Dear Editor,
Cataract surgery on a trabeculectomized eye should be performed with caution, since the dynamics of the anterior chamber (AC) can be adversely affected [
A 55-year-old Korean male underwent phacoemulsification of the crystalline lens and intraocular lens (IOL) implantation in the left eye due to aggravated cataract after intraocular surgery. Six months previously, he had undergone an uncomplicated trabeculectomy for uncontrolled intraocular pressure (IOP) on the left eye due to primary open-angle glaucoma. The IOP was controlled to between 6 and 8 mmHg after the trabeculectomy without any noticeable complications. Six months postoperatively, the patient complained of decreased visual acuity (VA) in the operated eye. Aggravation of the cataract in his left eye was notable, dropping his VA from 120/200 to 80/200.
Cataract extraction was performed under sub-Tenon’s block using phacoemulsification of the crystalline lens. During the phacoemulsification, the AC became temporarily shallowed by a sudden rise of posterior chamber pressure, but the cataract was extracted without any complication, the IOL being placed in the capsular bag. On day 8 postoperatively, a slit-lamp examination revealed the well placed IOL in the capsular bag with deep AC. The IOP had risen to 20 mmHg with a decrease in size of the filtering bleb. On gonioscopy, ciliary body (CB) incarceration to the internal ostium at the sclerotomy site was observed (
Trabeculectomy followed by cataract surgery significantly increases the risk of bleb failure. One explanation is that AC inflammation caused by cataract surgery upregulates fibrogenic cytokines in the aqueous humor, leading to excessive scarring at the conjunctival or scleral flap interface [
Since there was no excessive intraocular inflammation postoperatively, the elevation of posterior chamber pressure during phacoemulsification is thought to have been the cause of the anterior rotation and CB incarceration. A large iridectomy with or without evident pre-existing zonular damage, especially as it was near the area of the iridectomy site of the trabeculectomy, might have acted as a route for fluid misdirection during the phacoemulsification, thereby increasing the posterior chamber pressure and shallowing the AC. This altered flow and rise of posterior pressure could have incurred anterior rotation of the ciliary process and iris root, eventually leading to the CB incarceration at the sclerotomy site. However, although the CB incarceration had arisen intraoperatively, surgical repair would be better done as a fallback operation, because the posterior pressure was still expected to be high at the end of the surgery, and there would be a risk of bleeding consequent upon direct manipulation of the CB.
High-volume fluid input during cataract surgery can temporarily increase posterior chamber pressure. Especially in trabeculectomized eyes, fluid can be misdirected via damaged zonules around the iridectomy site. Usually this event has no consequences, but sometimes it can cause aqueous humor misdirection that pushes the CB process into the sclerotomy site. Surgeons should be fully aware of such a complication, since once the CB process becomes incarcerated, the narrowed fistula will dysfunction or cause inflammation. Medical treatment and/or surgical/laser intervention might be called for in such cases.
No potential conflict of interest relevant to this article was reported.
The authors received no financial support for this article.
None.
On day 8 after cataract surgery, ciliary body incarceration to internal ostium of sclerotomy site was observed on gonioscopic examination. Informed consent for publication of the research details and clinical images was obtained from the patient.