The injection of dermal fillers refers to the injection of biological or synthetic substances into compartments of the skin to achieve a desirable cosmetic outcome either to restore volume loss or to remove wrinkles or both. They can lead to complications, which might require imaging. Furthermore, they can constitute confounding factors in the workup of orofacial and nasofacial, orbital and cutaneous diseases and malignancies.
The autologous, biological or synthetic substances injected into the cutaneous compartments are known as dermal fillers or injectable fillers.
Dermal fillers can be classified according to nature, composition or biodegradation time 1-3.
- fast resorbable dermal fillers
- autologous body fat: inconsistent reabsorption rates
- collagen (bovine, porcine, human)
- hyaluronic acid (bacterial origin)
- slowly resorbable dermal fillers
- polyalkylimide and polyacrylamide hydrogels (PAAG)
- poly-L-lactic acid (PLLA)
- calcium hydroxyapatite (CHA)
- non-resorbable/permanent fillers
- polymethylmethacrylate (PMMA) microspheres
Indications of facial dermal injections include the following 1-3:
- facial rejuvenation (different degrees)
- volume augmentation
- soft tissue and static tissue stabilization
- volumetric fat loss
- facial lipoatrophy
- Romberg disease
- posttraumatic disfiguring
Contraindications include present dermal or subcutaneous infections as well as known allergic reactions to the respective substance (filler) or the anesthetic mixed with it e.g. lidocaine 4.
There are different injection techniques, in all patient safety and comfort should be ensured:
- tunnelling technique
- suitable for straight lines
- aims to ensure the filler does not spread
- can be performed at different depths or skin layers
- can be performed as retrograde ‘retro-racing’ or anterograde ‘push forward’ injection
- the substance is injected as the needle is withdrawn or pushed forward in a straight fashion
- droplet technique (also known as point technique, serial/ multi-puncture techniques and others)
- small droplets of the filling substance are placed at a short distance from each other
- usually in the treatment of surface areas
- produces a superficial augmentation
- stretching technique (modification of the droplet technique)
- the skin is stretched to influence substance distribution e.g. fine lines on the forehead
Typical locations of facial dermal injections include the following:
- perioral region (superior and inferior jowl)
- nasolabial folds
- marionette lines
- medial (malar fat pad) and middle superficial cheek fat
- periocular area (superior, inferior and lateral orbital regions)
- glabella (central forehead)
Injections can be also classified into superficial, medium, deep and ultra-deep injections in respect to their depth and whether the filler is applied into an intradermal, subdermal, subcutaneous or subperiosteal location. Different depths have different indication and require different fillers. As a rule of thumb, deeper injections may benefit from a filler featuring a higher degree of crosslinking, viscosity and reabsorption time.
Complications of cosmetic facial intradermal injections can arise from the injection procedure or the substance and include the following 1-4:
- vascular complications (rare)
- soft tissue necrosis
- cerebral infarction
- filler migration (spontaneous displacement of filling material)
- abscess formation (e.g. PAAG)
- non-inflammatory nodules (more common with non-resorbable fillers)
- foreign body granulomas
The most common complications are erythema, bruising and hypersensitivity do not require a radiological evaluation and also most nodules resolve spontaneously 1. Also, most fillers are accompanied by a mild degree of inflammation, which is usually transient 1,3.
Overfilling is a procedural complication and can create lumps and patient dissatisfaction, but can detect on imaging and be treated with needle aspiration or hyaluronidase if hyaluronic acid is the causative agent 1-3. Filler migration also might lead to cosmetically unsatisfactory results and can be treated in a similar way with hyaluronidase or corticosteroid injections or filler removal 3.
The result of facial dermal injections or injectable facial fillers is seen as incidental findings on imaging including CT, MRI and PET-CT. They can be usually recognized by their appearance and distinctive anatomical distribution but can act as confounding factors in the assessment and staging of facial, orbital and cutaneous malignancies 1.
Ultrasound is a common and widely available method for the evaluation of facial fillers as well as its most common superficial complications 1. Liquid silicone typically displays a hyperechoic ‘snowstorm’ aspect.
CT images can nicely detect and depict calcifications, which can be seen in certain dermal fillers and certain complications. Imaging findings vary with the type of the dermal filler.
Most fillers will display as fluid density (collagen, PAAG) or soft tissue density (HA, PLLA) areas on CT images with or without fat stranding. Silicone might appear a bit denser than other fillers.
Autologous fat will characteristically show a low density.
Calcium hydroxyapatite features hyperdense, calcified linear streaks or rounded masses. Polytetrafluoroethylene appears as linear hyperdensity.
Paraffinomas are characterized by soft tissue nodules with a calcified rim or simple calcified foci.
Due to its superior soft tissue discrimination capabilities, MRI is a convenient modality for the evaluation of injectable facial fillers, their complications including displacement.
A basic protocol might consist of T2 weighted images with and without fat saturation, diffusion-weighted imaging as well as pre and postcontrast T1 weighted images 1,3. Alternative T1 and T2 weighted DIXON images could be included 2. In case the injectable facial filler is not known the protocol will certainly benefit from a ‘silicone only’ sequence 1-3.
The imaging findings will depend on the type of dermal filler 1-3:
Autologous fat fillers are characterized by fat-signal intensity on all sequences often accompanied by a thin pseudocapsule.
The biological fillers collagen and hyaluronic acid (HA), as well as the synthetic polyalkylimide and polyacrylamide hydrogels (PAAG), feature a high water content or water-binding capabilities and thus are hypointense on T1 weighted images and hyperintense on T2 weighted images and are difficult to differentiate on MRI 1.
Calcium hydroxyapatite features an intermediate to hypointense appearance on both T1 weighted and T2 weighted images and mild gadolinium enhancement. Polytetrafluoroethylene features similar signal characteristics but should have a more linear appearance.
Poly-l-lactic acid (PLLA) is hypointense on T2 weighted images.
Silicone can be visualized and differentiated from other substances with a ‘silicon only’ sequence.
PET-CT / PET-MRI
Dermal fillers are associated with increased uptake of F18- fluorodeoxyglucose (FDG), which is a typical pitfall. Especially calcium hydroxyapatite and poly-L-lactic acid are known for FDG uptake 1.
Additionally, complications of facial fillers like inflammation, abscess formation and foreign body granuloma might show increased uptake of FDG 1.
The radiological report should contain a description of the following:
- type and location of the dermal filler
- suspected complications
- overfilling (contour abnormalities, asymmetry, bulges)
- foreign body granulomas (eggshell calcifications on CT)
- abscesses (a central fluid signal with peripheral enhancement ± diffusion restriction)
- filler migration
- differential diagnosis (in unclear situations)
Dermal fillers can be usually recognized by their typical anatomical location. Therefore lesions in atypical locations should raise suspicion especially if they show a restricted diffusion
Conditions which can mimic the appearance of dermal fillers or their complications include 1:
Autologous fat, collagen fillers and hyaluronic acid belong to the rapidly resorbable fillers and usually last a few months up to a year. Slowly resorbable fillers include calcium hydroxyapatite (CHA), poly-L-lactic acid (PLLA) which show effects up to 2 years.
Liquid silicone and polymethylmethacrylate (PMMA) microspheres a non-resorbable or permanent synthetic fillers, the latter has also been combined with collagen for longer effect 1.
- 1. Mundada P, Kohler R, Boudabbous S, Toutous Trellu L, Platon A, Becker M. Injectable facial fillers: imaging features, complications, and diagnostic pitfalls at MRI and PET CT. (2017) Insights into imaging. 8 (6): 557-572. doi:10.1007/s13244-017-0575-0 - Pubmed
- 2. Tal S, Maresky HS, Bryan T, Ziv E, Klein D, Persitz A, Heller L. MRI in detecting facial cosmetic injectable fillers. (2016) Head & face medicine. 12 (1): 27. doi:10.1186/s13005-016-0124-y - Pubmed
- 3. Ginat DT, Schatz CJ. Imaging features of midface injectable fillers and associated complications. (2013) AJNR. American journal of neuroradiology. 34 (8): 1488-95. doi:10.3174/ajnr.A3161 - Pubmed
- 4. Lafaille P, Benedetto A. Fillers: contraindications, side effects and precautions. (2010) Journal of cutaneous and aesthetic surgery. 3 (1): 16-9. doi:10.4103/0974-2077.63222 - Pubmed