Patients at an increased risk of developing a persistent epithelial defect (e.g. corneal hypaesthesia, limbal stem cell deficiency and dry eye syndrome) are predisposed to the development of infection [24]. Patients should therefore be carefully assessed and counselled regarding these risks prior to surgery. The presence of corneal epithelial defect significantly increases the risk of infection. This is more in cases of PRK as compared to LASIK although small epithelial defects may be present with the latter as well. The use of bandage contact lens after PRK is a common practice. Although it may reduce pain and aid rapid re-epithelization, the risk of microbial keratitis is increased. Reduced corneal sensitivity which may persist for weeks after PRK may also be a contributing factor to infections [25]. The use of corticosteroids postoperatively further renders the eye susceptible to infections [26]. In post-LASIK eyes, the protection offered by the normal corneal epithelium and Bowman’s membrane is compromised, and the thinned cornea further increases the accessibility of the infective organism into the eye. There is also a higher chance of contamination of the interface with the patient’s own conjunctival secretions which is a potential source of infection. The use of microkeratome has an increased risk of infection compared to femtosecond laser-assisted LASIK surgeries. The incidence of fulminant infections is more in eyes with prior refractive surgeries, such as radial keratotomy (RK) before LASIK or PRK procedures [27–30].

Endophthalmitis post-refractive surgery is a rare entity. Mulhern et al. [31] reported a case of Streptococcus pneumoniae endophthalmitis following an uneventful astigmatic myopic LASIK correction. A case of postsurgical endophthalmitis following PRK in a patient with a remote history of RK was reported by Karth et al. [30]; the causative organism was methicillin-resistant Staphylococcus aureus. In an anonymous online survey across 21 countries between January 1998 and December 2006, three cases of endophthalmitis were reported, and Staphylococcus epidermidis was cultured in two of them [23]. There have been reported cases of endophthalmitis following refractive lens procedures caused by Fusarium, Pseudomonas aeruginosa and Aspergillus [32–34]. There are also case reports of late-onset Mycobacterium gordonae endophthalmitis following anterior chamber phakic intraocular lens (PIOL) implantation for high myopia [35], Streptococcus mitis/oralis endophthalmitis after complicated iris-fixated PIOL implantation [36], methicillin-resistant Staphylococcus epidermidis endophthalmitis following uncomplicated posterior chamber PIOL implantation [37] and Rhizobium radiobacter endophthalmitis after posterior chamber PIOL implantation for myopia 25 months after the primary surgery [38].

The onset of symptoms is classified as ‘early’, if it occurs within 7 days of refractive surgery, and ‘late’ if it occurs 10 days or more after the last surgical intervention. The most prominent symptom is sudden diminution of vision. The patients may present with associated pain, photophobia and discharge.

In cases of endophthalmitis following LASIK, slit lamp examination could reveal epithelial defect with surrounding infiltrates. Flap oedema is present in a majority of cases. Stromal abscess with severe anterior chamber reaction is seen in many cases (Figs. 16.3 and 16.4). Associated findings of epithelial ingrowth and flap separation may also be seen. Interface debris and infiltrates should be carefully looked for.