1. Introduction

Facial beauty, though slightly different in each ethnicity, tends to have a universal rule. A balanced, symmetrical, oval face with harmonious features is perceived as attractive and youthful [1,2,3]. Esthetic concerns are different by age groups with younger groups focusing more on a smooth contour and volume reduction, while older groups focus on wrinkles and improving volume loss [3]. Facial expression muscles are different from other muscular parts of the body because they have soft tissue attachments to the skin through the superficial musculoaponeurotic system, rather than to the bone [4]. Since contracting superficial skin moves in coordination with the underlying muscles, dynamic wrinkles perpendicular to the muscles develop [4,5]. These developed dynamic rhytides lead to atrophy of the dermis and pleating in the skin, which may give an impression of an angry, sad, or aging face. Botulinum neurotoxin (BoNT) can significantly soften dynamic wrinkles and even provide a lifting effect [6,7]. BoNT injection is the most popular cosmetic procedure worldwide with various applications. It can treat not only facial wrinkles but also a wide range of dermatologic, ophthalmologic, oral and maxillofacial, neurologic, urologic, and gynecologic conditions [8,9,10,11]. The reversible characteristics and versatile applications of BoNT make it widely preferable for both cosmetic and therapeutic treatment.

BoNT is a neurotoxin produced by the anaerobic rod-shaped bacterium Clostridium botulinum, and has both medical and lethal applications [12]. It is the most potent biological toxin known with an estimated lethal dose at 0.09 to 0.15 µg (IV or IM), 0.70 to 0.90 µg (inhalation), and 70 µg (PO) [11,13]. C. botulinum produces seven BoNT serotypes (A, B, C, D, E, F, G) [14,15]. An eighth serotype (X) was identified from C. botulinum strain 111 using bioinformatics techniques [15,16]. The most potent serotype is A, followed by B and F [17,18]. BoNT serotypes A and B are the only ones that have been manufactured for clinical use [7]. The effects of BoNT appear after approximately 2–3 days on rhytides and 3 weeks on larger muscles, and last between 3 and 6 months [19,20,21].

In 1829, a German medical officer and poet named Justinus Kerner (1786–1862) reported lethal food poisoning due to rotten sausages (botulus, Latin for sausage). In 1897, Emile von Ermengem investigated an outbreak of botulism due to raw ham in Belgium and found spore-forming anaerobic bacteria, Bacillus botulinum [19]. The outbreak of World War I and II weaponized BoNT by investigating the effect on muscle contraction [22]. In 1944, Edward Schantz cultured and isolated C. botulinum, and later in 1949, Arnold Burgen discovered the mechanism of how BoNT works by blocking acetylcholine release from the neuromuscular junction leading to muscular paralysis [11,23].

The first suggestion of using BoNT for therapeutic use was in 1973. An American ophthalmologist Alan B. Scott published the results of strabismus treatment using BoNT on monkeys. In 1977, he became the first person to use BoNT to treat blepharospasm and strabismus, and later founded the company Oculinum [24]. In 1987, Carruthers and Carruthers observed that BoNT treatment in patients with blepharospasm enhanced their glabellar lines and reported its cosmetic effect [25]. Soon after the United States Food and Drug Administration (FDA) approved BoNT in 1989, Oculinum was bought by Allergan in 1991, and Botox^® was manufactured. After this, the FDA has approved BoNT for various cosmetic and non-cosmetic applications. Cosmetic applications for glabellar lines in 2002, severe axillary hyperhidrosis in 2004, migraines in 2010, lateral canthal lines in 2013, forehead lines in 2017 and sialorrhea in 2018 [9,26].The purpose of this review is to present an overview of BoNT and demonstrate the optimal, safe injection areas and effective dose for application of BoNT in the oral and maxillofacial area. This practical guideline depicts the anatomy of the facial muscles relative to the BoNT injection points and includes a narrative literature review.

2. Materials and Methods

This review explores quantitative data using a systematic search on studies depicting dose range and injection points from expert consensus opinions. A literature search was conducted using MEDLINE and PubMed electronic databases for the period from January 2002 to December 2022. Manual study searches were also performed using the reference list of articles included during the search process.

The inclusion criteria were as follows:

• Studies in the English language;

• Include dosage of BoNT and/or number of injection points;

• Be performed in human adults with no diseases;

• Given BoNT injection of the face for cosmetic or esthetic purpose;

• The literature is limited to expert consensus.

Exclusion criteria were as follows:

• Studies using BoNT for other reasons than cosmetic/aesthetic: i.e., stroke, neurogenic, bladder management, spasticity, sialorrhea, bruxism, strabismus, myofascial pain, TMJ, or obesity;

• Studies using BoNT for cosmetic/aesthetic reasons in other parts of the body or other reasons: i.e., skin texture, scar, androgenic alopecia, neck wrinkles, trapezius hypertrophy, or calf hypertrophy;

• Studies that investigated only a single muscle.

The search included the following keywords used in different combinations: “botox”, “botulinum toxin”, “consensus”, “aesthetic”, “cosmetic”, “systematic review”, and “face”. The term “botox consensus” retrieved 202 studies, “botulinum toxin” AND “consensus” retrieved 315 studies. The search term “face botulinum toxin consensus” resulted in 56 studies, “esthetic botulinum toxin” AND “consensus” resulted in 54 articles, and “cosmetic botulinum toxin consensus” resulted in 42 studies. The term “botox systematic review” retrieved 421 articles.

3. Results

Titles and abstracts were screened, the eligibility criteria were applied, and full text analysis was performed in relevant publications. Thirty-three full text articles were screened for eligibility, of which six were excluded because of a lack of BoNT dosages and type of paper. A total of 27 articles were included in the literature review. The injection dosage and points proposed in this paper are based on the findings from such various reviews.

The BoNT dose and injection points from the views of expert opinions are summarized in Table 1, Table 2 and Table 3. A total of 27 consensus articles were reviewed after retrieving the data through a systematic search. Of the 27 studies, 4 were specified towards Asians, and therefore organized into a separate table (Table 3) [27,28,29,30]. Of the 23 other studies, those by Fagien et al. [31] and by Bertossi et al. [32] were each separately updated by the same group and therefore were excluded from the summary. Carruthers et al. [33] updated their consensus in 2008 and again in 2013 [34,35]. The initial 2004 consensus was grouped with the 2008 consensus, but the 2013 consensus was summarized because of slightly different parameters. Studies by Raspaldo et al. [36] and Gassia et al. [37] were identical to the 2010 consensus from Raspaldo et al. [38,39] and excluded from the summary tables. Most of the studies used onabotulinumtoxinA units, but three studies using different units of abobotulinumtoxinA were excluded from the review [40,41,42]. Three other studies using different BoNTA were included. Studies by Sundaram et al. [28] and Yutskovskay et al. [43] used incobotulinumtoxinA, while Ahn et al. [27] utilized Medytox. A total of 16 consensus papers were summarized in this narrative review (Table 1, Table 2 and Table 3).

3.1. Cosmetic Indications and Contraindications

Elucidating the cosmetic indications and contraindications of BoNT is crucial to maximize patient satisfaction and minimize complications. Patients with dynamic wrinkles, which are formed during facial expression are indicated [4]. Areas with dynamic motion such as the glabella, forehead, peri-orbital lines, nasal rhytides, and perioral rhytides are common injection areas [7,54,55]. Patients with static wrinkles that are present at rest can also be candidates. However, the results are less dramatic and additional treatment sessions or additional esthetic procedures, such as fillers, may be required to achieve ideal outcomes. Excessive contraction of muscles or hyperactivity of specific muscles can also cause non-cosmetic appearances. Patients with bulky masseters, cobble stone chins, gummy smiles, asymmetric smiles, depressed mouth corners, brow ptosis, flaring nostrils, depressed nasal tips, temporal hypertrophy, and trapezius hypertrophy can achieve esthetic results by targeting the precise muscles [7,22]. Patients with hypertrophic submandibular glands and parotid glands can also benefit esthetically in select cases [56].

Contraindications include immunocompromised patients with neuromuscular disorders, such as myasthenia gravis and Lambert–Eaton syndrome; neurodegenerative diseases such as amyotrophic lateral sclerosis; and pregnancy and breast-feeding [4,19]. BoNT is also contraindicated in patients with unrealistic expectations, body dysmorphic syndrome, keloidal scarring, active dermatoses or infection in the treatment area, motor weakness in the treatment area (Bell’s palsy), and allergic reactions to BoNT constituents (cow’s milk protein allergy using abobotulinumtoxinA) [57]. Theoretical drug interactions between BoNT and aminoglycoside antibiotics, quinidine, calcium channel blocker, magnesium sulfate, succihylcholine, and polymyxin exist [22,58,59].

3.2. Cosmetically Used Botulinum Toxin Products

Currently, there are several popular FDA-approved (six BoNTA, one BoNTB) and non-approved toxin products on the market (Table 4) [8,12,60,61]. BoNTs vary in composition, complex size, molecular and chemical properties, supply form, and immunogenicity. Pure BoNT is manufactured as 150 kDa proteins that bind in different quantities to neurotoxin-associated complexing proteins (NAPs) to form high-molecular-weight progenitor complexes [8,62]. Commercial BoNT products have different complements of NAPs, which lead to the formation of various molecular weights and three-dimensional structures [62]. Excipients are added to ensure long-term storage and minimize inactive neurotoxins because they might not interact with nerve cells but are recognized by the immune system [63].

3.3. Facial Target Muscles and Injection Doses

Accurately administered injections and detailed knowledge of the anatomy to determine the correct depth and injection points are important factors for minimizing complications. The relevant anatomy including the muscles involved and amount of injection, is shown in Table 5 [20,28,44,55,60]. Thorough comprehension of the facial musculature and adjacent anatomy is essential before treatment initiation. Diffusion of BoNT differs according to the amount of mixed saline. However, in general, 1–5 mL of saline is mixed with 100 U of BoNTA, which results in diffusion distances 2.5–3 cm in diameter [4,20,64]. Before injection, good lighting, marking injection points, prefilling syringes with the required dose, and pre-photography are beneficial.

3.4. Injection Techniques of BoNT in the Face

BoNT injection depth and amounts differ within each area of the face. Intramuscular injections act on the neuromuscular end plate, leading to denervation of the muscles and subsequent relaxation [19]. Injections can be subdermal in areas where the muscles are very superficial, such as the orbicularis oculi and frontalis muscles. The maximum injection dosage should be injected into the muscle origin, where action is the strongest. Muscles with fibers inserted into the skin can be injected intradermally. Moreover, superficial fibers can be targeted subdermally [4].

3.4.1. Forehead Frontalis

Contraction of the frontalis muscle leads to wrinkles on the forehead. This muscle is the only elevator muscle of the upper face originating from the galeal aponeurotic and is inserted into the subcutaneous level and deep dermis of the skin on the superciliary arch. The forehead has high variability due to the diverse individualized animation patterns during facial expressions. The key is to leave the forehead with little activity without leaving a frozen look. Intracutaneous injection of 15–20 U should be targeted at least 1–2 cm above (higher in aged individuals) the orbital rim to prevent brow ptosis (Figure 1). Lateral injection points should extend 2 cm laterally from the eyebrow to minimize excessive lifting of the eyebrow that may lead to a “samurai” or “Spock” look [19,56]. The lateral border of the frontalis muscle is situated 1 cm lateral to the superior temporal crest, which is on the same perpendicular plane as the lateral eyebrow tail [65]. When the BoNT injection point is too medial, diffusion into the lateral portion of the frontalis muscle is difficult and may cause such a look.

3.4.2. Glabella

Wrinkles in this area are formed by continuous action of the procerus and corrugator supercilii muscles, which are brow depressors. They are formed as a result of frowning and may exist as static vertical lines if left untreated in the dynamic state. The corrugator supercilii originates from the medial supraorbital ridge, thickening and thinning laterally [55]. The muscle lies below the frontalis muscle and injections should be intramuscular and deep. The procerus muscle originates from the periosteum of the nasal bone and upper lateral cartilages, and inserts into the glabellar skin and fibers of the frontalis muscle [56].

In total, 12 U to 20 U of BoNT should be injected into 3 to 5 points (Figure 2). Three injection points are usually required in Asian women. Additionally, five-point injections are helpful in men or patients with bulkier glabellas [28]. The injection point for the procerus muscle should be marked at the intersection of the two lines drawn from the medial brow to the contralateral medial canthus. Injection into the corrugator supercilia is deeper in the medial part and slightly superficial on the lateral side. To avoid brow ptosis, injections should not pass through the mid-pupillary line. Injections should be 1 cm superior to the upper inner boundary of the orbital rim to minimize blepharoptosis. This occurs when toxin spreads to the levator palpebrae superioris muscle, making apparent disfigurement and movement of the eyes difficult. The needle should also point upward at a 30° angle [56,66].

3.4.3. Lateral Canthal Lines (Crow’s Feet)

Crow’s feet are caused by contraction of the superficially situated orbicularis oculi muscle. It is a sphincter muscle encircling the orbit and is divided into three portions: palpebral, orbital, and lacrimal [33]. The muscle originates from the nasal part of the frontal bone, the medial palpebral ligament, and the frontal process of the maxilla. The most peripheral preorbital part causes protrusion of the eyebrow and voluntary eye closure is the target of BoNT [67]. Wrinkles in this area can be seen starting in patients aged approximately 20–25 years old [19]. To minimize complications, 6 U to 12 U of BoNT per side should be injected intracutaneously, producing a wheal (Figure 3). Three injections should be targeted 1.5 cm lateral to the lateral canthus or 1 cm outside the bony orbital wall to reduce the chances of diplopia, ectropion, and drooping of the lower eyelid [33]. To prevent asymmetrical smiles, injections should not be targeted close to the inferior margin of the zygoma. This area is susceptible to bruising due to the high vascularity [35,49].

3.4.4. Infraorbital Rhytides

The palpebral part of the lower eyelid closes the eyelid and is subdivided into preseptal and pretarsal portions [49]. Subdermal injection of 2 U to 4 U of BoNT should be administered into the junction of the pretarsal and preseptal portions of the orbicularic oculi (Figure 4). To possess a “charming roll” in the pretarsal area, which makes the patient appear youthful, injections should be distanced from the lower ciliary margin [28]. Medial infraorbital BoNT injection doses should be minimal and injection delicate to prevent lower eyelid edema [28]. Patients with a positive snap test, lower eyelid puffiness, and previous lower lid blepharoplasty are not good candidates because scleral show may result in complications [49].

3.4.5. Bunny Lines

Bunny lines are created by contraction of the transverse nasalis muscle, which draws the nose up and medially [50]. Other muscles such as the procerus, levator labii superioris alaeque nasi (LLSAN), and medial fibers of the orbicularis oculi may also have minor contributions. Intramuscular BoNT injections of 3 U to 4 U should be performed slightly lateral to the mid nose bridge (Figure 5). A third medial injection on the bridge of the nose can be performed in severe cases [50]. Injections that are too lateral or inferior may lead to lip drooping if BoNT is diffused into the levator labii superioris (LLS), levator anguli oris, or LLSAN muscles [67].

3.4.6. Gummy Smile

A symmetrical smile with 1–2 mm gingival exposure is perceived as an esthetic smile [68,69]. Gummy smile is defined as an excessive gingival display greater than 3 mm when smiling. Mazzuco and Hexsel [70] further subclassified the gummy smile into four types: anterior, posterior, mixed, and asymmetric. In moderate gummy smile, the LLSAN elevates and everts the upper lip, while the depressor septi nasi muscle pulls the nasal tip down. In severe gummy smile, the LLS and to a lesser extent the zygomaticus minor (ZMi) also raise the upper lip. A single-point injection of 2 U on each side, 1 cm lateral to the nostril ala, also known as the Yonsei point, can target these three muscles (Figure 6) [56,71].

3.4.7. Perioral Rhytides

Dynamic vertical rhytides in this area are due to sphincter action of the orbicular oris muscle. The orbicularis oris originates from the modiolus, mandible, and the maxilla near the incisor fossa and inserts into the skin of lips encircling the upper and lower lips [67]. The treatment of vertical perioral wrinkles requires patient to contract the lips. Depending on anatomy, intracutaneous and intradermal injections can be administered. In total, 2–3 U of BoNT should be injected along the vermilion border (Figure 7). Flattening of the vermilion border can be a secondary complication due to contraction of the orbicularis oris. However, this can be easily corrected using dermal fillers. Since functional competency, facial asymmetry, lip depression, or lip elevation might occur, low doses of BoNT are recommended [44].

3.4.8. Masseter Hypertrophy

The masseter muscle is one of the four masticatory muscles that facilitates chewing and causes mouth closing. It is a superficial quadrangular muscle that originates from the zygomatic arch and attaches to the lateral border and the angle of the mandible [56]. Particularly in Asian women, a small oval face with a non-square angle and smooth jaw contour is perceived as esthetically appealing. Since hypertrophy of the masseter leads to a broad face, reduction in the muscle using BoNT has become a popular procedure in Asian countries.

Injections need to be both deep and superficial to effectively reduce the large muscle because a deep inferior tendon (DIT) can block diffusion into both levels, causing paradoxical masseteric bulging [65]. Typically, 25 U to 30 U of BoNT can be injected on each side of the masseter (Figure 8). Injection points can be modified in smaller muscles and skinnier patients to minimize diffusion of the toxin anteriorly, which may leave a “sunken cheek” appearance. Injection too anterior or superiorly can also cause “sunken cheek”. Deeply injecting below a line drawn from the mouth corner to the tragus and at least 1 cm away from the anterior border of the masseter muscle is advisable [72,73]. Injection into the masseter can also reduce bruxism, clenching, and myofascial pain symptoms. However excessive doses of BoNT may temporarily cause difficulty in chewing.

3.4.9. Parotid Gland Hypertrophy

The parotid gland is an inverted-pyramidal-shaped organ that lies on the posterior border of the mandible angle [56,74]. Due to congenital, iatrogenic, or acquired conditions, BoNT in the glands plays a role in the esthetically slimming volume of the hypertrophic glands. BoNT can block not only the acetylcholine from binding in the neuromuscular junction but also in the salivary gland [28,75]. Initially, BoNT was used to treat sialorrhea. However, injection to reduce benign hypertrophy of the salivary glands has also been reported [65]. When the mandibular contour is bulky and extends below the angle, parotid gland hypertrophy could be suspected. Since the parotid gland lies superficial to the masseter muscle, 20 U to 30 U of BoNT should be injected more superficially than the masseter (Figure 9) [28]. Since the majority of salivary production comes from the submandibular gland, high-dose injections simultaneously into both the parotid gland and submandibular gland in patients may lead to severe dry mouth [56,76,77].

3.4.10. Drooping Oral Commissures

The depressor anguli oris (DAO) muscle originates from the oblique line of the mandible and inserts into the modiolus [4,66]. Excessive contraction of the depressor anguli oris muscle pulls the mouth corners down creating a drooping and sad impression. Subdermally or intradermally 4 U to 10 U of BoNT can be injected, 1 cm lateral and lower to the mouth corner (Figure 10) [51]. In Asian patients, since the modiolus is situated in a lower position than in Caucasians, injection can be even lower [56]. Injection into the depressor labii inferior could cause difficulty in sipping water, while imprecise targeting of the muscles can lead to an asymmetrical smile.

3.4.11. Cobble Stone Chin

The mentalis muscle is a lower lip levator, which changes the chin texture when hyperactivated. This muscle originates from the alveolar bone inferior to the lateral incisor and attaches medially towards the skin, forming a dome-shaped chin [56]. A pebbled or dimpled appearance of the chin can be treated with two injections, totaling 10 U into the mentalis muscle (Figure 11). Injection too superiorly in proximity to the lower lip can spread BoNT to the orbicularis oris, and too laterally to the DAO. BoNT diffusion into both muscles may lead to ptosis or asymmetry of the lower lip [51]. It is important to remain at least 1 cm below the mental sulcus to avoid oral incompetence [55].

3.5. Ultrasonography (US)-Guided Botulinum Toxin Techniques

To maximize accuracy and minimize complications, US-guided treatments have been actively utilized in minimally invasive esthetic treatments, such as BoNT, fillers, and threads [65,78,79]. US is useful for distinguishing between anatomical structures such as vessels, muscle, fat, bone, and glands [66]. Not only can anatomical landmarks be seen in real time, but also injection needles and cannulas can be visualized during the procedures, which make outcomes more predictable (Figure 12). Therapy can be reproducible, which increases the efficacy and safety of esthetic treatments. Rather than injecting blindly into a muscle or layer, BoNT can accurately target a selected area and thereby treat the asymmetry in patients with crooked smiles or even deviated lower faces [80,81].

3.6. Complications

BoNT is generally considered to have a wide safety margin in terms of risk. However, since its use has become more common, various injection-related adverse effects (AE) have arisen. Complications are usually technique-dependent, and their incidence decreases as the injector becomes experienced [57]. Complications are the result of reactions to the injection itself or due to the spread of BoNT to untargeted areas [57,82]. Injection-related reactions, such as erythema, edema, and injection pain, are usually mild and temporary and resolve within days. Bruising and ecchymosis are common but tend to take longer to resolve. A recent systematic review reported complication rates in the upper face to be 16% [83]. Headaches and migraines were the most frequently reported AE and this may be related to periosteal trauma or intramuscular hematoma formation during injection [83,84]. Anxiety, vasovagal episodes, paresthesia or dysesthesia, and allergic reactions should also be closely monitored [4,57]. Undesired effects due to the distant spread of BoNT include blepharoptosis, eyebrow ptosis, undesired eyebrow shape, unnatural face, eye opening difficulty, and unsatisfactory results [73,85]. Temporary blepharoptosis is seen in approximately 1–5% of patients [4]. Nasopharyngitis, sinusitis, blurred vision, upset stomach, voice changes, restricted mouth opening, muscle atrophy, and stiffness were also adverse events (AEs) encountered after injection [9,22,84].

The development of neutralizing antibodies is a crucial AE. BoNT may be regarded as a foreign substance in the body that induces an immune response after repeated treatment [86]. Therefore, to reduce antigen occurrence, a commercial product with a low risk of antigenicity should be selected, such as that with fewer complex proteins. Another way to minimize the risk of neutralizing antibody formation is to use the minimum dose needed for effect, injected at least 3 months apart, and avoid booster injections within one month [87,88].

4. Discussion

Several expert consensus statements have also been published from various parts of the world including Europe, Pan-Asia, and the Americas [28,33,34,35,38,44,45,46,47,48,49,50,51,52,53]. The results are shown in Table 1, Table 2 and Table 3 and in the supplementary table (Table S1). There are also numerous systematic reviews related to dosing and effective injections of BoNT. A Cochrane systematic review by Camargo et al. [54] in 2021 looked at 14,919 people (mostly women) from 65 RCTs to see if BoNTA was safe and effective in facial wrinkles. Different types of BoNT were compared with a placebo or each other in cases where glabellar lines, crow’s feet, perioral lines, and forehead lines were treated. The study found that at 4 weeks after injection, all types of BoNT reduced glabellar lines more than the placebo. Regarding safety, ptosis was the only major AE reported and it was seen in fewer than 5% of the trials [54]. The dose range according to the facial region and BoNT brand was also investigated. The dose for glabella lines using onabotulinumtoxinA was 8 U to 80 U, abobotulinumtoxinA was 20 U to 75 U, incobotulinumtoxinA was 20 U to 24 U, daxibotulinumtoxinA was 20 U to 60 U, NewBoNTA (Medytox^®, Prostigne^®, Neuronox^®) was 20 U, LiquidBoNTA was 20 U to 75 U, and prabotulinumtoxinA was 20 U to 60 U [89,90,91]. The dose for forehead lines using onabotulinumtoxinA was 10 U to 48 U, and incobotulinumtoxinA was 10 U to 20 U [92,93]. For crow’s feet the dose using onabotulinumtoxinA was 7.5 U to 24 U, abobotulinumtoxinA was 30 U, incobotulinumtoxinA was 7.5 U to 12 U, and Neuronox^® was 24 U [90,94]. Perioral lines were treated with 7.5 U to 12 U of onabotulinumtoxinA [95,96]. The distribution of injection points for the glabellar lines were three to seven points. It was four to eight for the forehead, three points for the crow’s feet, and four points for the perioral lines. The dose and injection areas seem to differ for all types of BoNTAs for each area. Some BoNTA types have similar efficacy, but some areas require more Units for similar effect. Still, the data comparing different types of BoNT are limited, and with the evolution of newer BoNT brands, further investigation is needed to find the accurate efficacy and dose.

The injections points vary slightly between culture and ethnicity, and with sex. In general, men need greater amounts of BoNT injection because they tend to have thicker skin, more facial movement, and larger and stronger muscles [97]. Injection doses for the masseter muscle are higher in the Asian population, and this may be due to slightly different standards of beauty, with Asians preferring a slimmer jaw line [27]. Since most of the AEs occur when higher doses have been injected, it is important to comprehend the adequate technique [54,56]. One interesting finding is that parotid gland hypertrophy injections for cosmetic reasons have only recently been reported in a consensus for Asians [28]. The treatment itself may be preferred in Asian countries where a bulky jaw is perceived as less attractive, and this can be caused by either a hypertrophic masseter muscle or hypertrophic parotid gland. The indications for BoNT are broadening in both esthetical and therapeutical fields. This may be due to adjunctive tools, such as US, that help in precise injection and monitoring of subsequent changes [65]. To date, BoNT has shown promising treatment modalities in many fields, and further research will render more accurate injection techniques and versatile applications.

5. Concluding Remarks

There has been a global rise in the demand for non-invasive procedures to help patients rejuvenate and appear youthful. BoNT is now the most performed esthetic procedure in the world with various types of BoNT that have different properties out in the market. More practitioners are using BoNT and demand appropriate guidelines so that injections using BoNT can be performed safely and effectively for the treatment of dynamic rhytides and hypertrophic structures. This paper is a narrative review of the consensus statements of expert practitioners and the various literature on the injection points and techniques, highlighting both the Asian and Caucasian population separately. This paper can serve as a practical illustrative guide and reference for optimal, safe injection areas and effective doses for application of BoNT in the face and oral and maxillofacial area. One limitation of this study was that a single author extracted the data and a systematic meta-analysis was not performed, and therefore the risk of bias was not investigated. Larger consensus statements and dose-ranging systematic studies comparing female to male, Caucasian to Asian, and younger to older patients should be conducted in the future.

Footnotes

Disclaimer/Publisher’s Note: The statements, opinions and data contained in all publications are solely those of the individual author(s) and contributor(s) and not of MDPI and/or the editor(s). MDPI and/or the editor(s) disclaim responsibility for any injury to people or property resulting from any ideas, methods, instructions or products referred to in the content.

Enlarge this image.

Figure 1. Frontalis muscles. (A) Injection points (green dot), facial photographs (B) before injection, (C) after injection. FM, frontalis muscle; OOc, orbicularis oculi; CSM, corrugator supercilia.

Enlarge this image.

Figure 2. Glabella injection points. FM, frontalis muscle; OOc, orbicularis oculi; CSM, corrugator supercilia.

Enlarge this image.

Figure 3. Lateral canthal (A) injection points, (B) before injection, (C) after injection. FM, frontalis muscle; OOc, orbicularis oculi; CSM, corrugator supercilia.

Enlarge this image.

Figure 4. Infraorbital rhytides injection points. OOc, orbicularis oculi; CSM, corrugator supercilia.

Enlarge this image.

Figure 5. Bunny lines (A) injection points, (B) before injection, (C) after injection. LLSAN, levator labii superioris alaeque nasi; LLS, levator labii sup; Zmi, zygomaticus minor; CSM, corrugator supercilia.

Enlarge this image.

Figure 6. Gummy smile (A) injection points, (B) before injection, (C) after injection. LLSAN, Levator labii superioris alaeque nasi; LLS, Levator labii superioris; Zmi: zygomaticus minor; OOr: orbicularis oris, DAO: depressor anguli oris.

Enlarge this image.

Figure 7. Perioral rhytides injection points. OOR, orbicularis oris; DAO, depressor anguli oris; DLI, depressor labii inferioris.

Enlarge this image.

Figure 8. Masseter (A) injection points, (B) before injection, (C) after injection. Zmi, zygomaticus minor; ZMj, zygomaticus major; OOr, orbicularis oris; DAO, depressor anguli oris; DLI, depressor labii inferioris.

Enlarge this image.

Figure 9. Parotid gland injection points. Zmi, zygomaticus minor; ZMj, zygomaticus major; DAO, depressor anguli oris.

Enlarge this image.

Figure 10. Depressor anguli oris (DAO) (A) injection points, (B) before injection, (C) after injection. OOr, orbicularis oris; DAO, depressor anguli oris; DLI, depressor labii inferioris.

Enlarge this image.

Figure 11. Mentalis (A) injection points, (B) before injection, (C) after injection. OOr, orbicularis oris; DAO, depressor anguli oris; DLI, depressor labii inferioris.

Enlarge this image.

Figure 12. Ultrasonography imaging with outline of the muscle (yellow dotted line) (A) masseter, (B) masseter with needle tip (orange arrow).

Supplementary Materials

The following supporting information can be downloaded at: https://www.mdpi.com/article/10.3390/toxins15020082/s1, Table S1. List of 27 consensus recommendation papers retrieved for the literature review.

References

1. Liew, S.; Dart, A. Nonsurgical reshaping of the lower face. Aesthet. Surg. J.; 2008; 28, pp. 251-257. [DOI: https://dx.doi.org/10.1016/j.asj.2008.03.003] [PubMed: https://www.ncbi.nlm.nih.gov/pubmed/19083534]

2. Swift, A.; Remington, K. BeautiPHIcation™: A global approach to facial beauty. Clin. Plast. Surg.; 2011; 38, pp. 347-377. [DOI: https://dx.doi.org/10.1016/j.cps.2011.03.012]

3. Liew, S.; Wu, W.T.; Chan, H.H.; Ho, W.W.; Kim, H.J.; Goodman, G.J.; Peng, P.H.; Rogers, J.D. Consensus on changing trends, attitudes, and concepts of Asian beauty. Aesthet. Plast. Surg.; 2016; 40, pp. 193-201. [DOI: https://dx.doi.org/10.1007/s00266-015-0562-0]

4. Small, R. Botulinum toxin injection for facial wrinkles. Am. Fam. Physician; 2014; 90, pp. 168-175. [PubMed: https://www.ncbi.nlm.nih.gov/pubmed/25077722]

5. Zimbler, M.S.; Kokoska, M.S.; Thomas, J.R. Anatomy and pathophysiology of facial aging. Facial Plast. Surg. Clin. N. Am.; 2001; 9, pp. 179-187.

6. Gadhia, K.; Walmsley, A.D. Facial aesthetics: Is botulinum toxin treatment effective and safe? A systematic review of randomised controlled trials. Br. Dent. J.; 2009; 207, pp. E9; discussion 216–217. [DOI: https://dx.doi.org/10.1038/sj.bdj.2009.813]

7. Phan, K.; Younessi, S.; Dubin, D.; Lin, M.J.; Khorasani, H. Emerging off-label esthetic uses of botulinum toxin in dermatology. Dermatol. Ther.; 2022; 35, e15205. [DOI: https://dx.doi.org/10.1111/dth.15205]

8. Frevert, J. Pharmaceutical, biological, and clinical properties of botulinum neurotoxin type A products. Drugs R D; 2015; 15, pp. 1-9. [DOI: https://dx.doi.org/10.1007/s40268-014-0077-1]

9. Alster, T.S.; Harrison, I.S. Alternative clinical indications of botulinum toxin. Am. J. Clin. Derm.; 2020; 21, pp. 855-880. [DOI: https://dx.doi.org/10.1007/s40257-020-00532-0]

10. Serrera-Figallo, M.A.; Ruiz-de-León-Hernández, G.; Torres-Lagares, D.; Castro-Araya, A.; Torres-Ferrerosa, O.; Hernández-Pacheco, E.; Gutierrez-Perez, J.L. Use of Botulinum Toxin in Orofacial Clinical Practice. Toxins; 2020; 12, 112. [DOI: https://dx.doi.org/10.3390/toxins12020112]

11. Jankovic, J. Botulinum toxin: State of the art. Mov. Disord.; 2017; 32, pp. 1131-1138. [DOI: https://dx.doi.org/10.1002/mds.27072] [PubMed: https://www.ncbi.nlm.nih.gov/pubmed/28639368]

12. Benecke, R. Clinical relevance of botulinum toxin immunogenicity. BioDrugs; 2012; 26, pp. e1-e9. [DOI: https://dx.doi.org/10.2165/11599840-000000000-00000] [PubMed: https://www.ncbi.nlm.nih.gov/pubmed/22385408]

13. Arnon, S.S.; Schechter, R.; Inglesby, T.V.; Henderson, D.A.; Bartlett, J.G.; Ascher, M.S.; Eitzen, E.; Fine, A.D.; Hauer, J.; Layton, M. et al. Botulinum toxin as a biological weapon: Medical and public health management. JAMA; 2001; 285, pp. 1059-1070. [DOI: https://dx.doi.org/10.1001/jama.285.8.1059]

14. Rosales, R.L.; Bigalke, H.; Dressler, D. Pharmacology of botulinum toxin: Differences between type A preparations. Eur. J. Neurol.; 2006; 13, (Suppl. S1), pp. 2-10. [DOI: https://dx.doi.org/10.1111/j.1468-1331.2006.01438.x] [PubMed: https://www.ncbi.nlm.nih.gov/pubmed/16417591]

15. Choudhury, S.; Baker, M.R.; Chatterjee, S.; Kumar, H. Botulinum Toxin: An Update on Pharmacology and Newer Products in Development. Toxins; 2021; 13, 58. [DOI: https://dx.doi.org/10.3390/toxins13010058] [PubMed: https://www.ncbi.nlm.nih.gov/pubmed/33466571]

16. Zhang, S.; Masuyer, G.; Zhang, J.; Shen, Y.; Lundin, D.; Henriksson, L.; Miyashita, S.I.; Martínez-Carranza, M.; Dong, M.; Stenmark, P. Identification and characterization of a novel botulinum neurotoxin. Nat. Commun.; 2017; 8, 14130. [DOI: https://dx.doi.org/10.1038/ncomms14130] [PubMed: https://www.ncbi.nlm.nih.gov/pubmed/28770820]

17. Carruthers, A.; Carruthers, J. Botulinum toxin type A. J. Am. Acad. Derm.; 2005; 53, pp. 284-290. [DOI: https://dx.doi.org/10.1016/j.jaad.2005.03.060] [PubMed: https://www.ncbi.nlm.nih.gov/pubmed/16021124]

18. Rao, A.K.; Sobel, J.; Chatham-Stephens, K.; Luquez, C. Clinical guidelines for diagnosis and treatment of botulism, 2021. MMWR Recomm. Rep.; 2021; 70, pp. 1-30. [DOI: https://dx.doi.org/10.15585/mmwr.rr7002a1] [PubMed: https://www.ncbi.nlm.nih.gov/pubmed/33956777]

19. Jaspers, G.W.; Pijpe, J.; Jansma, J. The use of botulinum toxin type A in cosmetic facial procedures. Int. J. Oral Maxillofac. Surg.; 2011; 40, pp. 127-133. [DOI: https://dx.doi.org/10.1016/j.ijom.2010.09.014] [PubMed: https://www.ncbi.nlm.nih.gov/pubmed/20965695]

20. Kwon, K.H.; Shin, K.S.; Yeon, S.H.; Kwon, D.G. Application of botulinum toxin in maxillofacial field: Part I. Bruxism and square jaw. Maxillofac. Plast. Reconstr. Surg.; 2019; 41, 38. [DOI: https://dx.doi.org/10.1186/s40902-019-0218-0] [PubMed: https://www.ncbi.nlm.nih.gov/pubmed/31649901]

21. Chang, C.S.; Bergeron, L.; Yu, C.C.; Chen, P.K.; Chen, Y.R. Mandible changes evaluated by computed tomography following Botulinum Toxin A injections in square-faced patients. Aesthet. Plast. Surg.; 2011; 35, pp. 452-455. [DOI: https://dx.doi.org/10.1007/s00266-010-9624-5] [PubMed: https://www.ncbi.nlm.nih.gov/pubmed/21103871]

22. Majid, O.W. Clinical use of botulinum toxins in oral and maxillofacial surgery. Int. J. Oral Maxillofac. Surg.; 2010; 39, pp. 197-207. [DOI: https://dx.doi.org/10.1016/j.ijom.2009.10.022] [PubMed: https://www.ncbi.nlm.nih.gov/pubmed/19959337]

23. Schantz, E.J.; Johnson, E.A. Properties and use of botulinum toxin and other microbial neurotoxins in medicine. Microbiol. Rev.; 1992; 56, pp. 80-99. [DOI: https://dx.doi.org/10.1128/mr.56.1.80-99.1992] [PubMed: https://www.ncbi.nlm.nih.gov/pubmed/1579114]

24. Scott, A.B. Botulinum toxin injection into extraocular muscles as an alternative to strabismus surgery. Ophthalmology; 1980; 87, pp. 1044-1049. [DOI: https://dx.doi.org/10.1016/S0161-6420(80)35127-0]

25. Carruthers, J.; Carruthers, A. Botulinum toxin in facial rejuvenation: An update. Derm. Clin.; 2009; 27, pp. 417-425. [DOI: https://dx.doi.org/10.1016/j.det.2009.08.001]

26. Muñoz Lora, V.R.M.; Del Bel Cury, A.A.; Jabbari, B.; Lacković, Z. Botulinum toxin type A in dental medicine. J. Dent. Res.; 2019; 98, pp. 1450-1457. [DOI: https://dx.doi.org/10.1177/0022034519875053]

27. Ahn, B.K.; Kim, Y.S.; Kim, H.J.; Rho, N.K.; Kim, H.S. Consensus recommendations on the aesthetic usage of botulinum toxin type A in Asians. Derm. Surg.; 2013; 39, pp. 1843-1860. [DOI: https://dx.doi.org/10.1111/dsu.12317]

28. Sundaram, H.; Huang, P.H.; Hsu, N.J.; Huh, C.H.; Wu, W.T.; Wu, Y.; Cassuto, D.; Kerscher, M.J.; Seo, K.K. Aesthetic applications of botulinum toxin A in Asians: An international, multidisciplinary, Pan-Asian consensus. Plast. Reconstr. Surg. Glob. Open; 2016; 4, e872. [DOI: https://dx.doi.org/10.1097/GOX.0000000000000507]

29. Kapoor, K.M.; Chatrath, V.; Anand, C.; Shetty, R.; Chhabra, C.; Singh, K.; Vedamurthy, M.; Pai, J.; Sthalekar, B.; Sheth, R. Consensus recommendations for treatment strategies in Indians using botulinum toxin and Hyaluronic Acid fillers. Plast. Reconstr. Surg. Glob. Open; 2017; 5, e1574. [DOI: https://dx.doi.org/10.1097/GOX.0000000000001574]

30. Wu, W.T.; Liew, S.; Chan, H.H.; Ho, W.W.; Supapannachart, N.; Lee, H.K.; Prasetyo, A.; Yu, J.N.; Rogers, J.D. Consensus on current injectable treatment strategies in the Asian face. Aesthet. Plast. Surg.; 2016; 40, pp. 202-214. [DOI: https://dx.doi.org/10.1007/s00266-016-0608-y]

31. Fagien, S.; Raspaldo, H. Facial rejuvenation with botulinum neurotoxin: An anatomical and experiential perspective. J. Cosmet. Laser Ther.; 2007; 9, (Suppl. S1), pp. 23-31. [DOI: https://dx.doi.org/10.1080/17429590701523836] [PubMed: https://www.ncbi.nlm.nih.gov/pubmed/17885883]

32. Bertossi, D.; Cavallini, M.; Cirillo, P.; Piero Fundarò, S.; Quartucci, S.; Sciuto, C.; Tonini, D.; Trocchi, G.; Signorini, M. Italian consensus report on the aesthetic use of onabotulinum toxin A. J. Cosmet. Derm.; 2018; 17, pp. 719-730. [DOI: https://dx.doi.org/10.1111/jocd.12729] [PubMed: https://www.ncbi.nlm.nih.gov/pubmed/30091253]

33. Carruthers, J.; Fagien, S.; Matarasso, S.L. Consensus recommendations on the use of botulinum toxin type a in facial aesthetics. Plast. Reconstr. Surg.; 2004; 114, (Suppl. S6), pp. 1s-22s. [DOI: https://dx.doi.org/10.1097/01.PRS.0000144795.76040.D3] [PubMed: https://www.ncbi.nlm.nih.gov/pubmed/15507786]

34. Carruthers, J.D.A.; Glogau, R.G.; Blitzer, A. Advances in facial rejuvenation: Botulinum toxin type a, hyaluronic acid dermal fillers, and combination therapies—Consensus recommendations. Plast. Reconstr. Surg.; 2008; 121, (Suppl. S5), pp. 5s-30s. [DOI: https://dx.doi.org/10.1097/PRS.0b013e31816de8d0] [PubMed: https://www.ncbi.nlm.nih.gov/pubmed/18449026]

35. Carruthers, J.; Fournier, N.; Kerscher, M.; Ruiz-Avila, J.; Trindade de Almeida, A.R.; Kaeuper, G. The convergence of medicine and neurotoxins: A focus on botulinum toxin type A and its application in aesthetic medicine—A global, evidence-based botulinum toxin consensus education initiative: Part II: Incorporating botulinum toxin into aesthetic clinical practice. Dermatol. Surg.; 2013; 39, Pt 2, pp. 510-525.

36. Raspaldo, H.; Gassia, V.; Niforos, F.R.; Michaud, T. Global, 3-dimensional approach to natural rejuvenation: Part 1—Recommendations for volume restoration and the periocular area. J. Cosmet. Derm.; 2012; 11, pp. 279-289. [DOI: https://dx.doi.org/10.1111/jocd.12003]

37. Gassia, V.; Raspaldo, H.; Niforos, F.R.; Michaud, T. Global 3-dimensional approach to natural rejuvenation: Recommendations for perioral, nose, and ear rejuvenation. J. Cosmet. Derm.; 2013; 12, pp. 123-136. [DOI: https://dx.doi.org/10.1111/jocd.12035]

38. Raspaldo, H.; Niforos, F.R.; Gassia, V.; Dallara, J.M.; Bellity, P.; Baspeyras, M.; Belhaouari, L.; Group, C. Lower-face and neck antiaging treatment and prevention using onabotulinumtoxin A: The 2010 multidisciplinary French consensus—Part 2. J. Cosmet. Dermatol.; 2011; 10, pp. 131-149. [DOI: https://dx.doi.org/10.1111/j.1473-2165.2011.00560.x]

39. Raspaldo, H.; Baspeyras, M.; Bellity, P.; Dallara, J.M.; Gassia, V.; Niforos, F.R.; Belhaouari, L. Upper- and mid-face anti-aging treatment and prevention using onabotulinumtoxin A: The 2010 multidisciplinary French consensus—Part 1. J. Cosmet. Dermatol.; 2011; 10, pp. 36-50. [DOI: https://dx.doi.org/10.1111/j.1473-2165.2010.00544.x]

40. Ascher, B.; Talarico, S.; Cassuto, D.; Escobar, S.; Hexsel, D.; Jaén, P.; Monheit, G.D.; Rzany, B.; Viel, M. International consensus recommendations on the aesthetic usage of botulinum toxin type A (Speywood Unit)—Part II: Wrinkles on the middle and lower face, neck and chest. J. Eur. Acad. Derm. Venereol.; 2010; 24, pp. 1285-1295. [DOI: https://dx.doi.org/10.1111/j.1468-3083.2010.03728.x]

41. Kane, M.; Donofrio, L.; Ascher, B.; Hexsel, D.; Monheit, G.; Rzany, B.; Weiss, R. Expanding the use of neurotoxins in facial aesthetics: A consensus panel’s assessment and recommendations. J. Drugs Derm.; 2010; 9, (Suppl. S1), pp. s7-s22. quiz s23–s25

42. Ascher, B.; Talarico, S.; Cassuto, D.; Escobar, S.; Hexsel, D.; Jaén, P.; Monheit, G.D.; Rzany, B.; Viel, M. International consensus recommendations on the aesthetic usage of botulinum toxin type A (Speywood Unit)—Part I: Upper facial wrinkles. J. Eur. Acad. Derm. Venereol.; 2010; 24, pp. 1278-1284. [DOI: https://dx.doi.org/10.1111/j.1468-3083.2010.03631.x] [PubMed: https://www.ncbi.nlm.nih.gov/pubmed/20337830]

43. Yutskovskaya, Y.; Gubanova, E.; Khrustaleva, I.; Atamanov, V.; Saybel, A.; Parsagashvili, E.; Dmitrieva, I.; Sanchez, E.; Lapatina, N.; Korolkova, T. et al. IncobotulinumtoxinA in aesthetics: Russian multidisciplinary expert consensus recommendations. Clin. Cosmet. Investig. Derm.; 2015; 8, pp. 297-306.

44. Maas, C.; Kane, M.A.; Bucay, V.W.; Allen, S.; Applebaum, D.J.; Baumann, L.; Cox, S.E.; Few, J.W.; Joseph, J.H.; Lorenc, Z.P. et al. Current aesthetic use of abobotulinumtoxinA in clinical practice: An evidence-based consensus review. Aesthet. Surg. J.; 2012; 32, (Suppl. S1), pp. 8s-29s. [DOI: https://dx.doi.org/10.1177/1090820X12455192]

45. Imhof, M.; Podda, M.; Sommer, B. S1 guideline aesthetic botulinum toxin therapy. J. Dtsch. Derm. Ges.; 2013; 11, pp. e1-e13. [DOI: https://dx.doi.org/10.1111/ddg.12195]

46. Lorenc, Z.P.; Kenkel, J.M.; Fagien, S.; Hirmand, H.; Nestor, M.S.; Sclafani, A.P.; Sykes, J.M.; Waldorf, H.A. Consensus panel’s assessment and recommendations on the use of 3 botulinum toxin type A products in facial aesthetics. Aesthet. Surg. J.; 2013; 33, (Suppl. S1), pp. 35s-40s.

47. Sundaram, H.; Signorini, M.; Liew, S.; Trindade de Almeida, A.R.; Wu, Y.; Vieira Braz, A.; Fagien, S.; Goodman, G.J.; Monheit, G.; Raspaldo, H. Global Aesthetics Consensus: Botulinum Toxin Type A—Evidence-Based Review, Emerging Concepts, and Consensus Recommendations for Aesthetic Use, Including Updates on Complications. Plast. Reconstr. Surg.; 2016; 137, pp. 518e-529e. [DOI: https://dx.doi.org/10.1097/01.prs.0000475758.63709.23]

48. Sundaram, H.; Liew, S.; Signorini, M.; Vieira Braz, A.; Fagien, S.; Swift, A.; De Boulle, K.L.; Raspaldo, H.; Trindade de Almeida, A.R.; Monheit, G. Global aesthetics consensus: Hyaluronic Acid billers and botulinum toxin type A-recommendations for combined treatment and optimizing outcomes in diverse patient populations. Plast. Reconstr. Surg.; 2016; 137, pp. 1410-1423. [DOI: https://dx.doi.org/10.1097/PRS.0000000000002119]

49. De Maio, M.; Swift, A.; Signorini, M.; Fagien, S. Facial assessment and injection guide for botulinum toxin and injectable Hyaluronic Acid fillers: Focus on the upper Face. Plast. Reconstr. Surg.; 2017; 140, pp. 265e-276e. [DOI: https://dx.doi.org/10.1097/PRS.0000000000003544]

50. De Maio, M.; DeBoulle, K.; Braz, A.; Rohrich, R.J. Facial Assessment and Injection Guide for Botulinum toxin and injectable Hyaluronic Acid fillers: Focus on the midface. Plast. Reconstr. Surg.; 2017; 140, pp. 540e-550e. [DOI: https://dx.doi.org/10.1097/PRS.0000000000003716]

51. De Maio, M.; Wu, W.T.L.; Goodman, G.J.; Monheit, G. Facial assessment and injection guide for botulinum toxin and injectable Hyaluronic Acid fillers: Focus on the lower face. Plast. Reconstr. Surg.; 2017; 140, pp. 393e-404e. [DOI: https://dx.doi.org/10.1097/PRS.0000000000003646] [PubMed: https://www.ncbi.nlm.nih.gov/pubmed/28841604]

52. Kaminer, M.S.; Cox, S.E.; Fagien, S.; Kaufman, J.; Lupo, M.P.; Shamban, A. Re-examining the optimal use of neuromodulators and the changing landscape: A consensus panel update. J. Drugs Derm.; 2020; 19, pp. s5-s15.

53. Signorini, M.; Piero Fundarò, S.; Bertossi, D.; Cavallini, M.; Cirillo, P.; Natuzzi, G.; Quartucci, S.; Sciuto, C.; Patalano, M.; Trocchi, G. OnabotulinumtoxinA from lines to facial reshaping: A new Italian consensus report. J. Cosmet. Derm.; 2022; 21, pp. 550-563. [DOI: https://dx.doi.org/10.1111/jocd.14728] [PubMed: https://www.ncbi.nlm.nih.gov/pubmed/35060310]

54. Camargo, C.P.; Xia, J.; Costa, C.S.; Gemperli, R.; Tatini, M.D.; Bulsara, M.K.; Riera, R. Botulinum toxin type A for facial wrinkles. Cochrane Database Syst. Rev.; 2021; 7, 011301.

55. Janes, L.E.; Connor, L.M.; Moradi, A.; Alghoul, M. Current use of cosmetic toxins to improve facial aesthetics. Plast. Reconstr. Surg.; 2021; 147, pp. 644e-657e. [DOI: https://dx.doi.org/10.1097/PRS.0000000000007762]

56. Kim, H.-J.; Seo, K.K.; Lee, H.-K.; Kim, J. Clinical anatomy for botulinum toxin injection. Clinical Anatomy of the Face for Filler and Botulinum Toxin Injection; Springer: Singapore, 2016; pp. 55-92.

57. Klein, A.W. Complications, adverse reactions, and insights with the use of botulinum toxin. Derm. Surg.; 2003; 29, pp. 549-556.

58. Kwon, K.H.; Shin, K.S.; Yeon, S.H.; Kwon, D.G. Application of botulinum toxin in maxillofacial field: Part II. Wrinkle, intraoral ulcer, and cranio-maxillofacial pain. Maxillofac. Plast. Reconstr. Surg.; 2019; 41, 42. [DOI: https://dx.doi.org/10.1186/s40902-019-0224-2]

59. Pirazzini, M.; Rossetto, O.; Eleopra, R.; Montecucco, C. Botulinum Neurotoxins: Biology, Pharmacology, and Toxicology. Pharm. Rev.; 2017; 69, pp. 200-235. [DOI: https://dx.doi.org/10.1124/pr.116.012658]

60. Frevert, J.; Ahn, K.Y.; Park, M.Y.; Sunga, O. Comparison of botulinum neurotoxin type A formulations in Asia. Clin. Cosmet. Investig. Dermatol.; 2018; 11, pp. 327-331. [DOI: https://dx.doi.org/10.2147/CCID.S160723]

61. Solish, N.; Carruthers, J.; Kaufman, J.; Rubio, R.G.; Gross, T.M.; Gallagher, C.J. Overview of DaxibotulinumtoxinA for injection: A novel formulation of botulinum toxin type A. Drugs; 2021; 81, pp. 2091-2101. [DOI: https://dx.doi.org/10.1007/s40265-021-01631-w]

62. Inoue, K.; Fujinaga, Y.; Watanabe, T.; Ohyama, T.; Takeshi, K.; Moriishi, K.; Nakajima, H.; Inoue, K.; Oguma, K. Molecular composition of Clostridium botulinum type A progenitor toxins. Infect. Immun.; 1996; 64, pp. 1589-1594. [DOI: https://dx.doi.org/10.1128/iai.64.5.1589-1594.1996] [PubMed: https://www.ncbi.nlm.nih.gov/pubmed/8613365]

63. Goodnough, M.C.; Johnson, E.A. Stabilization of botulinum toxin type A during lyophilization. Appl. Environ. Microbiol.; 1992; 58, pp. 3426-3428. [DOI: https://dx.doi.org/10.1128/aem.58.10.3426-3428.1992] [PubMed: https://www.ncbi.nlm.nih.gov/pubmed/1444378]

64. Dover, J.S.; Monheit, G.; Greener, M.; Pickett, A. Botulinum toxin in aesthetic medicine: Myths and realities. Dermatol. Surg.; 2018; 44, pp. 249-260. [DOI: https://dx.doi.org/10.1097/DSS.0000000000001277] [PubMed: https://www.ncbi.nlm.nih.gov/pubmed/29016535]

65. Kim, H.-J.; Youn, K.-H.; Kim, J.-S.; Kim, Y.S.; Hong, S.O.; Na, J. US applications in botulinum toxin injection procedures. Ultrasonographic Anatomy of the Face and Neck for Minimally Invasive Procedures: An Anatomic Guideline for Ultrasonographic-Guided Procedures; Springer: Singapore, 2021; pp. 215-241.

66. Kim, H.-J.; Youn, K.-H.; Kim, J.-S.; Kim, Y.S.; Hong, S.O.; Na, J. General US anatomy of the face and neck. Ultrasonographic Anatomy of the Face and Neck for Minimally Invasive Procedures: An Anatomic Guideline for Ultrasonographic-Guided Procedures; Springer: Singapore, 2021; pp. 25-73.

67. Gart, M.S.; Gutowski, K.A. Overview of botulinum toxins for aesthetic uses. Clin. Plast. Surg.; 2016; 43, pp. 459-471. [DOI: https://dx.doi.org/10.1016/j.cps.2016.03.003]

68. Kokich, V.O.; Kokich, V.G.; Kiyak, H.A. Perceptions of dental professionals and laypersons to altered dental esthetics: Asymmetric and symmetric situations. Am. J. Orthod. Dentofac. Orthop.; 2006; 130, pp. 141-151. [DOI: https://dx.doi.org/10.1016/j.ajodo.2006.04.017] [PubMed: https://www.ncbi.nlm.nih.gov/pubmed/16905057]

69. Hong, S.O.; Baek, S.H.; Choi, J.Y. Physical therapy for smile improvement after orthognathic Surgery. J. Craniofac. Surg.; 2017; 28, pp. 422-426. [DOI: https://dx.doi.org/10.1097/SCS.0000000000003099]

70. Mazzuco, R.; Hexsel, D. Gummy smile and botulinum toxin: A new approach based on the gingival exposure area. J. Am. Acad. Derm.; 2010; 63, pp. 1042-1051. [DOI: https://dx.doi.org/10.1016/j.jaad.2010.02.053]

71. Hwang, W.S.; Hur, M.S.; Hu, K.S.; Song, W.C.; Koh, K.S.; Baik, H.S.; Kim, S.T.; Kim, H.J.; Lee, K.J. Surface anatomy of the lip elevator muscles for the treatment of gummy smile using botulinum toxin. Angle Orthod.; 2009; 79, pp. 70-77. [DOI: https://dx.doi.org/10.2319/091407-437.1] [PubMed: https://www.ncbi.nlm.nih.gov/pubmed/19123705]

72. Kundu, N.; Kothari, R.; Shah, N.; Sandhu, S.; Tripathy, D.M.; Galadari, H.; Gold, M.H.; Goldman, M.P.; Kassir, M.; Schepler, H. et al. Efficacy of botulinum toxin in masseter muscle hypertrophy for lower face contouring. J. Cosmet. Derm.; 2022; 21, pp. 1849-1856. [DOI: https://dx.doi.org/10.1111/jocd.14858] [PubMed: https://www.ncbi.nlm.nih.gov/pubmed/35176198]

73. Kroumpouzos, G.; Kassir, M.; Gupta, M.; Patil, A.; Goldust, M. Complications of botulinum toxin, A. An update review. J. Cosmet. Derm.; 2021; 20, pp. 1585-1590. [DOI: https://dx.doi.org/10.1111/jocd.14160]

74. Park, H.J.; Hong, S.O.; Kim, H.M.; Oh, W.; Kim, H.J. Positional deformation of the parotid gland: Application to minimally invasive procedures. Clin. Anat.; 2022; 35, pp. 1147-1151. [DOI: https://dx.doi.org/10.1002/ca.23941] [PubMed: https://www.ncbi.nlm.nih.gov/pubmed/35879807]

75. Teymoortash, A.; Sommer, F.; Mandic, R.; Schulz, S.; Bette, M.; Aumüller, G.; Werner, J.A. Intraglandular application of botulinum toxin leads to structural and functional changes in rat acinar cells. Br. J. Pharm.; 2007; 152, pp. 161-167. [DOI: https://dx.doi.org/10.1038/sj.bjp.0707375] [PubMed: https://www.ncbi.nlm.nih.gov/pubmed/17618309]

76. Ondo, W.G.; Hunter, C.; Moore, W. A double-blind placebo-controlled trial of botulinum toxin B for sialorrhea in Parkinson’s disease. Neurology; 2004; 62, pp. 37-40. [DOI: https://dx.doi.org/10.1212/01.WNL.0000101713.81253.4C] [PubMed: https://www.ncbi.nlm.nih.gov/pubmed/14718694]

77. Jackson, C.E.; Gronseth, G.; Rosenfeld, J.; Barohn, R.J.; Dubinsky, R.; Simpson, C.B.; McVey, A.; Kittrell, P.P.; King, R.; Herbelin, L. Randomized double-blind study of botulinum toxin type B for sialorrhea in ALS patients. Muscle Nerve; 2009; 39, pp. 137-143. [DOI: https://dx.doi.org/10.1002/mus.21213]

78. Kim, H.-J.; Youn, K.-H.; Kim, J.-S.; Kim, Y.S.; Hong, S.O.; Na, J. US Applications in filler injection procedures. Ultrasonographic Anatomy of the Face and Neck for Minimally Invasive Procedures: An Anatomic Guideline for Ultrasonographic-Guided Procedures; Springer: Singapore, 2021; pp. 243-264.

79. Kim, H.-J.; Youn, K.-H.; Kim, J.-S.; Kim, Y.S.; Hong, S.O.; Na, J. US applications in thread lifting procedures. Ultrasonographic Anatomy of the Face and Neck for Minimally Invasive Procedures: An Anatomic Guideline for Ultrasonographic-Guided Procedures; Springer: Singapore, 2021; pp. 265-274.

80. Lee, H.J.; Kim, J.S.; Youn, K.H.; Lee, J.; Kim, H.J. Ultras.sound-guided botulinum neurotoxin type A injection for correcting asymmetrical smiles. Aesthet. Surg. J.; 2018; 38, pp. 130-134. [DOI: https://dx.doi.org/10.1093/asj/sjy128]

81. Kim, D.; Park, J.H.; Favero, V.; Mah, J.; Jung, Y.S.; Kim, S.T. Effect of botulinum toxin injection on asymmetric lower face with chin deviation. Toxins; 2020; 12, 456. [DOI: https://dx.doi.org/10.3390/toxins12070456]

82. Wollina, U.; Konrad, H. Managing adverse events associated with botulinum toxin type A: A focus on cosmetic procedures. Am. J. Clin. Derm.; 2005; 6, pp. 141-150. [DOI: https://dx.doi.org/10.2165/00128071-200506030-00001]

83. Zargaran, D.; Zoller, F.; Zargaran, A.; Rahman, E.; Woollard, A.; Weyrich, T.; Mosahebi, A. Complications of cosmetic botulinum toxin A injections to the upper face: A systematic review and meta-analysis. Aesthet. Surg. J.; 2022; 42, pp. 327-336. [DOI: https://dx.doi.org/10.1093/asj/sjac036]

84. Sethi, N.; Singh, S.; DeBoulle, K.; Rahman, E. A review of Complications due to the use of botulinum toxin A for cosmetic indications. Aesthet. Plast. Surg.; 2021; 45, pp. 1210-1220. [DOI: https://dx.doi.org/10.1007/s00266-020-01983-w]

85. Galadari, H.; Galadari, I.; Smit, R.; Prygova, I.; Redaelli, A. Use of AbobotulinumtoxinA for cosmetic treatments in the neck, and middle and lower areas of the face: A systematic review. Toxins; 2021; 13, 169. [DOI: https://dx.doi.org/10.3390/toxins13020169]

86. Wang, L.; Sun, Y.; Yang, W.; Lindo, P.; Singh, B.R. Type A botulinum neurotoxin complex proteins differentially modulate host response of neuronal cells. Toxicon; 2014; 82, pp. 52-60. [DOI: https://dx.doi.org/10.1016/j.toxicon.2014.02.004]

87. Wee, S.Y.; Park, E.S. Immunogenicity of botulinum toxin. Arch. Plast. Surg.; 2022; 49, pp. 12-18. [DOI: https://dx.doi.org/10.5999/aps.2021.00766] [PubMed: https://www.ncbi.nlm.nih.gov/pubmed/35086302]

88. Albrecht, P.; Jansen, A.; Lee, J.I.; Moll, M.; Ringelstein, M.; Rosenthal, D.; Bigalke, H.; Aktas, O.; Hartung, H.P.; Hefter, H. High prevalence of neutralizing antibodies after long-term botulinum neurotoxin therapy. Neurology; 2019; 92, pp. e48-e54. [DOI: https://dx.doi.org/10.1212/WNL.0000000000006688] [PubMed: https://www.ncbi.nlm.nih.gov/pubmed/30464031]

89. Wu, Y.; Wang, G.; Li, C.; Mao, C.; Lei, X.; Lee, E. Safety and Efficacy of OnabotulinumtoxinA for Treatment of Crow’s Feet Lines in Chinese Subjects. Plast. Reconstr. Surg. Glob. Open; 2019; 7, e2079. [DOI: https://dx.doi.org/10.1097/GOX.0000000000002079] [PubMed: https://www.ncbi.nlm.nih.gov/pubmed/30859038]

90. Moers-Carpi, M.; Dirschka, T.; Feller-Heppt, G.; Hilton, S.; Hoffmann, K.; Philipp-Dormston, W.G.; Rütter, A.; Tan, K.; Chapman, M.A.; Fulford-Smith, A. A randomised, double-blind comparison of 20 units of onabotulinumtoxinA with 30 units of incobotulinumtoxinA for glabellar lines. J. Cosmet. Laser Ther.; 2012; 14, pp. 296-303. [DOI: https://dx.doi.org/10.3109/14764172.2012.738913] [PubMed: https://www.ncbi.nlm.nih.gov/pubmed/23057624]

91. Ascher, B.; Kestemont, P.; Boineau, D.; Bodokh, I.; Stein, A.; Heckmann, M.; Dendorfer, M.; Pavicic, T.; Volteau, M.; Tse, A. et al. Liquid formulation of AbobotulinumtoxinA exhibits a favorable efficacy and safety profile in moderate to severe glabellar Lines: A randomized, double-blind, placebo- and active comparator-controlled trial. Aesthet. Surg. J.; 2018; 38, pp. 183-191. [DOI: https://dx.doi.org/10.1093/asj/sjw272]

92. Carruthers, A.; Carruthers, J. A single-center, dose-comparison, pilot study of botulinum neurotoxin type A in female patients with upper facial rhytids: Safety and efficacy. J. Am. Acad. Derm.; 2009; 60, pp. 972-979. [DOI: https://dx.doi.org/10.1016/j.jaad.2009.01.005]

93. Kerscher, M.; Rzany, B.; Prager, W.; Turnbull, C.; Trevidic, P.; Inglefield, C. Efficacy and safety of IncobotulinumtoxinA in the Treatment of Upper Facial Lines: Results From a randomized, double-blind, placebo-controlled, phase III study. Derm. Surg.; 2015; 41, pp. 1149-1157. [DOI: https://dx.doi.org/10.1097/DSS.0000000000000450]

94. Cheon, H.I.; Jung, N.; Won, C.H.; Kim, B.J.; Lee, Y.W. Efficacy and safety of Prabotulinumtoxin A and Onabotulinumtoxin A for Crow’s feet: A phase 3, multicenter, randomized, double-blind, split-face study. Derm. Surg.; 2019; 45, pp. 1610-1619. [DOI: https://dx.doi.org/10.1097/DSS.0000000000001920]

95. Carruthers, J.; Carruthers, A.; Monheit, G.D.; Davis, P.G. Multicenter, randomized, parallel-group study of onabotulinumtoxinA and hyaluronic acid dermal fillers (24-mg/ml smooth, cohesive gel) alone and in combination for lower facial rejuvenation: Satisfaction and patient-reported outcomes. Dermatol. Surg.; 2010; 36, (Suppl. S4), pp. 2135-2145. [DOI: https://dx.doi.org/10.1111/j.1524-4725.2010.01797.x]

96. Cohen, J.L.; Dayan, S.H.; Cox, S.E.; Yalamanchili, R.; Tardie, G. OnabotulinumtoxinA dose-ranging study for hyperdynamic perioral lines. Derm. Surg.; 2012; 38, pp. 1497-1505. [DOI: https://dx.doi.org/10.1111/j.1524-4725.2012.02456.x] [PubMed: https://www.ncbi.nlm.nih.gov/pubmed/22621180]

97. Kandhari, R.; Imran, A.; Sethi, N.; Rahman, E.; Mosahebi, A. Onabotulinumtoxin Type A Dosage for upper face expression lines in males: A systematic review of current recommendations. Aesthet. Surg. J.; 2021; 41, pp. 1439-1453. [DOI: https://dx.doi.org/10.1093/asj/sjab015] [PubMed: https://www.ncbi.nlm.nih.gov/pubmed/33532814]