Abstract
In the aging process, upper periorbits can be divided broadly into two groups. Group 1 is characterized primarily by soft tissue ptosis of the upper eyelid, which requires surgical excision. The patients in group 2, show volume depletion of the soft tissue and bony resorption of the orbit, characterized by deflation of the upper eyelid as well as sunken, hollow, and skeletonized orbits. Currently, structural fat grafting is the only means for adding volume the depleted upper periorbit. It is, however, an invasive procedure associated with fairly significant morbidities, long downtime, and hence poor patient acceptance. The advent of safe hyaluronic acid (HA)-based dermal filler has, in the authors’ opinion, revolutionized treatment for this group of oculoplastic patients. In the current series, 36 patients with volume depletion of the periorbit were treated with HA dermal fillers to restore the smooth arc of the upper periorbit. The average volume required ranged from 0.2 to 0.6 ml of filler. Despite the relatively small volume required, the upper periorbital aesthetics of the patients were successfully and dramatically transformed. At this writing, the longest follow-up period has been 3.5 years, with the patient still maintaining periorbital volume. No significant morbidities occurred. Given the multiple risks and the resistance of patients to structural fat grafting compared with HA dermal fillers, the authors believe that this nonsurgical technique for adding volume to the periorbit should become the method of choice for this group of oculoplastic patients.
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An aesthetic and youthful upper periorbital subunit is characterized by a well-defined brow of appropriate height and shape, fullness of the upper periorbit, a crisp and well-defined upper eyelid crease, minimal skin excess, and good skin quality [1–3]. This area is one of the first facial regions to show signs of aging, and even minor changes in its structure and volume can distort the perceived emotions and health of patients, possibly diminishing their confidence and well-being.
Traditionally, much of the facial aging focus has been on tissue ptosis as the main etiologic factor, leading to the well-recognized signs of aging on the upper eyelid and eyebrow, with droopy, excessive eyelid skin and lateral hooding. The eyelid crease is no longer visible, and the eyes appear tired and puffy. Accordingly, treatments have been primarily concerned with tissue descent, focusing on excisional and lifting procedures such as blepharoplasties and brow-lifting.
The past decade has seen a growing awareness that depletion of facial soft tissue volume is an important factor. More recently, bony resorption of the facial skeleton has been identified as another factor contributing significantly to facial aging [4, 5]. In turn, modern facial rejuvenation surgery has evolved toward volume restoration in addition to tissue suspension.
Facial aging is a complex and dynamic process. Different people age differently as a result of imbalance, disharmony, and disproportion of the aging process between the overlying soft tissue and the underlying bony frameworks [5]. This is seen clearly in the aging process of the periorbit. One group of patients displaying signs of aging due predominantly to soft tissue ptosis of the upper eyelid require surgical excision. At the end of the periorbital aging spectrum is another group of patients who present with volume depletion of the soft tissue and bony resorption of the orbit. Their appearance is characterized by deflation of the upper eyelid as well as hollowing and visibility of the supraorbital bony rim, leading to a sunken, hollow, and skeletonized orbit, which can make the patient appear sickly, anorexic, and old (Fig. 1a, c).
These unattractive features can appear even more pronounced for patients with deep-set eyes (Fig. 2a). In addition, loss of temporal support for the lateral brow from loss of temple fossa volume coupled with loss of upper lid fullness can create the impression of brow ptosis [5] (Fig. 3a, c).
To date, the only means of effectively adding volume to the depleted upper periorbit has been structural fat grafting [6–8]. Although this technique currently is the gold standard, it is an invasive procedure associated with fairly significant morbidities, including the risk of visible lumpiness, swelling, and bruising that not uncommonly requires a minimum of 1 to 2 weeks to resolve, hence a relatively long downtime. These risk factors have contributed to poor acceptance of this treatment by patients.
The advent of safer and effective hyaluronic acid (HA)-based soft tissue fillers has seen the effective use of nonsurgical therapy in periorbital rejuvenation, especially in the tear trough and the subbrow region [2, 9].
A recent three-dimensional computed tomographic study demonstrated that the orbital aperture in the upper periorbital region increases with age. In particular, a significant increase in height of the superior medial orbital rim occurred with both genders, suggesting that the superior orbital rim recedes with age in this region [5].
Our analysis of the upper periorbital region in patients shows that this superior medial bony recession in the aging orbit contributes to the volumetric loss and aged appearance of the upper eyelid (Fig. 1a, 4a, 5a), giving rise to the so-called “A-frame deformity.” This deformity is characterized by a localized wedged-shape recession of the superior medial orbital rim. In severe cases, the volume depletion of the soft tissue and the bony orbit leads to hollowing and skeletonization of the entire upper perorbita (Fig. 6a, c).
This study aimed to investigate the use of a dermal filler as a volume-adding tool to restore the receded superior medial orbital rim in some patients, and in others, to extend the volume restoration to the subbrow region, creating a full, smooth arc to the superior orbital rim, the hallmark of a youthful upper periorbit. The advantages and longevity associated with this approach are discussed and compared with the long-established use of the biologic structural fat graft.
Methods
All patients selected for treatment had volume depletion in the upper periobit and were potential candidates for structural fat grafting but refused because of the potential morbidities and downtime. The volumetric upper periorbital rejuvenation was performed initially with Restylane, then with Juvederm ultra from 2006 onward due to its smoothness and ease of injection. Both consist of non-animal-based HA.
Patients were assessed, marked, and treated sitting upright with their eyes in horizontal forward gaze to demonstrate fully the extent of the volume depletion and bony recession (Fig. 7a). Careful analysis followed by palpation was required to mark out the superomedial area of the upper periorbit to be treated. This area is commonly felt as a wedged shape bony irregularity from lateral to medial. The area is located caudal to the palpable external orbital ridge, and in some patients, caudal to the palpable supratrochear and supraorbital notch (Fig. 7b).
Technique
The area to be treated is anesthetized with topical anesthetic cream for about 20 min. After routine skin cleansing with chorhexidine aqueous solution, a 30-gauge hypodermic needle is used to inject the product at a 30° angle to the skin from lateral to mediala, with a small aliquot of not more than 0.1 ml deposited at the supraperiosteal level (Fig. 7b, c). Typically, two to three entry sites are used to ensure even distribution of the products. The injection technique is slow and precise, with the tip of needle constantly moving, albeit to a minute degree.
The product is placed in a linear droplet fashion. The dermal filler then is massaged inferiorly into the desired area, reaching as low as the subbrow eyelid junction. The process is repeated until the desired volume has been added. The aim is to restore a visible smooth curve, replicating a youthful upper periorbital rim (Fig. 7d).
For patients with skeletonization of the lateral bony orbital rim, dermal filler is introduced along the lateral orbital rim and lateral subbrow to restore soft tissue loss and provide a youthful and pleasing cushioning effect to camouflage the visible bony prominence (Fig. 3d). This approach also supports the lateral brow, which tends to reverse the illusion of brow descent from the shadow it casts due to the lack of subbrow fullness [7].
Results
Between 2006 to 2010, 36 patients were treated. Four were treated with Restylane, and the remaining patients were treated with Juvederm ultra. Since 2009, all patients have been treated using Juvederm ultra with lidocaine.
The average treatment time was 20 min. All patients tolerated the procedure well with topical anesthesia alone. However, the introduction of Juvederm with lidocaine has improved the comfort level even more.
The follow-up period ranged from 3 months to 3.5 years (Table 1). At this writing, none of the patients have required any reinjection. The patient followed up the longest (3.5 years) still maintains adequate volume to her upper periorbit. No significant complication has been seen. Minor bruising and edema are the most commonly reported adverse outcomes, which can be camouflaged easily with makeup.
One patient (early in the series) reported a significant change to her appearance despite what the senior author (S.L.) thought was an aesthetically ideal outcome. The excess was dissolved with 9 IU of hyaluronidase. This was placed superficially in the subcutaneous plane, allowing its diffusion to the area of perceived fullness. The aim was to spot-reduce the product and not to dissolve the entire treated area. No further reinjection with HA was required. The patient was extremely pleased with the final outcome, and at this writing 3½ years later, no further retreatment has been required (Fig. 3b, d).
Three patients reported minor lumpiness early in the series and required prolonged massage treatment for up to 3 weeks. This was due to the inadvertent superficial placement of the products. All three patients achieved an optimal result after massage, and none required instillation of hyaluronidase.
Discussion
The surge in popularity of nonsurgical rejuvenation has seen its application extended well beyond the realm of wrinkles and skin folds [9–12]. Increasingly, dermal fillers are being used in lieu of structural fat grafts to add volume to the aging face. Despite the temporary nature of HA-based dermal fillers and the requirement of repeated treatments, it is a treatment that appeals to patients due to its ease of application, efficacy, minimal downtime, and noninvasive nature.
In the periorbital region, dermal fillers have been used successfully to correct tear-trough deformity and the palpebral malar groove [2, 11]. In addition, it has also been used to increase the volume of the lateral sub-brow region to provide support and a temporary browpexy effect [2, 9]. The use of dermal filler as a volume-adding tool to reconstitute the youthful, smooth curve arc of the superior bony orbital rim depleted in volume mainly by bony resorption in the superomedial orbit and by soft tissue atrophy in the remaining upper orbit has never been formally published to the best of the authors’ knowledge.
Structural fat grafts have been the traditional treatment for the volume-depleted orbit. Although its success has been widely reported [6, 13, 14], in the senior author’s (S.L.) opinion, the main plastic surgical fraternities worldwide have had inconsistent results with this technique. Furthermore, the risk of lumpiness, requiring surgical excision if problematic, is of great concern to both surgeons and patients. This together with the unpredictability of the graft’s survival and the relatively long downtime has arguably contributed to its lack of acceptance by most patients.
The use of off-the-shelf HA-based dermal fillers has become the senior author’s treatment of choice for this group of oculoplastic patients. We believe this nonsurgical technique has revolutionized the treatment of patients with a sunken and hollow superior upper periorbit. The safe nature of the product, the short duration of treatment (20 min), the minimal downtime (1 day), the minimal irregularities in this region, and the ability to dissolve the products with hyaluronidase are some of the main positive aspects of this technique compared with the fat graft (Table 2).
The long-lasting nature of the HA dermal fillers in the tear trough has been well observed. The longest follow-up period for our tear-trough patient to date is 4 years, with persistence of its volume. The same longevity of the upper periorbit has been noted in our series. To date, the longest follow-up period of 3.5 years (Fig. 3) has been very encouraging and is another important positive aspect of this technique. None of the patients in our series have required reinjection (Fig. 8a–c).
Currently, we inform our patients that the treatment will remain effective for 2 to 4 years, perhaps longer, to account for any as yet unforeseen individual variation in metabolism (Table1). We hope to provide more accurate longevity results with further follow-up assessment in the future.
The observed longevity of the HA-based filler in the upper periorbital region is especially interesting and positive given the expected 6 to 12 months longevity for most treatments with HA-based fillers in other facial regions. The reason for this is not clear. The lack of mobility of the overlying muscle and the supraperiosteal placement of the filler may well be the contributing factors for longevity.
It is important to note that only a small volume of Juvederm ultra (0.2–0.6 ml on each orbit) is needed to create the fullness required, and it has dramatically improved the patient’s upper face aesthetics in all the cases managed (Fig. 1b, d, 3b, d, 4c). In fact, for novice practitioners, it is better to be conservative and undertreat rather than overtreat in this region due to the significant transformation the treatment can achieve.
We acknowledge the inherent risks involved with the use of a sharp needle in the upper periorbital region including intravascular injections, nerve injuries, and risk for embolization of products. We believe that by using a slow resistance-free injection technique, constantly moving the needle and injecting as the needle is withdrawn reduces these risks significantly. To avoid the potential for supratrochlear and supraorbital nerve injuries, deep palpation and surface landmarks of the nerves are noted, and the product is placed around its vicinity then massaged into the area.
We believe that this technique of nonsurgically adding volume to the upper periorbit should be reserved for physicians with in-depth anatomic knowledge of this region and experienced injectors who have vast experience in treating tear-trough deformities.
Although this is a nonsurgical technique, it requires a steep learning curve compared with nonsurgical injection of other facial regions, including the tear-trough deformities. Treatment of the upper periorbit has its minimal margin of error. The depth of placement and the amount of product used has to be precise, as evidenced by the three cases of lumpiness managed early in the series by the senior author, who has had 8 years of injecting experience, including structural fat grafting.
The author currently is trialing the use of 25-gauge blunt-tip disposable cannulas, which no doubt will further reduce the aforementioned potential risks. The preliminary experience has been positive, and we hope to report this in a future publication.
Juvederm ultra is our preferred choice for the upper periorbital region due to its smoothness, softness, and consequent ease of molding into the more caudal region up to the subbrow/lid-skin junction. Furthermore, its greater cohesiveness may theoretically impart a reduced risk of embolization and migration of products.
The use of Juvederm ultra with lidocaine has introduced an additional comfort factor for patients. We currently treat patients without any topical anesthesia cream in addition to the initial topical ice application, which further reduces our treatment time.
Conclusion
We believe the use of off-the-shelf HA-based dermal fillers has revolutionized the treatment of patients with volume-depleted upper periorbits. The pre- and posttreatment results demonstrate the aesthetic importance of the upper periorbital area, in which a minor addition of volume can significantly transform a hollow and sickly appearance to that of a more youthful, healthy, and aesthetically pleasing face.
We also believe HA-based dermal fillers are the treatment of choice for this area. Although structural fat grafting still has a role due to its presumed stem cell-associated improvement of skin qualities, its use in our practice is reserved for patients allergic to fillers and those who object to the use of any nonbiologic products.
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Conflict of interest
The authors do not have any financial interests in any of the products mentioned in the article. No financial or material support of any kind was provided in preparation of the article or to any subjects mentioned in the article. Dr Steven Liew is a consultant for Allergan Australia, Allergan USA, Allergan Asia. He is a member of the Advisory board for Allergan Australia and Q-MED Australia. He has received honoraria from Allergan (Australia, USA, Asia) and QMED (Australia, Europe and Asia) for meetings and presentations.
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Liew, S., Nguyen, D.Q.A. Nonsurgical Volumetric Upper Periorbital Rejuvenation: A Plastic Surgeon’s Perspective. Aesth Plast Surg 35, 319–325 (2011). https://doi.org/10.1007/s00266-010-9609-4
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DOI: https://doi.org/10.1007/s00266-010-9609-4