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Retinal detachment

Retinal detachment is a serious ocular emergency in which the , the thin layer of light-sensitive tissue lining the back of the eye, separates from its underlying supportive structures, potentially leading to permanent vision loss if not addressed promptly. This condition disrupts the retina's ability to process light and send visual signals to the , often resulting in blurred or lost vision in the affected area. There are three primary types of retinal detachment: rhegmatogenous, tractional, and exudative. Rhegmatogenous retinal detachment, the most common form, occurs when a tear or hole in the allows vitreous from the eye's gel-like interior to seep underneath the , lifting it away from the . Tractional retinal detachment develops when fibrous scar tissue, often from conditions like or proliferative vitreoretinopathy, pulls the from its position. Exudative retinal detachment arises from the buildup of under the due to , tumors, or vascular abnormalities, without any retinal break. Common symptoms include a sudden increase in floaters (dark spots or lines drifting in the field of vision), flashes of light, and the perception of a shadow, veil, or curtain moving across part of the , typically starting in the periphery. These signs often appear abruptly and warrant immediate medical evaluation. Risk factors encompass advancing age (particularly over 50), extreme nearsightedness (), prior or other eye , family history of detachment, and underlying conditions such as or . Diagnosis typically involves a dilated , often supplemented by imaging like or if the view is obscured. Treatment is almost always surgical and aims to reattach the to prevent further detachment and preserve vision, with options including laser photocoagulation or to seal tears, pneumatic retinopexy using a gas to push the back into place, scleral buckling to support the eye wall, and to remove vitreous gel and repair the . Success rates are high with early , though complications such as , bleeding, or recurrent detachment can occur.

Pathophysiology

Mechanism

Retinal detachment involves the separation of the neurosensory from the underlying (RPE), disrupting the normal anatomical apposition of these layers. The neurosensory retina, comprising the inner layers derived from the including photoreceptors, bipolar cells, and ganglion cells, relies on the RPE—a of pigmented epithelial cells—for metabolic support, nutrient exchange, and of photoreceptor outer segments. This separation occurs at the potential space between the two layers, as no true anatomic junctions exist between the neurosensory retina and RPE cells; instead, is maintained by interdigitation of photoreceptor outer segments with RPE microvilli, fluid transport mechanisms, and metabolic interactions. When these forces are overcome, subretinal fluid accumulates, leading to detachment and ischemia of the neurosensory retina due to loss of choroidal nutrient supply. At the vitreoretinal interface, the vitreous gel adheres to the internal limiting membrane of the via fibrils and proteoglycans, and age-related liquefaction (synchysis) combined with contraction of fibers can initiate (PVD). Anomalous PVD, where incomplete separation occurs due to persistent vitreoretinal adhesions, exerts abnormal tangential or anteroposterior traction on the , particularly at sites of vitreoretinal traction like the vitreous base or areas of . This traction can create retinal breaks, such as U-tears or horseshoe tears, in 8-22% of symptomatic PVD cases, allowing liquefied vitreous to gain access to the subretinal space. In rhegmatogenous detachment—the most common type—this leads to progressive accumulation of subretinal fluid, detaching the neurosensory from the RPE and potentially involving the if unchecked. Tractional detachment arises from fibrovascular proliferation, often in conditions like , where ischemic stimulates and subsequent formation of contractile fibrovascular membranes at the vitreoretinal interface. These membranes exert persistent mechanical traction, pulling the neurosensory away from the RPE without a full-thickness retinal break, resulting in a concave or tented configuration of the detached . The proliferation involves myofibroblast-like cells that contract, tightening adhesions and propagating separation, particularly in the posterior pole. Exudative detachment, by contrast, occurs without retinal tears or vitreoretinal traction, driven instead by leakage of fluid from choroidal or retinal vessels into the subretinal space due to breakdown of the RPE blood-retinal barrier. The RPE normally pumps fluid from the subretinal space to the via ; however, conditions like , tumors, or vascular abnormalities impair RPE integrity, allowing to accumulate and separate the neurosensory from the RPE. This process often presents as shifting subretinal fluid, reflecting gravity-dependent detachment without underlying structural defects.

Classification

Retinal detachment is classified into three primary types based on the underlying pathophysiological mechanisms: rhegmatogenous, tractional, and exudative. This etiological , which guides diagnostic evaluation and therapeutic approaches, distinguishes detachments by the presence or absence of retinal breaks and the nature of fluid accumulation or mechanical forces involved. Combined or mixed detachments, incorporating elements of multiple types, are also recognized when overlapping mechanisms contribute to the pathology. Rhegmatogenous detachment (RRD) represents the most common form and is defined by the presence of one or more full-thickness breaks that permit liquefied vitreous humor to flow into the sub space, thereby separating the neurosensory from the underlying . often serves as a precursor, leading to tears at sites of vitreo . The condition typically progresses from the site of the break, with fluid dissecting under the to create a bullous elevation that can extend to involve the if untreated. Tractional retinal detachment (TRD) arises from the adherence and contraction of fibrovascular or fibrocellular membranes on the surface, exerting mechanical pulling forces that elevate the without requiring a full-thickness break. These membranes often form in response to ischemic or inflammatory conditions, leading to a concave or tent-like configuration of the detached , particularly in the peripheral or inferior regions. Unlike RRD, the subretinal space in TRD remains relatively dry, as separation occurs through direct vitreoretinal traction rather than fluid ingress. Exudative retinal detachment (ERD), also termed serous detachment, results from the accumulation of protein-rich fluid in the subretinal space due to impaired function of the (RPE) pump, which fails to maintain the normal barrier against choroidal leakage; notably, this type lacks both retinal breaks and significant tractional forces. The detachment often presents with shifting subretinal fluid, allowing the to assume a dependent position influenced by gravity, and may be associated with underlying choroidal or RPE abnormalities. Fluid resolution can occur spontaneously if the RPE dysfunction is reversible, distinguishing ERD from the other types. The modern classification system emerged from early 19th-century observations following the invention of the , which enabled clinical visualization of detachments, and evolved significantly in the post-1970s era with advancements in vitreoretinal surgery and histopathological studies that emphasized etiological distinctions over mere morphological descriptions. Prior systems focused on anatomical location or gross appearance, but refinements incorporated mechanistic insights, such as the role of vitreous dynamics in , leading to the standardized triad still used today.

Clinical Presentation

Symptoms

Retinal detachment often presents with sudden visual disturbances, particularly in the rhegmatogenous type, where patients report —flashes of light in the peripheral vision—resulting from vitreoretinal traction as the vitreous pulls on the . This symptom is frequently associated with , which can precede or accompany the detachment. Patients may also experience a sudden increase in floaters, appearing as dark spots, threads, or cobweb-like shapes drifting across the , often due to vitreous debris or minor hemorrhage from retinal . A hallmark symptom is progressive loss, commonly described as a dark curtain, shadow, or veil descending over part of the , typically beginning in the periphery and advancing toward the center if untreated. This reflects the advancing separation of the from the underlying tissue. In cases involving the , patients may notice , a of straight lines into wavy or bent patterns, indicating central visual involvement. Symptom acuity varies by detachment type: rhegmatogenous detachments typically cause acute, dramatic onset of and due to rapid fluid ingress through retinal breaks, whereas tractional and exudative forms often present more insidiously with gradual vision blurring or painless loss without prominent flashes or new . In tractional detachments, symptoms may evolve slowly from underlying proliferative conditions, while exudative detachments frequently lack traction-related phenomena altogether.

Signs

During clinical examination, retinal detachment presents with several objective signs that facilitate prompt recognition. is typically preserved in extramacular detachments but markedly reduced when the is involved, often dropping to counting fingers or worse depending on the duration and extent of macular elevation. A (RAPD) is commonly observed in extensive detachments, particularly those involving the or at least two quadrants of the , due to asymmetric afferent input from the affected eye. Intraocular pressure may be altered, with hypotony (typically below 5-6 mm Hg) occurring in chronic cases as a result of impaired aqueous humor secondary to the detachment. In some instances, concomitant vitreous hemorrhage can obscure the fundus view on direct , preventing clear visualization of the and necessitating alternative diagnostic approaches. Fundus examination often reveals characteristic patterns, such as bullous detachment where the appears tense and balloon-like due to accumulated subretinal , particularly in rhegmatogenous cases. Shifting subretinal may also be evident, especially in exudative detachments, where the redistributes with changes in head position under gravitational influence, creating a dependent fluid level.

Etiology and Risk Factors

Rhegmatogenous Causes

Rhegmatogenous retinal detachment (RRD) most frequently results from (PVD), a process in which the vitreous gel separates from the , often leading to retinal tears that allow vitreous fluid to seep underneath the . PVD serves as the primary precursor in approximately 86% of RRD cases, typically manifesting as horseshoe tears induced by vitreous traction during detachment. This condition becomes increasingly common with age, affecting about 53% of individuals over 50 years, as age-related and shrinkage of the vitreous promote separation from the internal limiting . High significantly elevates the risk of RRD due to axial of the eyeball, which stretches and thins the peripheral , making it more susceptible to tears during PVD. In highly myopic eyes (axial length > ), the lifetime risk of RRD is over 50-fold higher compared to emmetropic eyes, with PVD occurring about 10 years earlier than in non-myopic eyes. Ocular represents another key precipitant, as blunt or penetrating injuries can cause immediate vitreous hemorrhage, syneresis, or direct retinal breaks, with identified as a major predisposing factor in up to 20% of RRD cases in some cohorts. Iatrogenic factors, such as cataract extraction via , induce vitreous changes by altering intraocular dynamics and accelerating PVD, particularly in pseudophakic eyes. The cumulative risk of RRD following uncomplicated is 0.4-3.9% over 10 years, rising substantially with intraoperative complications like posterior capsule rupture. , a peripheral retinal abnormality involving thinning, vitreoretinal adhesions, and atrophic holes, further predisposes eyes to breaks; it is present in 20-30% of RRD patients and increases the odds of post-surgical retinal tears by over 40-fold. Demographic patterns highlight a higher incidence of RRD in males, with a male-to-female of 1.3:1, attributed to factors like greater exposure to and possibly hormonal influences on vitreous . Pseudophakic post-cataract independently heightens risk, with studies showing elevated rates in this group compared to phakic eyes. In these scenarios, fluid ingress through tears drives the detachment process.

Non-Rhegmatogenous Causes

Non-rhegmatogenous retinal detachments arise without retinal tears or breaks, instead resulting from tractional forces pulling the away from the underlying tissue or from subretinal fluid accumulation due to exudation. These are classified as tractional retinal detachment (TRD) and exudative retinal detachment (ERD), respectively. Tractional retinal detachment occurs when fibrovascular or fibrous scar tissue contracts and exerts mechanical pull on the , often developing progressively over time. The most common cause is proliferative , where leads to scar formation on the surface. Other notable etiologies include , in which abnormal vascular development in premature infants results in fibrovascular proliferation and traction, particularly in advanced stages. can also induce TRD through proliferative sickle cell retinopathy, where vaso-occlusive events promote and subsequent scarring. Genetic conditions such as predispose individuals to tractional risks due to inherent vitreoretinal structural abnormalities that facilitate abnormal adhesions and pulls. Exudative retinal detachment involves the leakage of fluid into the subretinal space from disrupted or choroidal circulation, typically presenting with an insidious onset as fluid accumulates gradually without traction. Uveal tumors, such as choroidal , are a key cause, as they disrupt the blood-retinal barrier and promote serous fluid exudation beyond tumor margins. Inflammatory conditions like Vogt-Koyanagi-Harada syndrome contribute through autoimmune-mediated choroidal inflammation and serous detachment, often bilateral and multifocal. Systemic diseases, including with its hypertensive vascular changes and renal failure associated with uremic toxins affecting retinal permeability, can similarly lead to ERD. Iatrogenic causes of non-rhegmatogenous detachments include complications from procedures such as excessive , which may induce localized scarring and traction, or intravitreal injections that inadvertently penetrate the or provoke inflammatory exudation.

Diagnostic Evaluation

History and Examination

The evaluation of suspected retinal detachment begins with a detailed history to identify risk factors and symptom patterns suggestive of the condition. Key elements include inquiring about recent ocular , which can precipitate detachment in up to 20-30% of cases in certain populations, the abrupt onset of or (flashes of light), and whether symptoms are unilateral, as binocular involvement is rare and may indicate a systemic issue rather than isolated detachment. should also be asked about the duration and progression of defects, such as a shadow or curtain-like obscuration, to differentiate acute from chronic processes. Physical examination starts with assessment of visual acuity using a Snellen chart to quantify central vision loss, which may range from mild reduction to severe impairment depending on macular involvement. Confrontation visual field testing is performed to map peripheral defects, often revealing a sectoral or altitudinal loss consistent with detachment progression. Pupillary response evaluation checks for a relative afferent pupillary defect in the affected eye, indicating optic nerve or significant retinal compromise, while intraocular pressure measurement via tonometry rules out secondary elevations from trauma or inflammation. Slit-lamp biomicroscopy examines the anterior segment for signs of trauma, inflammation, or vitreous pigment cells (Shafer's sign), which suggest a retinal tear. Dilated indirect with scleral depression is essential to visualize the posterior segment, allowing detection of retinal elevation, tears, or subretinal fluid up to the ora serrata. If retinal detachment is suspected based on history and examination findings, emergent referral to an ophthalmologist is critical, as timely intervention can prevent permanent vision loss.

Imaging and Tests

(OCT) serves as a key noninvasive imaging modality for confirming retinal detachment by providing high-resolution cross-sectional images of the retina, enabling precise detection of subretinal fluid accumulation between the neurosensory retina and . In cases of rhegmatogenous retinal detachment, OCT delineates the extent of detachment and assesses macular involvement, identifying features such as retinal folds, intraretinal cysts, and hyperreflective outer retinal spots that indicate photoreceptor damage. Additionally, preoperative OCT evaluates macular status, including the presence of subretinal fluid or epiretinal membranes, which informs surgical planning and postoperative monitoring of reattachment progress. B-scan ultrasonography is essential when the fundus view is obscured, such as by vitreous hemorrhage, allowing indirect visualization of the posterior segment to confirm the presence and configuration of retinal detachment. This technique produces two-dimensional images that distinguish retinal detachment—appearing as a membranous structure with high —from vitreous hemorrhage, which presents as mobile echoes within the vitreous cavity. It also helps localize the detachment's extent and identify associated retinal tears or traction, particularly in opaque media cases where direct ophthalmoscopy is inadequate. Fundus photography captures detailed color images of the to document the 's location, size, and associated retinal , facilitating baseline assessment and follow-up comparisons. complements this by injecting intravenous fluorescein dye to highlight vascular abnormalities, revealing leakage from retinal or breaks that contribute to subretinal ingress in rhegmatogenous . In cases, it identifies window defects or hyperfluorescence at sites, aiding in precise delineation of pathology without invasive measures. Wide-field systems, such as Optos ultra-widefield fundus cameras, enable comprehensive mapping of the peripheral , capturing up to 200 degrees of the fundus to detect subclinical or detachments extending beyond the central view. These systems are particularly valuable for preoperative planning in rhegmatogenous detachment, accurately estimating retinal hole locations and assessing peripheral involvement that traditional might miss. By providing panoramic views, they support of multiple breaks and the overall detachment configuration, enhancing diagnostic accuracy in complex cases. Electroretinography (ERG) provides a functional of activity in select retinal detachment cases, measuring electrical responses from photoreceptors and inner retinal layers to light stimuli. In rhegmatogenous detachment, ERG typically shows reduced a- and b-wave amplitudes due to photoreceptor dysfunction, with preoperative recordings helping characterize the severity and predict potential recovery post-reattachment. It is particularly useful when structural imaging alone cannot quantify viable function, guiding decisions in chronic or extensive detachments.

Management

Surgical Interventions

Surgical interventions for retinal detachment primarily aim to reattach the retina by sealing retinal breaks, relieving traction, and supporting the retina against the using agents or mechanical indentation. The choice of procedure depends on the type of detachment, location of breaks, and patient factors such as lens status and comorbidities. For rhegmatogenous retinal detachment (RRD), techniques focus on closing breaks and draining subretinal fluid, while tractional retinal detachment (TRD) requires removal of vitreoretinal traction bands. Exudative retinal detachment (ERD) is typically managed conservatively unless underlying causes necessitate surgical intervention, but persistent cases may involve to address fluid accumulation. Pneumatic retinopexy is a minimally invasive outpatient procedure indicated for uncomplicated RRD involving superior detachments with a single retinal break or a cluster of breaks spanning no more than one clock hour, particularly in phakic patients without significant proliferative vitreoretinopathy (PVR). The procedure involves or photocoagulation to seal the retinal break, followed by intravitreal injection of an expandable gas bubble such as (SF6) or perfluoropropane (C3F8) to the retina against the underlying tissue. Patients must maintain strict face-down or specific positioning for several days to one week to allow the gas bubble to appose the break while the retina reattaches. Success rates for primary reattachment with pneumatic retinopexy range from 60% to 80%, making it a cost-effective initial option for suitable cases. Scleral buckling is an extraocular surgical technique primarily used for uncomplicated RRD, especially in younger phakic patients or cases with inferior breaks, where it provides a permanent mechanical support to close retinal breaks without entering the . A silicone sponge or band is placed around the and sutured to the to indent the eye wall, approximating the to the detached neurosensory and relieving vitreous traction at the break site. is applied to the retinal break intraoperatively to induce chorioretinal , and subretinal may be drained via a sclerotomy to facilitate reattachment. This method is particularly effective for detachments without extensive PVR and achieves anatomic success in over 85% of primary cases. Pars plana vitrectomy is the most versatile intraocular approach, indicated for complex RRD with multiple or posterior breaks, TRD associated with conditions like , and select cases of ERD where underlying traction or require intervention. The procedure entails three-port access through the to remove the vitreous gel using a probe, followed by peeling of epiretinal or internal limiting membranes to relieve traction in TRD cases. Retinal breaks are treated with endolaser photocoagulation, and the vitreous cavity is filled with a tamponade agent such as intravitreal gas (e.g., C3F8), for prolonged support in severe PVR, or perfluorocarbon heavy liquids for intraoperative stabilization of the posterior retina. For RRD, is preferred in pseudophakic eyes or when scleral buckling is contraindicated, while for TRD, it directly addresses vitreoretinal interfaces; primary anatomic success exceeds 90% in uncomplicated scenarios. Emerging techniques as of 2025 include robotic-assisted for enhanced precision in cases. Indications vary by detachment type: scleral buckling or pneumatic retinopexy for simple RRD, while vitrectomy is favored for TRD requiring traction relief and may be combined with scleral buckling for enhanced support in proliferative cases. Intraoperative adjuncts, including endolaser for circumferential retinopexy and tamponade agents, are integral to all techniques to promote and prevent redisplacement.

Adjunctive Therapies

Adjunctive therapies for detachment encompass supportive measures that complement primary interventions by addressing breaks, underlying pathological processes, or postoperative requirements to improve outcomes. These approaches aim to seal tears, mitigate proliferative responses, ensure proper anatomical positioning, manage systemic factors, or monitor low-risk cases without immediate intervention. Such therapies are particularly valuable in enhancing reattachment rates and reducing complications like recurrence. Laser photocoagulation and serve as key adjunctive methods to seal retinal breaks, either preoperatively to prevent progression or intraoperatively to reinforce attachment during procedures. Laser photocoagulation uses focused light to create adhesions between the and underlying , effectively barricading fluid entry through breaks in rhegmatogenous cases. , involving controlled freezing, achieves similar sealing by inducing chorioretinal scarring and is often preferred in areas obscured by vitreous hemorrhage or media opacities. These techniques are routinely applied around breaks to promote and prevent extension of detachment, with studies showing reduced progression risk when used prophylactically in at-risk peripheral . Intravitreal pharmacotherapies, such as anti-vascular endothelial growth factor (anti-VEGF) agents, are employed as adjuncts in cases complicated by proliferative vitreoretinopathy (PVR) or neovascularization, where they inhibit abnormal vessel growth and reduce tractional forces. Agents like bevacizumab or ranibizumab are injected into the vitreous to suppress VEGF-mediated proliferation, often preoperatively to facilitate surgery by decreasing vascularity and intraoperative bleeding. Clinical evidence indicates that adjunctive anti-VEGF therapy can shorten pars plana vitrectomy duration and lower the incidence of postoperative hemorrhage in proliferative diabetic retinopathy-associated detachments. However, their use requires careful monitoring due to potential risks like endophthalmitis. Positioning therapy is essential following pneumatic retinopexy, where patients maintain specific head postures to ensure the intravitreal gas contacts the break and facilitates subretinal fluid reabsorption. Typically, face-down or lateral positioning is prescribed for 5-8 days postoperatively, depending on , to optimize effect and promote reattachment. Compliance with positioning significantly correlates with anatomical success, as non-adherence can lead to bubble migration and treatment failure; tools like inclinometers have shown average around 3-4 hours daily in practice. Management of systemic contributors plays a critical role in exudative retinal detachment, particularly when driven by conditions like , where rigorous control is paramount to resolve subretinal fluid accumulation. Antihypertensive therapy, targeting systolic pressures below 140 mmHg, can lead to spontaneous reattachment in cases of malignant hypertension by alleviating choroidal ischemia and vascular leakage. Other systemic etiologies, such as autoimmune disorders, may require corticosteroids or immunosuppressants, but blood pressure optimization remains the foundational step to prevent progression and preserve vision. Observation protocols are appropriate for small, asymptomatic retinal detachments in low-risk eyes, such as those confined to areas without vitreoretinal traction. These cases, often involving subclinical detachments under 1 clock hour, carry a low progression risk (approximately 10% over an average of 5 years), allowing serial monitoring with dilated fundus exams every 3-6 months to detect changes early. Intervention is deferred unless symptoms emerge or detachment extends, balancing minimal invasiveness with vigilant surveillance to avoid unnecessary procedures.

Outcomes

Prognosis

Modern surgical techniques for retinal detachment achieve anatomical reattachment success rates of 85-95% in primary procedures, with final success approaching 95% after additional interventions if needed. Visual recovery is significantly better when the is detached for less than 7 days prior to , as prolonged detachment leads to irreversible photoreceptor damage and reduced acuity gains. Prognosis is influenced by several key factors, including the duration of detachment, involvement of the , and presence of proliferative vitreoretinopathy (PVR), which complicates up to 10% of cases and substantially lowers reattachment rates to 43-69%. In early interventions without PVR, patients often achieve final of 20/40 or better, whereas chronic detachments or those with macular involvement exceeding one week yield poorer outcomes, with acuity frequently remaining below 20/100. Recurrence occurs in 10-20% of cases, often necessitating multiple surgeries, particularly in eyes with risk factors like high or prior . Post-2020 studies highlight improved outcomes with combined techniques such as and scleral buckling, reporting single-surgery success rates up to 95% and better long-term visual preservation compared to monotherapy approaches.

Complications

One of the most significant complications following retinal detachment repair is , characterized by the formation of scar tissue from proliferating and , which can contract and cause recurrent detachment. This condition complicates approximately 5-10% of cases, with higher rates in complex or traumatic detachments reaching up to 20%. Intraoperative risks during procedures like pars plana include iatrogenic retinal breaks, which occur in 5-10% of cases and may arise from or vitreous traction, potentially leading to immediate or delayed if not addressed. Postoperative complications encompass accelerated formation, particularly after , affecting 80-100% of phakic eyes within two years due to and lens changes. Gas tamponade used in can elevate , resulting in secondary in susceptible patients, often requiring medical intervention to prevent optic nerve damage. Endophthalmitis, a rare but severe , develops in less than 0.3% of cases, typically from bacterial during , and can lead to profound vision loss if not promptly treated with antibiotics and . Chronic complications include cystoid (CME), which manifests as intraretinal fluid accumulation and affects up to 38% of phakic eyes post-repair, often delaying visual recovery and managed with anti-inflammatory agents. In untreated retinal detachments, prolonged separation can induce ischemic changes leading to or atrophy, resulting in irreversible impairment. For cases involving tamponade, removal timing is critical to minimize redetachment risk, which ranges from 6-28%; earlier removal (within 3 months) increases recurrence due to residual traction, while durations of 6 months or longer reduce this hazard, though prolonged oil use risks emulsification and further complications.

Public Health

Prevention

Regular screening through comprehensive dilated eye examinations is recommended for high-risk groups to detect early peripheral retinal abnormalities that could lead to . Individuals with high , a history of , or should undergo annual or more frequent evaluations, as these conditions increase susceptibility to vitreoretinal traction and tears. For patients with , maintaining tight glycemic control via monitoring and lifestyle interventions reduces the progression of and the associated risk of tractional retinal detachment. Prophylactic laser photocoagulation, known as laser barricade, is employed to surround and seal retinal tears or areas of , thereby preventing fluid ingress and subsequent detachment in at-risk eyes. This intervention creates chorioretinal adhesions to stabilize the , particularly in fellow eyes of patients with prior detachment or those with . Preventing trauma-related detachments involves the use of protective eyewear, such as safety goggles, during high-impact sports like or racquet sports and in occupations involving potential , such as or . These measures significantly reduce the incidence of blunt or penetrating ocular that can initiate retinal breaks. Public education campaigns emphasize prompt recognition of warning symptoms, including sudden onset of flashes of or increased , which may indicate and warrant immediate ophthalmologic evaluation to avert progression to detachment. Awareness of these signs, often disseminated through health organizations, encourages early intervention in the general population.

Epidemiology

Retinal detachment (RD) has an annual incidence of approximately 12 to 18 cases per 100,000 individuals in the general . This rate translates to a lifetime risk of approximately 0.3% (1 in 300) in the general . Individuals with high (greater than -6 diopters) face a substantially elevated risk, with lifetime probabilities reaching up to 5%. The condition exhibits a bimodal age distribution, with a peak incidence after age 50 primarily driven by in older adults, and a secondary peak in younger males due to traumatic detachments. Males overall experience a slightly higher incidence than females, potentially linked to occupational trauma exposure. Geographic variations in RD incidence are influenced by factors such as prevalence and surgical interventions; rates tend to be higher in developed countries, where increased surgeries—a known —contribute to elevated post-operative detachments. For instance, southeastern Asian populations show higher rates, attributable to greater prevalence, while incidences range from 6 to 12 per 100,000, with regional differences noted in southern and areas potentially tied to environmental factors like solar radiation. In contrast, some studies report lower rates in certain non-Western populations, highlighting ethnic and access-to-care disparities. Rhegmatogenous accounts for approximately 90% of cases, typically involving retinal tears allowing vitreous fluid ingress. Tractional and exudative forms comprise the remaining 5-10%, often associated with proliferative or inflammatory conditions, respectively. In the , epidemiological data indicate a slight upward trend in RD incidence, with international estimates suggesting an annual rate of 12.17 per 100,000 and evidence of temporal increases possibly doubling over decades due to aging populations and enhanced diagnostic capabilities. As of 2025, global incidence remains around 12.17 per 100,000, with regional variations such as 14.52 in and 10.55 in the Western Pacific. This rise is particularly noted in regions with improving vitreoretinal surveillance.

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