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Ophthalmology > ANTERIOR CHAMBER
Postoperative Flat Anterior Chamber
Article Last Updated: Aug 3, 2007
AUTHOR AND EDITOR INFORMATION
Section 1 of 10  
Author: James V Aquavella, MD, Professor of Ophthalmology, Department of Ophthalmology, University of Rochester School of Medicine, University of Rochester Eye Institute
James V Aquavella is a member of the following medical societies: American Academy of Ophthalmology, American College of Surgeons, American Medical Association, Contact Lens Association of Ophthalmologists, and International College of Surgeons
Coauthor(s):
Gregory J McCormick, MD, Consulting Staff, Corneal and Refractive Surgery, Vermont Laser Vision at Timber Lane and Ophthalmic Consultants of Vermont
Editors: Bradford Shingleton, MD, Assistant Clinical Professor of Ophthalmology, Department of Ophthalmology, Harvard Medical School; Consulting Staff, Massachusetts Eye and Ear Infirmary; Simon K Law, MD, PharmD, Assistant Professor of Ophthalmology, Jules Stein Eye Institute; Chief of Section of Ophthalmology Surgical Services, Department of Veterans Affairs Healthcare Center, West Los Angeles; J James Rowsey, MD, Director of Corneal Services, St Luke's Cataract and Laser Institute, Florida; Lance L Brown, OD, MD, Ophthalmologist, Affiliated With Freeman Hospital and St John's Hospital, Regional Eye Center, Joplin, Missouri; Hampton Roy Sr, MD, Associate Clinical Professor, Department of Ophthalmology, University of Arkansas for Medical Sciences
Author and Editor Disclosure
Synonyms and related keywords:
anterior chamber depth, shallow anterior chamber, anterior segment surgery, bleb leaks, wound leaks, hypotony
Background
Anterior chamber depth as ascertained by slit lamp examination has long been used as an important parameter in assessing postoperative status following major intraocular surgery. Prior to the second half of the 20th century, most cataract extractions and corneal transplantations were performed without the placement of edge-to-edge ophthalmic sutures. Therefore, a formed anterior chamber signified the reestablishment of the integrity of the globe sufficiently to impede or eliminate the leaking of aqueous humor. A shallow (or absent) anterior chamber can occur in the early, intermediate, or late postoperative period. This article defines the early postoperative period (days 1-7), the intermediate postoperative period (days 7-30), and the late postoperative period (in excess of 30 days).
Pathophysiology
In the early postoperative period, a shallow anterior chamber is often associated with a soft eye, but it also may be present with normal or even elevated intraocular pressure. The combination of a soft eye and a shallow anterior chamber occurring within the first several days following intraocular surgery often signifies a leak of aqueous fluid from the anterior chamber through the operative wound. Presence of a wound leak can be ascertained at the slit lamp with application of fluorescein dye to the wound site. Slight pressure on the globe will result in a clearly visible flow of fluid (Seidel positive).
Frequency
United States
No good statistical data are available on the frequency of occurrence. Clearly, the condition is encountered more frequently in glaucoma and corneal transplantation than in routine cataract extraction. The highest overall incidence may be following repair of extensive perforating injuries.
International
Difference in frequency internationally will be related to the availability of state-of-the-art microsurgical technology and equipment, including sutures and instruments. Yet, no objective statistical evidence has been reported.
Mortality/Morbidity
The condition is strictly related to the globe and is not associated with mortality or systemic morbidity.
Race
No data are available relating to racial difference in frequency or severity.
Sex
No differences are anticipated in frequency between males and females.
Age
No data are available.
History
Clearly, this topic has an important historical connotation. Prior to the introduction of suture material to create edge-to-edge wound closure, flat and shallow anterior chambers were not uncommon occurrences following anterior segment surgery. Even the introduction of suture material did not eliminate the problem. Microsurgical techniques, fine needles, and suture material and instrumentation have had an enormous beneficial impact. Even the newer sutureless self-sealing wounds have reduced the problem by eliminating wound irregularities between adjacent sutures.
Physical
Definition and examination of flat anterior chamber
- Anatomy of the anterior chamber: The eye contains the following 3 chambers: the anterior chamber, the posterior chamber, and the vitreous cavity.
- The anterior chamber is bordered anteriorly by the cornea, posteriorly by the front surface of the iris and the lens, and peripherally by the anterior chamber angle, which contains the trabecular meshwork.
- The anterior chamber is deepest (approximately 3 mm) in its central portion and shallowest at the peripheral insertion of the iris. In humans, its volume is approximately 0.2 mL.
- A shallow anterior chamber can be a normal variant commonly seen in hyperopic eyes.
- The slit lamp biomicroscope is important to accurately assess the anterior chamber.
- When a shallow anterior chamber is detected, a thorough history, including previous surgery or trauma, should be obtained.
- Evaluation of associated factors, including intraocular pressure, gonioscopy, and fundus examination, is important.
- The depth of the anterior chamber is estimated as the distance between the posterior surface of the cornea and the front surface of the iris.
- Usually, it measures 3 mm or more.
- If the iris appears to be convex and parallels the posterior chamber surface and if the depth of the anterior chamber is less than 2 mm, angle-closure glaucoma is a risk.
Causes
- Causes and management of flat anterior chamber with elevated intraocular pressure
- Angle-closure glaucoma is a frequent cause of narrowing of the anterior chamber.
- Acute angle closure presents with a painful red eye, significant intraocular pressure elevation, and closure of the angle detected by gonioscopy. Angle-closure glaucoma can indicate pupillary block. Laser iridotomy is indicated and should result in an immediate resolution of the condition with deepening of the anterior chamber. Medical management includes topical pilocarpine drops to constrict the pupil and to break the attack, as well as topical ocular pressure lowering agents, intravenous mannitol or acetazolamide, and topical anti-inflammatory eye drops. Gonioscopy after relief of pupillary block is important to detect residual angle closure.
- Chronic angle closure may have a much less dramatic presentation; however, gonioscopy readily determines the diagnosis.
- Aqueous misdirection
- Malignant glaucoma is most common in hyperopic eyes and in eyes with previous primary angle-closure glaucoma, often with a recent history of intraocular surgery. This condition is believed to be due to misdirection of aqueous humor flow posteriorly into the vitreous cavity with an impermeable anterior hyaloid face. It may be treated with medical therapy, including topical atropine and aqueous humor suppressants, or surgically with disruption of the vitreous face.
- Typically, pars plana vitrectomy is performed in phakic or pseudophakic eyes, and Nd:YAG laser can be used for disruption of the anterior hyaloid face or posterior capsule in aphakic eyes and for laser capsulotomy in some pseudophakic eyes. Resolution of the attack is seen after the underlying mechanism of aqueous misdirection is broken.
- Synechial closure from adhesions, neovascularization, or inflammation
- Anterior uveitis, with or without infection, can produce anterior synechiae and an apparent shallowing of the anterior chamber. In these instances, appropriate anti-inflammatory therapy and/or anti-infective therapy is indicated.
- Posterior synechiae (iris/crystalline lens) may also form and result in pupillary block, iris bombe, and acute angle-closure glaucoma. Posterior synechiae can often be broken with the use of cycloplegic agents.
- Surgical synechialysis or laser iridoplasty may be performed when the inflammatory situation has stabilized.
- Mature lens causing phacomorphic glaucoma
- With development of a mature lens, the lens may swell, leading to shallowing of the anterior chamber.
- Lens extraction results in normalization of the anterior chamber if permanent synechiae have not formed.
- Causes and management of flat anterior chamber with low intraocular pressure
- Cataract extraction wound leaks
- Following cataract extraction using a clear corneal incision, the surgeon often hydrates the lips of the corneal wound. The resultant stromal edema produced by the hydrophilic stromal collagen assists in creating an initial seal; therefore, the anterior chamber can be maintained at the close of the procedure.
- Occasionally, one or more superficial sutures may be used if any question exists as to wound stability.
- Hydrated collagen shields alone or in addition to hydrophilic bandage lenses for 24 hours may help wound leaks. Any application of a hydrophilic bandage lens must be accompanied by instillation of appropriate prophylactic antibiotic solution.
- Corneal transplantation wound leaks
- In the early postoperative period, several possible complications may be encountered. Wound leak usually is associated with poor wound apposition between the graft and the host tissues. A loose suture, wound tissue displacement, or poor wound closure may occur. Seidel testing is helpful in detecting wound leaks.
- If the wound dehiscence is large, especially if it is associated with a flattened anterior chamber, resuturing of the wound is indicated. In addition, use of patching or bandage contact lens may be helpful in the case of resuturing.
- Use of a viscoelastic gel in the anterior chamber is a helpful technique during resuturing.
- Excessive filtration (trabeculectomy)
- A soft eye and a shallow anterior chamber in the early postoperative period can be associated with a filtering bleb, either deliberately created following trabeculectomy or an inadvertent bleb in which a leak becomes covered with conjunctiva.
- Late-onset bleb leaks can occur after glaucoma filtering surgery.
- Intracameral injection of viscoelastic agents or certain gases may be effective in the reformation of the flat anterior chamber.
- Pressure patching can help to reduce filtration and to reform the anterior chamber.
- Choroidal detachment
- If the shallow chamber persists and the intraocular pressure is very low, this may reflect choroidal detachment. Indirect ophthalmoscopy or B-scan ultrasonography can be used to confirm the diagnosis.
- Treatment includes topical steroids. Choroidal drainage with or without modification of a filtering bleb may be indicated to avoid long-term sequelae of choroidal detachment and ciliary body dysfunction.
- Trauma
- Traumatic cyclodialysis cleft formation may be associated with hypotony and shallowing of the anterior chamber.
- Corneal perforation with wound leak (as confirmed by a Seidel test) may result in a shallow anterior chamber with hypotony.
Glaucoma, Malignant
Other Problems to be Considered
The depth of the anterior chamber is an important indicator of the integrity of the postoperative globe and may be useful in the differential diagnosis of existent pathology.
Imaging Studies
Medical Care
- Mannitol is used to dehydrate the vitreous that would overcome malignant glaucoma and other cases of refractory intraocular pressure elevation.
- Diamox is used to lower the intraocular pressure and is useful in phacomorphic glaucoma.
- Topical glaucoma medications should be used to control elevated intraocular pressure when possible.
- Inflammation is managed with topical corticosteroids titrated to individual circumstances.
- Atropine is useful with malignant glaucoma.
Topical steroids are used to reduce inflammation postoperatively. The following topical eye drops, used singularly or combined for elevated pressure, may be used: beta-blockers, alpha-2 adrenergic agonist, prostaglandins, carbonic anhydrase inhibitors (topical or systemic), miotics, and sympathomimetics. Topical cycloplegic agents may be used in a shallow chamber associated with choroidal detachment or cyclodialysis clefts. Topical antibiotics are indicated in the presence of wound leaks.
Drug Category: Osmotic diuretics
To reduce pressure elevations associated with pupillary block. Osmotic agents increase the osmolarity of the glomerular filtrate and induce diuresis. This, in turn, hinders the tubular reabsorption of water, causing sodium and chloride excretion to increase.
| Drug Name | Mannitol (Osmitrol, Resectisol) |
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| Description | For acute elevations, has a rapid onset. Reduces elevated IOP when the pressure cannot be lowered by other means.
Initially assess for adequate renal function in adults by administering a test dose of 200 mg/kg, given IV over 3-5 min. Should produce a urine flow of at least 30-50 mL/h of urine over 2-3 h.
In children, assess for adequate renal function by administering a test dose of 200 mg/kg, given IV over 3-5 min. Should produce a urine flow of at least 1 mL/kg over 1-3 h. |
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| Adult Dose | 0.5-2 g/kg of 20% solution over a period as short as 30 min |
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| Pediatric Dose | Not established |
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| Contraindications | Documented hypersensitivity; anuria; severe pulmonary congestion; progressive renal damage; severe dehydration; active intracranial bleeding; progressive heart failure |
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| Interactions | May decrease serum lithium levels |
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| Pregnancy | C - Fetal risk revealed in studies in animals but not established or not studies in humans; may use if benefits outweigh risk to fetus
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| Precautions | Carefully evaluate cardiovascular status before rapid administration of mannitol since a sudden increase in extracellular fluid may lead to fulminating CHF; avoid pseudoagglutination, when blood given simultaneously, add at least 20 mEq of sodium chloride to each liter of mannitol solution; do not give electrolyte-free mannitol solutions with blood |
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Drug Category: Carbonic anhydrase inhibitors
Reduce vitreous volume and control IOP.
| Drug Name | Acetazolamide sodium (Diamox, Diamox sequels) |
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| Description | Inhibits enzyme carbonic anhydrase, reducing rate of aqueous humor formation, which, in turn, reduces IOP. Used for adjunctive treatment of chronic simple (open-angle) glaucoma and secondary glaucoma and preoperatively in acute angle-closure glaucoma when delay of surgery desired to lower IOP. |
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| Adult Dose | 125/250 mg PO qid
Sequels: 500 mg bid |
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| Pediatric Dose | Not established |
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| Contraindications | Documented hypersensitivity; hepatic disease; severe renal disease; adrenocortical insufficiency; severe pulmonary obstruction |
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| Interactions | Can decrease therapeutic levels of lithium and alter excretion of drugs (amphetamines, quinidine, phenobarbital, salicylates) by alkalinizing urine |
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| Pregnancy | C - Fetal risk revealed in studies in animals but not established or not studies in humans; may use if benefits outweigh risk to fetus
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| Precautions | Patients with impaired hepatic function may go into coma; may cause substantial increase in blood glucose in some diabetic patients |
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Drug Category: Beta-blockers
The exact mechanism of ocular antihypertensive action is not established, but it appears to be a reduction of aqueous humor production. However, some studies show a slight increase in outflow facility with timolol and metipranolol.
| Drug Name | Timolol maleate (Timoptic, Timoptic XE, Blocadren) |
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| Description | May reduce elevated and normal IOP, with or without glaucoma by reducing production of aqueous humor or by outflow. Available as 0.25% and 0.50% in aqueous and in gel for long action. |
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| Adult Dose | Timoptic: 1 gtt of 0.25% or 0.5% in affected eye(s) bid; if IOP is maintained at satisfactory levels, change dosage to 1 gtt in affected eye(s) qd
Timoptic XE: 1 gtt qd |
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| Pediatric Dose | Not established |
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| Contraindications | Documented hypersensitivity; bronchial asthma; sinus bradycardia; second- and third-degree AV block; severe chronic obstructive pulmonary disease; overt cardiac failure; cardiogenic shock |
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| Interactions | May cause bradycardia and asystole when used in combination with systemic beta-blockers (may cause additive effects) |
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| Pregnancy | C - Fetal risk revealed in studies in animals but not established or not studies in humans; may use if benefits outweigh risk to fetus
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| Precautions | Product may have sulfites, which may cause allergic-type reactions in susceptible patients; may exacerbate or precipitate heart block, asthma, chronic obstructive pulmonary disease, and mental changes (especially in elderly patients) |
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Drug Category: Cycloplegics and mydriatics
To overcome pupillary block. Instillation of a long-acting cycloplegic agent can relax any ciliary muscle spasm that can cause a deep aching pain and photophobia.
| Drug Name | Atropine (Isopto Atropine, Atropisol) |
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| Description | Acts at parasympathetic sites in smooth muscle to block response of sphincter muscle of iris and muscle of ciliary body to acetylcholine, causing mydriasis and cycloplegia. Available as 0.5% and 1% ointment and solution. |
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| Adult Dose | Solution (1%): 1-2 gtt bid; compress lacrimal sac by digital pressure for 1-3 min after instillation
Ointment: Apply 0.5-inch ribbon in conjunctival sac tid |
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| Pediatric Dose | Solution (0.5%): 1-2 gtt qd |
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| Contraindications | Documented hypersensitivity; primary glaucoma or tendency (history); adhesions between iris and lens |
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| Interactions | None reported |
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| Pregnancy | C - Fetal risk revealed in studies in animals but not established or not studies in humans; may use if benefits outweigh risk to fetus
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| Precautions | Compress lacrimal sac by digital pressure for 1-3 min to prevent systemic absorption; caution in Down syndrome or children with brain damage (may cause hyperreactive response |
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Further Outpatient Care
- Further outpatient care consists of having the patient come in for regular postoperative visits. The examination includes observing the anterior chamber at the slit lamp, assessing the wound condition, checking the applanation tension, and performing a complete fundus examination.
Medical/Legal Pitfalls
- In all cases of trauma and with reoperations, special attention should be devoted to documentation of the clinical findings, rationale for the procedure, and patient informed consent. The operative record and postoperative visits should be reviewed carefully prior to completion and submission.
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Postoperative Flat Anterior Chamber excerpt Article Last Updated: Aug 3, 2007
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