Introduction
Contracted socket, 1 of the most dreaded complications of anophthalmos, refers to shrinkage of orbital tissue accompanied by a reduction in the orbital volume along with a decrease in the forniceal depth. It eventually results in an inability to sustain a prosthesis. Not only is it aesthetically unpleasant to the patient, but it also results in significant functional as well as psychosocial disability.[1] Efficient reconstruction of these sockets followed by close follow-up may help improve the quality of life and prevent the subsequent disastrous complications of the contracted socket.[2][3]
Etiology
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Etiology
Multiple theories leading to a contracted socket:
Trauma and Surgery-related
- Fibrosis following the initial trauma
- Extensive orbital dissection
- Poor surgical techniques (evisceration/ enucleation)
- Multiple socket procedures
Ocular Surface-related
- A cicatrizing disease of the conjunctiva
- Sever socket infection and inflammation
- Keloid formation in the socket
- Poor vascular supply
Prosthesis and Implant-related
- Non-wearing of prosthesis
- Faulty/ill-fitting prosthesis
- Implant migration/exposure
Etiology Related
- Alkali burns
- Irradiation following enucleation in some retinoblastoma[4]
Epidemiology
Anophthalmic socket is rarely congenital, with a prevalence of 0.2 to 0.3 per 10,000 live births. Acquired anophthalmos due to surgical interventions is much more common, and the prevalence of acquired anophthalmia following enucleation is 2.6 -5 per 100,000 population. There is no direct relationship between age and sex and the socket contraction amount. The involvement of the left eye was more than the right eye for reasons unknown.[5]
History and Physical
Patients with contracted sockets present with an inability to sustain a prosthesis. Discharge is a common complaint that may result from poor prosthetic fit or extruding implant. This may be associated with the poor movement of ocular prosthesis and poor cosmetic appearance, entropion, ectropion, infection, and ptosis.[6] Many patients suffer from eyelid malpositions like entropion, ectropion, and ptosis, which also require surgeries.
Evaluation
A comprehensive examination of a contracted socket, as well as the prosthesis, is of utmost importance. While evaluating a contracted socket, it is important to compare the appearance and symmetry with the fellow side.[7]
- Evaluation with a prosthesis.: Prosthesis abnormality should be addressed in patients with a prosthesis in place. The prosthesis's motility, size, shape, and color should be examined. Any lid malformations like eyelid laxity, entropion, superior sulcus deepening, ptosis, and levator function should be assessed.
- Evaluation without prosthesis: check the ocular surface for fibrous bands and symblepharon formation. The socket should be assessed for the depth of fornices, vascularity, loss of volume, and inflammation.
- Moist versus dry socket: It is crucial to identify if the socket is dry or moist as the management differs for both. The mucosa in a moist socket is healthy and clean. A dry socket has foul-smelling mucosal keratinization, and the surface appears dry.
Several classifications to grade a contracted socket have been published in the literature.[8][9][10] The most widely used clinical classification is the Gopal Krishna classification, where the contracted socket is divided into 5 grades (Grade 0-5).[11][12] See Image. Contracted Socket, Grade 2.
- Grade 0: A healthy socket with deep and well-formed fornices
- Grade 1: Shelving or shallowing of the lower fornix.
- Grade 2: Loss of the superior fornix along with the inferior fornix.
- Grade 3: Involvement of all 4 fornices (superior, inferior, lateral, and medial)
- Grade 4: Involvement of all 4 fornices along with a reduction in the horizontal palpebral fissure length.
- Grade 5: Recurrence of contraction after repeated failed attempts at reconstruction.
Prosthesis Making
Insertion of a well-fitted prosthesis maintains a healthy socket, increases the patient's comfort, and creates a balanced facial appearance. They provide symmetry and protect the eye cavity, thereby preventing infections. Two types of ocular prostheses are available: ready-made artificial eyes and customized ocular prostheses, which offer better fit and esthetics.[13][14] An impression of the socket is taken with an impression tray after injection of alginate paste into the socket. On solidification of the paste, a mold of the socket is obtained. The area of the iris is marked and painted. An acrylic dough is heated to get a white model and painted to match the fellow eye. It mainly comprises the sclera and iris and is colored and polished to make the prosthesis look natural.[15]
Orbital implants are medical prosthetics that replace lost orbital volume and allow a prosthetic eye movement following enucleation (or evisceration). It may be integrated (porous polyethylene such as Medpor or Hydroxyapatite) or non-integrated (Silicone or PMMA). The shapes of the implants are usually spherical and range from 12 to 24 mm in diameter. The wrapping materials act as a buffer to shield the conjunctiva and act as an attachment of the extraocular muscles.[16] Wrapping materials may be either organic (autologous and heterologous) or alloplastic. A-scan ultrasonography of the fellow eye provides a useful tool for predicting the implant size before surgery for optimal volume replacement. The formula axial length minus 2 mm gives the implant diameter enough to replace the orbital volume.[17] There is significant variability in the volume of an adult globe (7-9 ml), and these patients usually accommodate implants between 20 and 22 mm.
Treatment / Management
The major goals in managing a contracted socket include optimizing motility and attaining orbit and eyelid symmetry.[18] A meticulous approach while performing enucleation/evisceration plays a key role in achieving optimal functional and cosmetic outcomes. Careful consideration should be given to preserving the conjunctiva and tenon’s capsule while dissecting, inserting an adequate-sized orbital implant, and performing a layered closure over the implant. The contracted socket management mainly depends on the contraction's severity and residual orbital volume.[8](B3)
A mild contracted socket (Grade 1/2), characterized by shallowing of the inferior fornix, can effectively be managed by securing fornix-forming sutures. The fornices may be deepened by placing mattress sutures over a silastic stent (closed method) or operating on the lateral canthal tendon in addition to fornix reconstruction (open method). This is followed by placing a customized prosthesis 2 to 3 weeks following the procedure. At times, lower lid entropion, with or without lid laxity, may be associated with the contracted socket. For this, a Weiss procedure (transverse blepharotomy with marginal rotation) is reasonably successful. Horizontal lid shortening may be useful in addressing the associated laxity. Alternatively, grafts (nasal septum, auricular cartilage, sclera, hard palate, or fascia lata) may be placed to lengthen the posterior lamina.[19][20](B2)
Managing moderately (Grade 3) contracted sockets, characterized by shortening all the fornices, warrants grafts' placement. Full-thickness mucous membrane grafting is preferred over partial-thickness due to less incidence of shrinkage and is the most widely performed procedure for surface expansion of the socket.[21] The preferred donor sites for mucous membrane grafting are the oral mucosa of cheeks and lips, hard palate, or preputial skin of labia.[22] As a rule, the harvested graft must always be 40% to 50% bigger than the anticipated area to allow for subsequent shrinkage and healing. Certain drawbacks of these grafts, such as foul-smelling discharge and occurrence of post-operative shrinkage, demand alternative materials.[23] Amniotic membrane is 1 of the effective substitutes, and few studies have shown the superiority of amniotic membrane over mucous membrane grafts. It is readily available, has a swift recovery time, has anti-fibrotic, anti-inflammatory, and anti-microbial properties, and has a propensity to cause minimal shrinkage, making it a viable alternative.[24][25] However, its low tensile strength and fragile nature limit its use as the first line of choice.[26](A1)
Severe (Grade 4/5) contracted socket is characterized by volume and surface loss. In such cases, prosthesis alone is insufficient where volume loss exceeds 50 percent. A secondary orbital implant or a dermis fat graft is further required to substitute for the volume loss.[27] Dermis fat graft is harvested from the gluteal region's outer and upper quadrant as this prevents damage to the sciatic nerve and doesn’t involve the weight-bearing area. Although highly effective, dermis fat grafts aren’t devoid of complications. These include necrosis, fat atrophy, the formation of deep subconjunctival cysts, post-operative hematoma, granuloma formation, ulceration, and dehiscence at the donor site.[28] Caution is necessary to avoid the inclusion of epidermis while harvesting dermis fat grafts. A discoid or banana-shaped graft is harvested to minimize the risk of central ulceration. In special situations, such as a dry avascular socket, the placement of a pedicle flap provides a vascular bed that enhances graft survival and provides additional volume to the socket. Examples include superficial temporalis fascia, retro-auricular flap, galeal flap, or thoracodorsal artery perforator.[29][30][31][32][33](B3)
Grade 5 contracted socket, also known as Malignant/Inoperable socket, is associated with multiple failed surgical attempts. Dortzbach and Callahan have advocated exenteration (as any further surgical intervention is likely to fail) followed by fitting a prosthesis for these recalcitrant sockets.[34] As a general rule, an appropriate-sized conformer must be placed to maintain the graft against the vascular bed and should be left.(B3)
Differential Diagnosis
The contracted socket must always be differentiated from post-enucleation socket syndrome, a term coined by Tyler and Collin.[35] Post-enucleation socket syndrome is characterized by superior sulcus deformity, lower lid laxity, lid anomalies like ptosis or retraction, and an ill-fitting prosthesis. Reduced volume loss with silicone implants encased in the homologous sclera (sclera-silicone implant) helps achieve good postoperative motility and satisfactory outcomes.[36]
Prognosis
A meticulously performed initial surgery(evisceration/enucleation) and placement of an orbital implant play a pivotal role in achieving a favorable prognosis.[37] Factors such as dry or irradiated sockets, infection, cicatrization, history of previously failed surgeries, a higher degree of contraction, and pre-existing ocular surface disease are associated with a poorer prognosis. They should be detected and managed promptly according to their severity. The ultimate goal is to provide a socket that can maintain a prosthesis.[38]
Complications
A contracted socket is itself a grave complication. With every failure, the ability to retain a prosthesis deteriorates, and the morbidity increases. Reconstruction is always associated with a risk of infection, which is higher in immunocompromised patients. Flap or graft-related complications like necrosis, fat atrophy, the formation of deep subconjunctival cysts, post-operative hematoma, granuloma formation, ulceration, and dehiscence at the donor site, as discussed above, may ensue. Implant-related complications include implant exposure, extrusion, migration, infection, and orbital volume deficiency.[39]
Deterrence and Patient Education
The patient, rather than the healthcare community, represents the first line of defense in combating the devastating sequelae of the contracted socket. The inability to retain prosthesis in a contracted socket is aesthetically disabling and has a profound psychosocial impact on the patient and his/her family. Frequent postoperative follow-up visits and education regarding hygiene maintenance and self-care are the keys to avoiding disastrous complications. Using customized prostheses, regular and thorough cleaning, periodic replacement of prostheses, and seeking expert opinions from the ocularist and the ophthalmologist, as and when required, leads to enhanced cosmetic and functional outcomes.
Pearls and Other Issues
A contracted socket is a functional as well as a cosmetically disabling entity. Prevention is always better than cure. Scrupulous tissue handling during the primary procedure, placement of an adequately sized implant, layered closure over the implant, use of customized prosthesis post-operatively, and regular follow-ups may help prevent this debilitating condition. The outcomes are unsatisfactory in severely contracted sockets as the surface is inadequate and is usually accompanied by more than 1 pathology. An aggressive surgical approach is performed to rehabilitate these sockets, and the results are highly unpredictable.
Enhancing Healthcare Team Outcomes
A contracted socket is a challenging entity for an oculoplastic surgeon. It may develop at any time following removal of the eye. Additional pathologies frequently accompany the contracted socket. Although the patient may eventually wear the prosthesis in most cases, it demands a high level of care from both the patient and the concerned clinician. A lifelong follow-up is recommended to minimize subsequent complications. A constant open communication line involving the interprofessional healthcare team, including the patient, the ocularist, the ophthalmologist, the primary care practitioner, and the ophthalmology-trained nursing staff, is highly encouraged for the best outcomes.
Media
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