CHAP-Hyaluronic Acid (CHAP-HA) Filler as an Optimal Candidate for Forehead Filler Augmentation Using a 3-Point Injection Technique

Minimally invasive forehead augmentation is becoming increasingly popular in Asia. However, treatment of the glabella is associated with injection-related complications. The safety of injections can be increased through a thorough understanding of the anatomy and precise injection planes. The authors pro-pose a 3-point injection technique for forehead augmentation in Asian patients that uses CHAP-hyaluronic acid (CHAP-HA) filler. The longevity of the filler was assessed using high-resolution ultrasound (HRU) imaging. Fif-teen patients were examined using HRU before and immediately after treatment and at 1 month, 3 months, 6 months, and 12 months. As evident in HRU imaging, CHAP-HA remained visible within surrounding tissue for 6.4 ± 3.7 months. The mean Global Aesthetic Improvement Scale rating was 2.4 ± 0.5 immediately after treatment, 2.8 ± 0.3 at 1 month, 2.7 ± 0.5 at 3 months, 2.1 ± 0.6 at 6 months, and 1.5 ± 0.6 at 12 months. Minimal side effects were reported. The authors demonstrated that CHAP-HA filler may be an optimal candidate for forehead filler augmentation using a 3-point injection technique.


Introduction
The American Society of Plastic Surgeons reported an increasing demand for How to cite this paper: Lee minimally invasive cosmetic procedures in the facial area [1]. Among such procedures, forehead augmentation is increasingly popular in Asia. However, forehead augmentation involving the glabellar region may result in severe complications caused by inadvertent intravascular injection of filler [2] [3]. Knowledge of forehead anatomy and precise injection planes can minimize risk [2] [4]. On review of literature, various materials such as hyaluronic acid (HA) fillers, autologous fat, calcium hydroxyapatite have been used, and various techniques had been proposed [3] [4] [5] [6] [7]. Nonetheless, there is no consensus on injection technique for safe forehead augmentation. For injections into the glabella, Phumyoo et al. suggested a safe technique based on topography, a thorough understanding of arterial distribution, and color Doppler ultrasonographic examination before injection to minimize the risk of severe complications [2]. Kim proposed a novel forehead classification system based on East Asian ethnicity and suggested that first injecting a tumescent solution and then using a minimal number of entry points for the injection of filler reduces the risk of embolization [5].

Aim
The purpose of this observational study was to determine the safety, clinical tolerability, clinical outcome, and longevity of CHAP-hyaluronic acid (CHAP-HA) filler when using a 3-point injection technique for forehead augmentation. The authors previously demonstrated that high-resolution ultrasound (HRU) allows for the localization of filler injection planes and the study of HA-tissue reactions [8] [9]. In this study, HRU was used to assess the longevity of CHAP-HA in 15 patients followed up for 12 months. The aesthetic outcome and side effects of the patients were recorded. The study found the proposed technique of using durable filler material to be relatively safe and capable of achieving optimal tissue integration in minimally invasive forehead augmentation.

Material
The CHAP-HA filler, part of the HYADERMIS product line (SciVision Biotech Inc., Taiwan), is composed of bacterium-derived nonanimal stabilized HA with a homologous particle consistency that uses a cross-linked technology called "CHAP", which accounts for its longevity. Clinically, HYADERMIS Blink is generally injected into the superficial dermis layer to improve fine lines. HYADERMIS Kiss is injected into the middle dermis layer to correct wrinkles or for lip augmentation, and HYADERMIS Smile is injected into the deep dermis for contouring [4] [5]. HYADERMIS Chic is injected into the subcutaneous layer or as deep as the periosteum layer to achieve volumization, contouring, and lifting. In our study, 4 syringes filled with 1 mL of HYADERMIS Blink were used to perform forehead augmentation in each subject by using a 3-point injection technique.

Patients
Between August 2019 and December 2020, 15 healthy nonpregnant Asian women who had never received a dermal filler injection or forehead aesthetic treatment (including botulinum toxin injections) were enrolled. Patients with a treatment area with scarring, dermatitis, or open wounds and those with a history of major disease, diabetes mellitus, HIV infection, connective tissue disease, or malignant disease were excluded. Those who had recently (within 3 months) received aesthetic laser/chemical peeling treatment or were using medication that disrupts coagulation (e.g., aspirin, NSAIDs, warfarin) were also excluded. All the patients provided written informed consent. Approval of publication of photographic materials was also obtained. Photographic assessments were made before and immediately after the treatment and at 1 month (visit 1), 3 months (visit 2), 6 months (visit 3), and 12 months (visit 4). Using photographs, physicians at each visit used the Global Aesthetic Improvement Scale (GAIS) to conduct evaluations of the efficacy (3 = very much improved, 2 = much improved, 1 = improved, 0 = no change, −1 = worse). Before and after injection, ultrasound imaging was performed to confirm the depth of injection. HRU visualization (Toshiba Xario), using a 12-5 MHz linear transducer, was performed before and immediately after HA filler injection by a single operator. Images capturing the location, size, and shape of the HA after injection and at 1 month, 3 months, 6 months, and 12 months follow-up were obtained.

Preparation and Treatment
When injecting filler, the distribution of the arteries should be taken into consideration. The vascular relationship between the angular artery, supratrochlear artery, and supraorbital artery form a rich and inconsistent arterial plexus in the glabellar region, and, through their direct connection to the ocular artery, they form a more direct pathway to the central retinal artery [10] [11]. In our study, the forehead was divided into one central compartment and two lateral compartments (temporal areas; Figure 1).
The treatment consisted of the following steps: 1) Tumescent solution (TS) preparation: 0.8 mL of normal saline was mixed with 0.2 mL of 2% lidocaine HCl with epinephrine 1:50,000 into a solution containing 0.04% lidocaine with epinephrine 1:250,000.
2) Injection of TS: After antisepsis, a 23G introducer needle is used to create an entry point. A 23G or 25G blunt cannula was then inserted into the puncture site and maneuvered along the natural planes of skin tissue, while consecutively injecting 1 mL of the TS (0.5 mL on each side) into the deep tissue area. The midline entry point was chosen to avoid the glabellar area, and we aimed for it to be 2 -2.5 cm above the horizontal glabellar line (Figure 1(a)) to avoid the potential arteries.

Results
In all, 15 patients completed the study (women, mean age 42.1 ± 8.7 years).
Clinically visible results persisted for up to 12 months (Figure 2). Corresponding HRU imaging assessments were also made ( Figure 2). Mean GAIS ratings were 2.4 ± 0.5 immediately after treatment, 2.8 ± 0.3 at 1 month, 2.7 ± 0.5 at 3 months, 2.1 ± 0.6 at 6 months, and 1.5 ± 0.6 at 12 months (Table 1). Five patients reported experiencing pain during the procedure. After the treatment, 2 patients noted mild bruising, and 10 reported mild swelling; 5 experienced lumpiness (Table 1). All the immediate side effects resolved within a week. Subjects experiencing lumpiness were advised to massage gently the lumpy area daily un-    [7]. In our study, CHAP-HA Blink was selected for its low G' and viscosity, superior moldability, and shape retention capacity.
Our study determined it was optimal for soft tissue augmentation in the forehead region. HRU imaging assessment after injections revealed optimal tissue integration, which correlated well with clinical satisfaction.
Traditional methods such as using HA filler may be associated with migration and lumpiness; however, in our study, CHAP filler was easy to deliver, molded naturally to native contours, and mimicked normal textures with minimal lumpiness and satisfactory longevity, as was apparent in HRU imaging. The 3-injection-point technique entails minimal risk, exhibits good clinical tolerability, and achieves positive patient outcomes. Preconditioning with TS and using the midline entry point and deep injections delivered via a blunt canula reduced the risk of vessel compromise. The cosmetic results were satisfactory.

Conclusion
Three-point injection of filler in the forehead region is a technique that is relatively safe, rapid, and easy to perform, involves little down time, and can result in a high rate of patient satisfaction. CHAP-HA filler is a suitable candidate material with satisfactory aesthetic outcomes in forehead augmentation.