF alone injected to the infraorbital hol-lows of this 45-year-old female patient to correctpigmentation irregularities and provide subtleimprovement in volumization.
Fig. 4. (A) Before and (B) after 2 treatments of a frac-tionated laser combined with topical PRP to improvethe presence of this 25-year-old male patient’s fore-head scar.
Pourang et al108
(Video 2).98 In 2 split-face studies comparing theeffects of microneedling with topically appliedvitamin C versus PRP, and distilled water versusPRP, respectively, the PRP-treated side showedbetter improvement in the presence of scars103
and yielded improved overall skin texture,104
more so than the respective non–PRP-treatedside.
Lasers
Laser resurfacing serves to retexturize the skin bystimulating the body’s wound healing and tissueregeneration response. Topical application ofPRP or PRF following such treatments may serveto both reduce healing time and enhance resultsby further supplementing the tissue injury
response with concentrated platelets and theirmultifunctional growth factors (Fig. 4). In split-face studies comparing the efficacy of PRP versussaline after fractional skin resurfacing, the PRP-treated side visually healed more rapidly than thesaline-treated side.105 Skin biopsies revealedimproved collagen bundle thickness on the PRP-treated side compared with the saline-treatedside.106 Although the complementary effects ofPRF with ablative lasers have yet to undergoextensive analysis, anecdotal evidence in authorK.K.’s practice suggests that PRF may yieldsimilar, if not superior, benefits after laser resurfac-ing because of its prolonged growth factor release.
FUTURE DIRECTIONS
Further research on PRP and PRF is warranted tobetter elucidate their functional roles in medicalcosmetic rejuvenation. Although PRP has a moreextensive history of applied use, research on thefunctionality and sustainability of growth factorsand other regenerative cells in purely autologousPRF justifies its continued use. Comparativestudies including both treatments may provide
New Frontiers in Skin Rejuvenation 109
additional insight into the preferential implicationsof each.
Platelet Therapies in Combination withAdipose-derived Stem Cells
PRF has been shown to enhance the proliferationof nanofat-derived stem cells in vitro in a dose-dependent manner.107 ASCs cultured in PRPhave also been shown to have stimulatory ef-fects on the proliferation and migration of dermalfibroblasts and keratinocytes.108 This findingsuggests that ASCs support reepithelializationvia paracrine pathways and help maintainepidermal homeostasis.24
These synergistic relationships found in vitrohave been shown clinically. PRP has been shownto improve fat graft outcomes as a result ofenhanced survival of fat cells and ASC differentia-tion triggered by the growth factors present inPRP.109 One study showed that patients whoreceived nanofat, PRF, and autologous fat trans-plant showed improvement in soft tissue depres-sion and skin texture along with high patientsatisfaction compared with traditional autologousfat transplant.110 Another study compared nanofatand intradermal PRF injection with hyaluronic acidinjection. Facial skin texture was improved to agreater extent and there was a higher satisfactionrate in the nanofat-PRF group.107 Gentile and col-leagues30 found that both fat grafts enriched withSVF and fat grafts enriched with PRP were effec-tive at improving facial scars and maintaining con-tour restoration and lower fat resorption after1 year, compared with controls who receivedcentrifuged fat injections without SVF or PRP.
Other Autologous Cell Types
Other autologous therapies, such as fibroblasts,keratinocytes, dermal papillae, and melanocytes,have also been developed for various cosmeticand medical purposes.111 Autologous fibroblasts,in particular, are used for aesthetic purposes.Dermal fibroblasts are mesenchymal cells thatsynthesize collagen and glycosaminoglycans andare involved in cutaneous wound healing andskin repair.112
Autologous cultured fibroblasts are injectedinto the patient’s dermis with resulting long-lasting filling effect up to 48 months, thought tobe caused by continuous protein repair.113–115
Laviv (Fibrocell Technologies, Inc, Exton, PA)has been approved for use in nasolabial folds;however, 3 treatment sessions every 3 to 6 weeksare required and the fibroblasts are sourcedthrough a postauricular biopsy.116,117 However,1 study that used Laviv in the nasojugal groove
showed improvement after 1 session comparedwith placebo without any serious adverseevents.118
OTHER NOVEL SKIN REJUVENATIONTHERAPIES
Although autologous therapies have great poten-tial for skin rejuvenation, traditional minimally inva-sive cosmetic procedures continue to dominatethe aesthetic industry.1,119 New developments inbotulinum toxin, fillers, threads, and combinationtherapies are discussed next.
Neurotoxins
Botulinum toxin type A (BoNTA) injections usingproducts such as Botox (onabotulinumtoxinA),Dysport (abobotulinumtoxinA), and Xeomin (inco-botulinumtoxinA) continue to be the most popularnoninvasive cosmetic procedures and their popu-larity continues to increase.1,119
New neurotoxin products and techniques areentering the sphere of facial rejuvenation. Jeuveau(prabotulinumtoxinA-xvfs) (Evolus, Inc, Irvine, CA),a low-cost alternative to other neurotoxins,has been approved by the FDA for treatment ofglabellar lines.120,121 DaxibotulinumtoxinA, aneurotoxin developed by Revance Therapeutics(Newark, CA), is a long-acting product formulatedwith a proprietary peptide that was found to besafe and effective for moderate or severe glabellarlines in phase 2 and 3 studies.122,123
Originally approved for correcting wrinkles ofthe glabella and the periorbital region, the exten-sive off-label use of BoNTA in different areas ofthe face is now expanding to different methodsof delivery.124,125 The microbotox method wasdeveloped to provide a more natural look for pa-tients, with effects lasting up to 6 months.126 High-ly diluted onabotulinumtoxinA is injected inmultiple small blebs at 0.8-cm to 1.0-cm intervalsinto the dermis or the interface between the dermisand the superficial surface of the muscles of theface and neck. This more superficial approach isthought to prevent a frozen appearance whilealso improving skin texture because of atrophy ofsebaceous and sweat glands.
A recent study compared the intramuscular in-jection versus intradermal microdroplets injectionversus nanomicroneedle delivery of BoNTA forthe treatment of crow’s feet.127 For dynamic wrin-kles, intramuscular injection and intradermalmicrodroplet injections were more effective thannanomicroneedles. For static wrinkles, nanomi-croneedles and intradermal microdroplets injec-tion were more effective. Skin elasticity, collagencontent, and hydration of nanomicroneedle group
Fig. 5. (A) Before and (B) 4 months after midface PDOthread lift. Two threads were placed on each side.Improvement of nasiolabial folds is apparent.
Pourang et al110
and intradermal microdroplet group increasedmore significantly than those of the intramuscularinjection group and were highest at 12 weeks inthe intradermal microdroplet group.There are some limited data supporting the use
of BoNTA for hypertrophic scars and keloids, butfurther studies are required to evaluate BoNTA inwound healing and scarring.128,129
Fillers
The growing popularity of injectable fillers fol-lows behind the popularity of neurotoxins. Mostfillers used on the market now are absorbablefillers made up of either hyaluronic acid, poly-lactic acid, hydroxylapatite calcium micro-spheres, or collagen. Ellanse (Sinclair Pharma-ceuticals, London, United Kingdom), composedof polycaprolactone microspheres in an aqueouscarboxymethylcellulose gel carrier, is a collagenbiostimulator with results lasting up to 4 yearsin certain product lines.130 Bellafill (Suneva Med-ical, Inc, Santa Barbara, CA), consists of 80%bovine collagen gel and 20% polymethylmetha-crylate (PMMA) microspheres, forming a matrixthat supports the production of endogenouscollagen over time.131 Silk Medical AestheticsInc has developed a biocompatible liquid silkfiller made from pure silk from the thread of silk-worm cocoons that will be undergoing clinical tri-als soon.132
Diluted calcium hydroxylapatite (CaHA) has alsorecently been used for skin tightening purposes inindividuals who have age-associated upper armskin changes.133 CaHA’s microspheres havebeen shown to stimulate fibroblast proliferationneocollagenesis, neoelastogenesis, and angio-genesis.133–135 Diluted CaHA is also used in theneck and decolletage to stimulate neocollagenesisby a procedure using multiple retrograde linearthreading passes of diluted CaHA in the subdermalplane followed by massage with a gel or cream.133
An advanced injection technique called myomo-dulation has also recently been introduced in thescientific literature.136 The clinician addressesmuscle movement with injectable fillers in thetreatment of facial structural deficiencies by sup-porting muscle movement or blocking overaction.These effects can be augmented with neurotoxins,highlighting the importance of individualized, com-bination therapies when rejuvenating the skin.
Thread Lifts
The placement of dissolvable sutures continues togain popularity as aminimally invasive treatment offacial ptosis that provides a temporary lifting ofdrooping tissues with a low risk of complications.
Dissolvable barbed sutures, most commonlymade of polydioxanone (PDO), are placed underthe skin of the face and neck to reduce skin laxity,creating a brow, midface, jawline, and chin and/orneck lift, while also stimulating collagen forma-tion137–140 (Fig. 5). Suspension threads, whichcontain barbs, have the added benefit of stimu-lating collagen formation. On histology, fibrouscapsules have been found along threads, whichare thought to contribute to lifting surrounding tis-sues.1–3 This fibrosis, associated with acute in-flammatory cells, is eventually replaced by type Icollage.4–6
Skin rejuvenation and facial skin lifting resultsachieved with threads have been noted for upto 24 months.138 However, combination therapywith dermal fillers can improve the long-term re-sults by compounding the effects of neocolla-genesis.141 In order to further maximize results,it is also important to carefully select patientswith adequate tissue volume and for the proced-ure to be performed by a skilled clinician.137,142
Lifting of ptotic tissues with PDO threads isbest recommended for patients with contraindi-cations to invasive surgical procedures,those who are amenable to short-term resultsfor a lower cost, or those who combine the pro-cedure with other modalities such as dermalfillers.138
Table 4Combination therapies in aesthetic medicine
Nevertheless, advancements continue to bemade with this technology, with several threadtypes available, from free-standing, barbedthreads that do not need to be suspended tosmooth threads that need to be anchored to a sta-ble structure of the face or scalp.
Combination Treatments
Given that aging involves changes not only in theskin and fat but also bones, muscles, and liga-ments, rejuvenation techniques must addresseach component of the aging process. A one-size-fits-all technique only using one modality isnot as effective as a treatment plan that istailored to the individual’s needs using combina-tion therapy, all while meeting the patient’s goalsand expectations. Although many of these thera-pies are not new, the concept of combining ther-apies is being emphasized in clinical practice(Fig. 6).
Combination therapies (Table 4) can potentiallyachieve better, quicker results at a lower cost tothe patient with high patient satisfaction.143–151
For example, accordion lines can be treated usingsuperficial injections or microneedling applicationof highly diluted BoNTA and non–cross-linked hy-aluronic acid.143,152,153 It is important to also tailortherapies to the individual, such as taking an indi-vidual’s ethnicity features into consideration. It isalso crucial to remember that skin rejuvenationalso applies to areas other than the face affected
Fig. 6. (Top) Before and (bottom) after views of a pa-tient who received injections of PRF mixed withdermal filler under both eyes.
by aging, including the neck, decolletage, andthe hands.
SUMMARY
The rapidly growing aesthetic industry is continu-ously evolving to meet the increasing demand forcosmetic enhancement. With this expansion hascome new technology within regenerative medi-cine, providing natural, effective, and safe skinrejuvenation. Using a combination approach,new innovations in injectable botulinum toxin andfillers, along with state-of-the-art autologousstem cells, lipofilling, and platelet therapies, canhelp patients reach their aesthetic goals.
SUPPLEMENTARY DATA
Supplementary data related to this article can befound online at https://doi.org/10.1016/j.fsc.2019.09.009.
REFERENCES
1. AAFPRS 2018 Annual survey reveals key trends in
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2. Nowacki M, Kloskowski T, Pietkun K, et al. The use
of stem cells in aesthetic dermatology and plastic