CC BY-NC-ND 4.0 · Indian J Plast Surg 2020; 53(02): 198-206
DOI: 10.1055/s-0040-1715545
Review Article

HA Filler Injection and Skin Quality–Literature Minireview and Injection Techniques

Jui-Hui Peng
1   Kaohsiung Armed Forces General Hospital, Kaohsiung, Taiwan
,
2   P-Skin Professional Clinic, Kaohsiung, Taiwan
3   Department of Dermatology, Tri-Service General Hospital, National Defense Medical Center, Taipei, Taiwan
› Institutsangaben
 

Abstract

Aging of the face produces many changes in the structure and integrity of the skin and other anatomical aspects, the three major signs of which are volume loss, sagginess, and skin quality change. Through surgical or nonsurgical procedures, it is possible to slow or even reverse these mechanisms through artificial means, including thread lifting, radiofrequency, or filler injection. Filler injections are particularly popular in recent years, owing to their convenience, efficacy, and long-lasting results. In this minireview, the author outlines the basic mechanisms behind facial aging, discusses current literature on each aspect of facial aging, and offers injection protocol recommendations based on past literature and clinical experience.


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Introduction

The aging face can greatly impact an individual’s appearance and confidence. There are three major signs of an aging face: volume loss, sagginess, and skin quality change, for example, atrophy and laxity. Cosmetic intervention to the aging face includes surgical and nonsurgical approaches, of which there are a wide variety of options available, including lasers and energy-based devices (EBDs), cosmeceuticals, topical medications, botulinum toxin injections, thread insertions, and filler injections.

There are numerous well-studied signs of the aging face. In the upper face, expression lines may become more prominent, there may be signs of ptotic eyebrows and upper eyelids, and eye bags may form. In the midface, the lid–cheek junction may become elongated, cheeks may experience sagging, nasolabial folds may become more prominent, and the midface region may experience pronounced volume loss. In the lower face, tissue sagging may become more evident, and jowls may form along the jawline, contributing to its irregularity. These clinical findings may be related to the underlying changes in bony structure support,[1] ([Fig. 1]) fat compartments,[2] [3] mimetic muscles, and skin.[4] Laxity in the superficial muscular aponeurosis system (SMAS) and retaining ligaments[5] may also be contributing factors. [Fig. 2] shows the five layers of the face.[6]

Zoom Image
Fig. 1 Bony remodeling in aging. (Kim HJ, et al. Clinical anatomy of the face for filler and botulinum toxin injection, Springer 2016,[6] with kind permission from Dr. Kim.)
Zoom Image
Fig. 2 The five facial layers. Layers 1 to 5, ranging from superficial to deep, are as follows: Skin (epidermis and dermis); Subcutaneous layer (superficial fat); Facial muscles and SMAS; Retaining ligaments and spaces (deep fat); and Periosteum and deep fascia. (Kim HJ, et al. Clinical anatomy of the face for filler and botulinum toxin injection, Springer 2016,[6] with kind permission from Dr. Kim.). Abbreviations: SMAS, superficial musculoaponeurotic system.

These signs of aging are common targets of aesthetic correction. Currently, there are a wide variety of options available for treatment, such as lasers and EBDs (including monopolar and bipolar radiofrequency [RF], high-intensity focused ultrasound [HIFU], and the picosecond laser with fractional hand-piece, etc.), cosmeceuticals with clinically-effective active ingredients, topical medications (such as retinoic acid), botulinum toxin injections, thread insertions, and filler injections. Various injectable filler material, such as poly-L-lactic acid (PLLA), hyaluronic acid (HA), and hydroxylapatite, have shown the ability to induce new collagen formation after injection, thereby improving skin thickness or skin quality.[7] [8] [9] [10] [11] [12] [13] In this short review, the author will examine the current evidence and possibilities for treatment, and draw from personal experience to formulate expert recommendations, focusing on HA filler injections in particular.


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Methods

Various injectable filler material, such as PLLA, HA, and hydroxylapatite, have shown the ability to induce new collagen formation after injection, thereby improving skin thickness or skin quality. In this short review, the author will examine the current evidence and possibilities for treatment, and draw from personal experience to formulate expert recommendations, focusing on HA filler injection to improve skin quality.

As this is not a systematic review, the references cited are not intended to be results from an exhaustive search. Three specific signs of the aging skin—static wrinkles, radial cheek lines, and deteriorating skin quality—will be the focus of discussion, with the review divided into these respective sections, following a section on HA filler injection techniques. For each section, the appropriate literature will be outlined and discussed, followed by the author’s personal recommendations from over two decades of clinical experience.


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Results and Discussion

Treatment Options for the Aging Face

As previously mentioned, there are multiple techniques available to treat the aging face. Surgery, especially facelift surgery (rhytidectomy), has traditionally been considered the treatment of choice, although in recent years, minimal invasive approaches (including lasers and EBDs, cosmeceuticals, topical medications, chemical peeling, botulinum toxin injections, suspension threads, and filler injections) have evolved to become the more commonly-performed procedures. Quite often these modalities are introduced in combination for synergistic effects through different mechanisms or modes of action, targeting different pathophysiological aspects of the aging processes. [Table 1] shows the summary of treatment options for the aging face.

Table 1

Treatment strategies for correction of facial aging (modified from Bohnert et al[9])

Key aging signs

Surgical approaches

Nonsurgical approaches

Abbreviations: EBD, energy-based devices; RF, radiofrequency; HIFU, high-intensity focused ultrasound.

Volume loss

Fat graft

Filler injections

Implants

Sagginess

Face/neck lift

Suspension threads

EBDs (monopolar RF, HIFU, etc.)

Filler injection

Skin rejuvenation

Laser resurfacing

Fractional lasers

Chemical peeling

Picolaser with fractional handpiece

Microneedling RF, Bipolar RF

Topical medications

Cosmoceuticals

Filler Injection

Filler injections have become quite popular in the past two decades by virtue of its instant efficacy, high-safety profile, and accessibility. Filler correction is capable of accomplishing many of the same results as surgical correction: “lifting” to improve cheek laxity; [14] [15] “contouring” of the nose, chin, and forehead; [16] “volumization” over areas of bony loss or deficiency, or areas of deep fat atrophy, such as the deep malar fat pads or superficial fat pads; [17] “general improvement” of multifaceted anatomical problems such as the tear trough deformity complicated with eye bags,[18] static wrinkles,[19] or cheek lines[20]; and “rejuvenation” effects that lead to increased skin quality and thickness.[7] [8] [9] [21]

Different kinds of filler injections include permanent fillers and absorbable fillers. Permanent fillers, for example, silicone-based products can last more than 6 years. Absorbable fillers, which include PLLA (Sculptra, Galderma), hydroxylapatite (Radiesse, Merz), polycaprolactone (PCL; Ellansé, Sinclair), and HA, can last anywhere from 9 months to over 2 years, depending on type and location. Owing to multiple reports of long-term complications of permanent fillers, practitioners tend to favor long-lasting but absorbable substances as their filler of choice. Globally, HA fillers are the most commonly used.[22] Injection techniques also vary according to clinical indication, patient condition, and desired end result. [Table 2] summarizes reported injection techniques used for HA filler injection.

Table 2

Commonly-used HA filler injection techniques (Modified from[17] [18] [23] [24] [25] [26])

Technique

Subtype

Remark

Deposit

Small bolus

0.3 mL per injection

Aliquot

0.1–0.2 mL

Micro-aliquot

0.01–0.05 mL per point

Serial puncture

Tower technique

Blanching technique

Useful for static wrinkles

Linear (threading)

Antegrade

Retrograde

Fern pattern

Useful for nasolabial folds

Fanning

Cross-hatching

Grid

As multiple cross-hatching

Layering

Subcision/tunneling


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Aging Skin

Factors influencing skin aging can be categorized based on etiology. Innate, genetically predetermined conditions are known as intrinsic factors, while exogenous causes such as air pollution, smoking, nutrition, sleep, and electromagnetic radiation from sun exposure—ultraviolet (UV) light, blue light, infrared light—are known as extrinsic factors.[4] The process of skin aging begins with an initial “dryness,” which leads to the appearance of fine superficial facial lines, followed finally by the loss of skin tone and increased skin laxity. Histological studies on aging showed atrophy of epidermis and dermis, loss of dermal-epidermal junction ridges, decreased number of blood and lymphatic vessels, decreased number of skin appendages, and loss of collagen and elastin fibers. [Table 3] shows a summary on the various structural changes in the aging skin.[27]

Table 3

Structural changes in the aging skin. (Modified from Farage et al[27])

Layer

Observed effect of aging

Stratum corneum

Lower lipid content

Epidermis

Dermal–epidermal junction flattens

Number of enzymatically active melanocytes decreases by 8 to 20% per decade

Number of Langerhans cells decrease

Capacity for re-epithelization diminishes

Number of pores increase

Dermis

Thickness reduced (atrophy)

Vascularity and cellularity decrease

Collagen synthesis decrease

Pacinian and Meissner’s corpuscles degenerate

Structure of sweat glands become distorted, and number of functional sweat glands decrease

Elastic fiber degrades

Number of blood vessels decrease

Number of nerve endings reduce

Hypodermis

Distribution of subcutaneous fat changes

Overall volume decrease

Appendages

Hair loses normal pigments

Hair thins

Number of sweat glands decrease

Nail plates become abnormal

Sebum production reduced

Mechanical properties of the skin and their aging-associated changes are one of the first objectively measurable metrics used to indicate the degree of aging.[28] As the skin ages, it becomes more lax, less elastic, and less thick. Aside from the impact on skin quality and facial shape, skin laxity influences the formation of wrinkles: facial mimetic muscles can mold and shape the overlying skin to form dynamic wrinkles, which gradually become static visible lines, or static wrinkles, in the event of decreased dermal support and increased laxity. Wrinkles have long been associated aesthetically with age: a study in Chinese populations have demonstrated that the presence of wrinkles invariably made subjects appear older than identically aged controls according to observers.[29]

This change in mechanical property is the result of the quality, abundance, and distribution of the major dermal components that influence skin elasticity, turgidity, and resilience, namely, collagen fibers, elastin fibers, and HA. The fragmentation of collagen and elastin fibers in aging skin causes less stretching of skin fibroblasts, which results in less production of new collagen and elastic fibers, leading to the overall decrease in skin quality.


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Static Wrinkles

Dynamic lines such as forehead lines, glabela lines, and crow’s feet see substantial improvement after treatment by botulinum toxin, given careful positioning and deposition of product.[30] Static wrinkles, on the other hand, are permanent, structural anatomical alterations, making neurotoxic agents such as botulinum toxins much less effective. Instead, other modalities might be used, such as EBDs, skin tightening devices, or filler injection, for which reconstituted HA has produced satisfactory results.[19]

The injection technique for the HA treatment of wrinkles has been described by numerous authors, which generally consists of utilizing serial puncture techniques over static wrinkles with tiny amounts of reconstituted HA filler. Static wrinkles over the forehead, glabela, periorbital, and perioral areas can all be treated using this technique. The specific details of injection sequences vary in accordance with authors. For example, one article recommended injection into the superficial dermis with a specially designed, less concentrated HA product, and a blanching technique for the improvement of static wrinkles.[26] Another article recommended a method of “Skinboosting” for static wrinkles: nonanimal stabilized HA (NASHA) 20 mg (Restylane Vital, Galderma) or 12 mg (Restylane Vital light, Galderma), injected with 30G needles through serial puncture.[10]

Author Preference

For static wrinkles, based on clinical experience, the author prefers VYC-15L HA (Juvéderm Volbella, Allergan) injected through 31 to 33G needles in the superficial dermal layer, with the serial puncture method depositing approximately 0.005 mL per injection. Immediate molding with cotton stick after injection is preferred. [Table 4] shows the summary of the author’s preferences for injection techniques for static wrinkle treatment. [Fig. 3] shows an example of static wrinkles over the left cheek treated by this technique. [Figs. 4] [5] show examples of static wrinkles (forehead and glabela, respectively) after combination treatment with botulinum toxin and HA filler. The glabela area is considered one of the most dangerous areas for filler injection, owing to the possibility of embolic vascular occlusion of supraorbital or supratrochlear artery of the internal carotid artery system, and the subsequent sequelae of blindness. The injection should be slow, gentle, in small amounts, and into the relatively safer plane of intradermal or superficial subdermal layers.

Table 4

Author preference for the treatment of static wrinkles

Items

Suggestion

Abbreviation: HA, hyaluronic acid.

Type of HA product

Vycross 15 mg/mL HA; VYC-15L (Juvéderm Volbella, Allergan)

Injection layer

Deep intradermal to superficial subdermal injection

Injection tool

31–33G needle

Injection technique

Microdroplet (micro-aliquot)

Injection amount

0.005 mL per injection every 2 mm

Note

Molding with cream may help better tissue integration.

Zoom Image
Fig. 3 Static radial cheek lines. (a) Before treatment. (b) 2 months after serial puncture injection with VYC-15L (Juvéderm Volbella, Allergan), 0.2 mL per side.
Zoom Image
Fig. 4 Static wrinkles over the forehead. (a) Before treatment. (b) 14 months after injection with VYC-15L (Juvéderm Volbella). Significant efficacy is still present. Also, note the improved skin quality.
Zoom Image
Fig. 5 Static wrinkles over the glabela. (a) Before treatment. (b) After injection with botulinum toxin 20 unit and 0.5ml of VYC-15L HA (Juvéderm Volbella, Allergan) with needle, using the serial puncture technique.

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Radial Cheek Lines (RCL)

RCLs may appear as one of the aging signs concurrent with dynamic and static lines, and it may itself be classified as dynamic or static. [Fig. 3 (a)] contains an example of static RCLs. Static and dynamic RCLs may necessitate different treatment. A study used VYC-17.5L (Juvéderm Volift, Allergan) with 25G cannula to treat dynamic RCLs; 53 female patients enrolled in the study, wherein a 45-day follow-up revealed improvement in 98% of cases, and significant improvement in both dynamic and static RCLs was recorded in terms of roughness, amplitude, and texture.[20] Although the term RCL was not used, another study using NASHA 20 mg or 12 mg with 30G needle, deposited using the serial micropuncture technique, also showed improvement of dynamic RCLs within its patient population.[10]

Author Preference

For dynamic RCLs, based on clinical experience, the author prefers VYC-17.5L HA or VYC-15L HA. [Fig. 6] shows a case of dynamic RCLs treated with VYC-17.5L HA. This particular patient also received a combination treatment with microbotulinum toxin A (Onabotulinum toxin A) at the intradermal layer, 1U in 0.05 mL divided into five injection points, which is shown in [Fig. 7]. [Fig. 8] shows another patient with dynamic RCLs, who underwent treatment with VYC-15L HA using 25G cannula and the fanning technique ([Table 5]).

Table 5

Author preference for the treatment of radial cheek lines

Items

Suggestion

Abbreviation: HA, hyaluronic acid.

Type of HA product

Vycross 17.5 mg/mL HA; VYC-17.5L (Juvéderm Volift, Allergan) Vycross 15 mg/mL HA; VYC-15L (Juvéderm Volbella, Allergan)

Injection layer

Superficial subdermal injection

Injection tool

25G 3.8 mm cannula

Injection technique

Fanning

Injection amount

0.25–0.5 mL per side of cheek

Note

Molding after injection for better filler-tissue integration.

Zoom Image
Fig. 6 Dynamic radial cheek lines. (a) Before treatment. (b) One month after 0.3 mL of VYC-17.5L HA (Juvéderm Volift, Allergan) per side with 25 G cannula injection using the fanning technique.
Zoom Image
Fig. 7 Microbotulinum toxin injection points.
Zoom Image
Fig. 8 Dynamic radial cheek lines (a) Before treatment. (b) One month after treatment with 0.5 mL VYC-15L HA (Juvéderm Volbella, Allergan) per side with 25G cannula, using the fanning technique.

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Improvement in Skin Quality

As previously discussed, the aging skin may alter the mechanical properties of the skin through the loss of collagen, elastin, and ground substances, and may cause the deterioration of skin quality through dryness, thinning, loss of elasticity, and line and wrinkle formation. A 2007 study demonstrated that cross-linked HA filler injections in vivo stimulates new collagen production in photoaged human skin. Collagen production was found to be related to the stretching of fibroblasts.[7] Other studies[31] [32] investigated interactions between injected NASHA, fibroblasts, and the extracellular matrix in aged skin; injected NASHA was shown to enhance structural support of the extracellular matrix, resulting in fibroblast elongation, subsequent increase in procollagen I and collagens I and III production, and an increase keratinocyte and fibroblast proliferation. The net result was overall epidermal thickening and the formation of new dermal vasculature.

The recommended protocol for improving skin quality is NASHA 20 mg or 12mg injected monthly for three sessions, which can retain efficacy for up to 6 months. This kind of injection treatment can significantly improve skin surface roughness and skin elasticity 4 months after the final injection session.[33] A 30G needle using serial puncture technique is preferred to spread out the filler over a larger area. Clinical results indicate not only the hydration effects of HA filler, but also new collagen formation[10] and overall quality improvement. This holistic approach has been called the “Skinbooster” treatment. Other studies have found evidence of objective skin quality improvement after using a new cross-linked injectable product (VYC-12 HA; Juvéderm Volite, Allergan) via digital photographic analysis.[11] [12] This quality improvement effect can last up to 6 months, and the hydration retention effect can last for as long as 9 months after a single injection treatment.


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Author Preference

For skin quality improvement, the author prefers to inject in the deep intradermal to superficial subdermal layer, with 32G needles. Each injection should deposit approximately 0.02–0.025 mL of product, for a total of 40 to 50 injections per 1 syringe of HA for each side of the cheek. Each injection should be approximately 1–1.5cm apart. [Fig. 9] displays the relevant injection markings for this protocol, and [Table 6] summarizes the author’s recommended technique.

Table 6

Author’s preference for improving overall skin quality

Items

Suggestion

Abbreviation: HA, hyaluronic acid.

Type of HA product

VYC-12 HA, (Juvéderm Volite, Allergan)

Injection layer

Deep intradermal to superficial subdermal layer

Injection tool

32 G needle; change needle after 20–25 injections

Injection technique

Microdroplet(micro-aliquot)

Injection amount

0.02–0.025 mL per injection (40–50 injections per cheek)

Note

Molding with cotton stick is recommended immediately after the injection of one cheek

Zoom Image
Fig. 9 Marking and injection.

One thing to keep in mind when injecting for skin quality is the depth of the injection; overly superficial injections can create persistent papules visible under the skin, which will last for as long as the HA filler is present. Immediately after each injection, massaging or molding with a cotton stick is recommended. Since the eyelid has the thinnest skin in the body, it is recommended to halve the usual injection dose (0.01–0.015 mL per injection). The typical amount of injection for each cheek is 1 mL (1 syringe). If the forehead or neck is indicated, another 1 to 2 mL is recommended for better results. [Fig. 10] shows a typical case of all-round improvement achieved through HA filler injection. The improvement in skin quality could be seen and felt through physical examination of the skin. This kind of injection can also improve transverse neck lines (also known as “necklace lines”) by using 15 mg or 12 mg Vycross HA. [Fig. 11] shows a case with necklace lines treated with 15mg Vycross HA using serial puncture and linear injection techniques.

Zoom Image
Fig. 10 A typical case of all-round improvement achieved through HA filler injection. (a) Before treatment. (b) One month after treatment. The improvement in skin quality could be seen and felt through physical examination of the skin. Surprisingly, the tear trough deformity also presented improvements. Abbreviation: HA, hyaluronic acid.
Zoom Image
Fig. 11 Transverse neck lines. (a) Before treatment. (b) One month after injection with 1 mL VYC-15L HA (Juvéderm Volbella, Allergan) with needle, using the serial puncture linear threading technique.

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Conclusions

There is abundant literature support for the efficacy and wide-ranging applications of HA filler injection for a variety of aesthetic skin issues, in particular static lines, RCLs, and improvement of skin quality. For static lines, VYC-15L ([Juvéderm Vobella, Allergan] with lidocaine) in the superficial dermal layer deposited through the serial puncture method has proven to be effective. For RCLs, VYC-15L or 17.5L combined with botulinum toxin in the superficial epidermal layer has proven to be effective. For skin quality improvement, 40 to 50 injections of VYC-12L ([Juvéderm Volite, Allergan] with lidocaine), deposited in the superficial subdermal layer, has proven to be effective. In general, for the best efficacy, HA injections for specific skin conditions should differ in depth, product, technique, and amount.


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Conflicts of Interest

None declared.

  • References

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  • 2 Rohrich RJ, Pessa JE, Ristow B. The youthful cheek and the deep medial fat compartment. Aesthetic Plast Surg 2012; 36 (04) 753-760
  • 3 Gierloff M, Stöhring C, Buder T, Gassling V, Açil Y, Wiltfang J. Aging changes of the midfacial fat compartments: a computed tomographic study. Plast Reconstr Surg 2012; 129 (01) 263-273
  • 4 Saluja SS, Fabi SG. A holistic approach to antiaging as an adjunct to antiaging procedures: a review of the literature. Dermatol Surg 2017; 43 (04) 475-484
  • 5 Alghoul M, Codner MA. Retaining ligaments of the face: review of anatomy and clinical applications. Aesthet Surg J 2013; 33 (06) 769-782
  • 6 Kim HJ, Seo KK, Lee HK, Kim J. Clinical Anatomy of the Face for Filler and botulinum toxin injection Springer. Singapore: 2016
  • 7 Wang F, Garza LA, Kang S. et al. In vivo stimulation of de novo collagen production caused by cross-linked hyaluronic acid dermal filler injections in photodamaged human skin. Arch Dermatol 2007; 143 (02) 155-163
  • 8 de Almeida AT, Figueredo V, da Cunha ALG. et al. Consensus recommendations for the use of hyperdiluted calcium hydroxyapatite (Radiesse) as a face and body biostimulatory agent. Plast Reconstr Surg Glob Open 2019; 7 (03) e2160
  • 9 Bohnert K, Dorizas A, Lorenc P, Sadick NS. Randomized, controlled, multicentered, double-blind investigation of injectable Poly-L-Lactic Acid for improving skin quality. Dermatol Surg 2019; 45 (05) 718-724
  • 10 Landau M, Fagien S. Science of hyaluronic acid beyond filling: fibroblasts and their response to the extracellular matrix. Plast Reconstr Surg 2015; 136 (05) (Suppl) 188S-195S
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Address for correspondence

Peter Hsien-Li Peng, MD Director
P-Skin Professional Clinic
Kaohsiung City 813
Taiwan   

Publikationsverlauf

Artikel online veröffentlicht:
29. August 2020

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  • References

  • 1 Mendelson B, Wong CH. Changes in the facial skeleton with aging: implications and clinical applications in facial rejuvenation. Plast Reconstr Surg 2008; 121 (06) 2107-2112
  • 2 Rohrich RJ, Pessa JE, Ristow B. The youthful cheek and the deep medial fat compartment. Aesthetic Plast Surg 2012; 36 (04) 753-760
  • 3 Gierloff M, Stöhring C, Buder T, Gassling V, Açil Y, Wiltfang J. Aging changes of the midfacial fat compartments: a computed tomographic study. Plast Reconstr Surg 2012; 129 (01) 263-273
  • 4 Saluja SS, Fabi SG. A holistic approach to antiaging as an adjunct to antiaging procedures: a review of the literature. Dermatol Surg 2017; 43 (04) 475-484
  • 5 Alghoul M, Codner MA. Retaining ligaments of the face: review of anatomy and clinical applications. Aesthet Surg J 2013; 33 (06) 769-782
  • 6 Kim HJ, Seo KK, Lee HK, Kim J. Clinical Anatomy of the Face for Filler and botulinum toxin injection Springer. Singapore: 2016
  • 7 Wang F, Garza LA, Kang S. et al. In vivo stimulation of de novo collagen production caused by cross-linked hyaluronic acid dermal filler injections in photodamaged human skin. Arch Dermatol 2007; 143 (02) 155-163
  • 8 de Almeida AT, Figueredo V, da Cunha ALG. et al. Consensus recommendations for the use of hyperdiluted calcium hydroxyapatite (Radiesse) as a face and body biostimulatory agent. Plast Reconstr Surg Glob Open 2019; 7 (03) e2160
  • 9 Bohnert K, Dorizas A, Lorenc P, Sadick NS. Randomized, controlled, multicentered, double-blind investigation of injectable Poly-L-Lactic Acid for improving skin quality. Dermatol Surg 2019; 45 (05) 718-724
  • 10 Landau M, Fagien S. Science of hyaluronic acid beyond filling: fibroblasts and their response to the extracellular matrix. Plast Reconstr Surg 2015; 136 (05) (Suppl) 188S-195S
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Fig. 1 Bony remodeling in aging. (Kim HJ, et al. Clinical anatomy of the face for filler and botulinum toxin injection, Springer 2016,[6] with kind permission from Dr. Kim.)
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Fig. 2 The five facial layers. Layers 1 to 5, ranging from superficial to deep, are as follows: Skin (epidermis and dermis); Subcutaneous layer (superficial fat); Facial muscles and SMAS; Retaining ligaments and spaces (deep fat); and Periosteum and deep fascia. (Kim HJ, et al. Clinical anatomy of the face for filler and botulinum toxin injection, Springer 2016,[6] with kind permission from Dr. Kim.). Abbreviations: SMAS, superficial musculoaponeurotic system.
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Fig. 3 Static radial cheek lines. (a) Before treatment. (b) 2 months after serial puncture injection with VYC-15L (Juvéderm Volbella, Allergan), 0.2 mL per side.
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Fig. 4 Static wrinkles over the forehead. (a) Before treatment. (b) 14 months after injection with VYC-15L (Juvéderm Volbella). Significant efficacy is still present. Also, note the improved skin quality.
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Fig. 5 Static wrinkles over the glabela. (a) Before treatment. (b) After injection with botulinum toxin 20 unit and 0.5ml of VYC-15L HA (Juvéderm Volbella, Allergan) with needle, using the serial puncture technique.
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Fig. 6 Dynamic radial cheek lines. (a) Before treatment. (b) One month after 0.3 mL of VYC-17.5L HA (Juvéderm Volift, Allergan) per side with 25 G cannula injection using the fanning technique.
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Fig. 7 Microbotulinum toxin injection points.
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Fig. 8 Dynamic radial cheek lines (a) Before treatment. (b) One month after treatment with 0.5 mL VYC-15L HA (Juvéderm Volbella, Allergan) per side with 25G cannula, using the fanning technique.
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Fig. 9 Marking and injection.
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Fig. 10 A typical case of all-round improvement achieved through HA filler injection. (a) Before treatment. (b) One month after treatment. The improvement in skin quality could be seen and felt through physical examination of the skin. Surprisingly, the tear trough deformity also presented improvements. Abbreviation: HA, hyaluronic acid.
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Fig. 11 Transverse neck lines. (a) Before treatment. (b) One month after injection with 1 mL VYC-15L HA (Juvéderm Volbella, Allergan) with needle, using the serial puncture linear threading technique.