Bacterial endophthalmitis
Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Associate Editor(s)-in-Chief: Sara Mehrsefat, M.D. [2]
Overview
Bacterial endophthalmitis means bacterial infection inside the eye, involving the vitreous and/or aqueous humors. Most cases of endophthalmitis are exogenous, and organisms are introduced into the eye via trauma, surgery, or an infected cornea. Endogenous endophthalmitis occurs when the eye is seeded via the bloodstream. Patients usually have symptoms from their underlying systemic infection, but sometimes present only with eye symptom.
Historical Perspective
In 1916, Dr. Leonard Weakly published a case report which detailed a patient with bacterial endophthalmitis concurrent with meningitis.[1]
Classification
Based on how infectious agents are introduce to the anterior and posterior segments of the eye, bacterial endophthalmitis may be classified into:[2][3]
- Exogenous bacterial endophthalmitis
- Acute post-operative bacterial endophthalmitis
- Delayed post-operative bacterial endophthalmitis
- Post-traumatic bacterial endophthalmitis (following a penetrating injury of the globe)
- Post-intravitreal injection bacterial endophthalmitis
- Endogenous bacterial endophthalmitis
Pathophysiology
Exogenous bacterial endophthalmitis
Pathogenesis
Acute post-operative bacterial endophthalmitis
Acute post-operative bacterial endophthalmitis is an ocular inflammation resulting from the introduction of an infectious agent, most commonly coagulase-negative staphylococci, into the posterior segment of the eye. Nearly every type of ocular surgery, such as cataract (approximately 90% of all cases), glaucoma, retinal, radial keratotomy, and intravitreal injections, may be able to disturb the eye globe integrity and contaminate the aqueous humor and/or vitreous. Preoperative topical antimicrobial agents can decrease colony counts in the tear film, but they do not sterilize the area. The exact low rate of clinical infection following eye surgery (despite the relatively high prevalence of microorganisms in the eye) is not fully understood. It is thought that low rate of clinical infection following surgical procedure is explained by combination of low inoculum levels, low pathogenicity, and the innate ocular defenses against infection.[2][3][4]
Delayed postoperative bacterial endophthalmitis Post-operative bacterial endophthalmitis may also occur weeks to years following surgery. It presents as a low-grade inflammation in the anterior chamber. The exact pathogenesis of delayed postoperative bacterial endophthalmitis is not fully understood. It is thought that delayed post-operative bacterial endophthalmitis is caused by either sequestration of low-virulence organisms introduced at the time of surgery or delayed inoculation of organisms to the eye through wound abnormalities, suture tracks, or filtering blebs. Propionibacterium acnes is the most common microorganism encountered in delayed post-operative bacterial endophthalmitis. [2][3]
Post-traumatic bacterial endophthalmitis
Post-traumatic bacterial endophthalmitis occurs following penetrating ocular injuries. Following penetrating injury, the eye globe integrity disturbed. Penetrating ocular injuries are accompanied by infection at a much higher rate compere to ocular surgery. The broad prevalence range is due to factors such as:
- Presence of an intraocular foreign body
- Delay primary globe repair
- Location and extent of laceration of the globe
Post-traumatic endophthalmitis associated with a greater variety of organisms. The most common isolated organisms include Gram-positive Staphylococcus epidermidis and Streptococcus (as a part of the normal skin flora and regularly contaminate open wounds). Bacillus cereus is ranked second and some cases are polymicrobial.[3][5]
Post-intravitreal injection bacterial endophthalmitis
Post-intravitreal injection bacterial endophthalmitis occurs following intravitreal injection of either triamcinolone acetone or anti-vascular endothelial growth factors (anti VEGF)
Gross Pathology
On gross pathology, eyelid swelling, eyelid erythema, injected conjunctiva and sclera, hypopyon, chemosis, and mucoprulunt dischage are characteristic findings of exogenous bacterial endophthalmitis.
Microscopic histopathological analysis
On microscopic histopathological analysis, infiltration of polymorphonuclear leukocytes or chronic inflammatory cells (depending on the duration of the inflammation) and destruction of ocular structures are characteristic findings of bacterial endophthalmitis.
Endogenous bacterial endophthalmitis
Pathogenesis
Endogenous endophthalmitis is caused by the hematologic dissemination of an infection to the eyes. Most common extraocular foci of infection include liver abscess, pneumonia, endocarditis, and soft tissue infection. Endogenous endophthalmitis is commonly associated with immunosuppression or procedures that increase the risk for blood-borne infections, such as diabetes, HIV, malignancy, intravenous drug use, transplantation, immunosuppressive therapy, and catheterization. Under normal circumstances, the blood-ocular barrier provides a natural resistance against invading organisms. Following bacteremia, the blood-borne organisms permeate the blood-ocular barrier by:[2][3][6]
- Direct invasion (septic emboli)
- Change in vascular endothelium (caused by inflammatory mediators released during infection)
Gross Pathology
On gross pathology, findings in endogenous endophthalmitis may be similar to those in infections of exogenous origin.
Microscopic histopathological analysis
On microscopic histopathological analysis, infiltration of polymorphonuclear leukocytes or chronic inflammatory cells (depending on the duration of the inflammation) and destruction of ocular structures are characteristic findings of bacterial endophthalmitis.
Causes
Post-operative Bacterial Endophthalmitis
Post-operative endophthalmitis has been reported following nearly every type of ocular surgery. Common causes of post-operative bacterial endophthalmitis include:[2][3]
- Gram-positive bacteria (95%)
- Coagulase-negative staphylococci (70%)
- Staphylococcus epidermidis (most of the cases)
- Staphylococcus aureus (10%)
- Streptococcus (9%)
- Enterococcus and mixed bacteria (5%)
- Coagulase-negative staphylococci (70%)
- Gram-negative bacilli (6%)
Delayed Post-operative Bacterial Endophthalmitis
Common causes of delayed post-operative bacterial endophthalmitis include:[2][3]
- Propionibacterium acnes (most common)
- Streptococcus species
Post-traumatic Bacterial Endophthalmitis
Common causes of post-traumatic bacterial endophthalmitis include:[2][3][5]
- Gram-positive bacteria
- Gram-negative bacilli
- Polymicrobial
Endogenous bacterial endophthalmitis
Common causes of endogenous bacterial endophthalmitis include:[2][3][6]
- Gram-positive bacteria
- Streptococcus pneumoniae
- Staphylococcus aureus
- Bacillus cereus (primary bacterial cause in intravenous drug abusers)
- Gram-negative bacteria
- Neisseria meningitidis (pre-antibiotic era)
- Escherichia coli
- Klebsiella
Differentiating Bacterial Endophthalmitis from Other Diseases
Bacterial endophthalmitis must be differentiated from:[2][3][7]
- Fungal endophthalmitis
- Post-operative inflammation
- Intraocular foreign body
- Acute retinal necrosis
- Keratitis (interstitial)
- Uveitis
- Hyphema
- Toxic anterior segment syndrome (TASS)
- Vitreous hemorrhage
- Autoimmune disorders (Ankylosing Spondylitis, Spondyloarthropathy, acute complications of Sarcoidosis, and HLA-B27 Syndromes)
Epidemiology and Demographics
- Post-operative bacetrial endophthalmitis accounts for approximately 60000 cases per 100,000 cases of exogenous endophthalmitis.[8]
- Endogenous endophthalmitis is a rare disease that tends to affect immunocompromised patients and patients with chronic disease.
- Endogenous endophthalmitis accounts for approximately 5000 to 10000 cases per 100,000 cases with endophthalmitis.[9]
Prevalence and Incidence
- The incidence of post-traumatic endophthalmitis was estimated to range from 3.300 to 30,000 per 100,000 individuals with penetrating ocular trauma.[3][5]
- The incidence of post-traumatic endophthalmitis was estimated to range from 1,300 to 61,000 per 100,000 individuals with intraocular foreign body.[3][5]
- The incidence of endogenous endophthalmitis is estimated to be 50 cases per 100,000 hospitalized patients.[3][5]
Age
- Post-operative bacterial endophthalmitis (following cataract surgery) commonly affects patients older than 85 years.[3]
- Patients of all age groups may develop endogenous bacterial endophthalmitis.[8]
Gender
- Exogenous and endogenous bacterial endophthalmitis affects men and women equally.[3]
Geographical Distribution
- In East Asian populations, liver abscess caused by Klebsiella pneumoniae is estimated to be the source of 60.000 cases per 100,000 individuals with endogenous endophthalmitis.[6]
Developed countries
- In the United States, post-cataract endophthalmitis is the most common form of bacterial endophthalmitis.
- In the United States, the incidence of cataract endophthalmitis was estimated to range from 80 to 360 cases per 100,00 individuals with ocular surgery.[8]
- In the United States, the incidence of culture-proven postoperative endophthalmitis caused by cataract surgery with or without intraocular lens (IOL) was estimated to be 80 cases per 100,000 individuals.
- In the United States, the incidence of culture-proven postoperative endophthalmitis caused by penetrating keratoplasty was estimated to be 170 cases per 100,000 individuals.
- In the United States, the incidence of culture-proven postoperative endophthalmitis caused by secondary IOL placement was estimated to be 360 cases per 100,000 individuals.
Risk Factors
Post-operative bacterial endophthalmitis
Common risk factors in the development of post-operative bacterial endophthalmitis include:[3][10][11][12][13][14]
- Secondary intraocular lens placement
- Intra-ocular lenses (IOLs) with polypropylene
- Clear corneal incisions
- Vitreous contamination following cataract surgery (break in the posterior lens capsule)
- Implantation of an intraocular lens without a heparinized surface
- Diabetes
- immunosuppressive therapy
- Wound dehiscence or leak
- Age ≥85
- Eyelid abnormalities (blepharitis, conjunctivitis, cannuliculitis, lacrimal duct obstructions, and contact lens wear)
Post-traumatic bacterial endophthalmitis
Common risk factors in the development of post-traumatic bacterial endophthalmitis include:[3][5]
- Retained intraocular foreign bodies
- Delay in repair more than 24 hours
- Disruption of the lens
Endogenous bacterial endophthalmitis
Common risk factors in the development of endogenous bacterial endophthalmitis include:[2][3][6]
- Immunosuppression
- Diabetes
- HIV
- Malignancy
- Intravenous drug use
- Catheterization
- Long-term use of broad-spectrum antibiotics or immunosuppressive drugs
Screening
Screening for bacterial endophthjalmitis is not recommended.
There is insufficient evidence to recommend routine aqueous culture in all cases of open globe injury.[3][15]
Natural History, Complications, and Prognosis
Natural History
Bacterial endophthalmitis is a medical emergency. If left untreated, It may lead to panophthalmitis, corneal infiltration, corneal perforation, and ultimately permanent vision loss. Endogenous endophthalmitis can be a life-treating condition. If systemic infection left undetected, it may develop to sepsis and ultimately death
Complications
Common complications of bacterial endophthalmitis include:
- Panophthalmitis
- Decrease or loss of vision
- Chronic pain
- Cataract development
- Retinal detachment
- Vitreous hemorrhage
- Hypotony and phthisis bulbi
- Proptosis and a corneal abscess (specific for post-traumatic)
- Sepsis (endogenous endophthalmit)
- Suprachoroidal hemorrhage (endogenous endophthalmit)
Prognosis
Bacterial endophthalmitis, whether of exogenous or endogenous origin, is often associated with poor prognosis. Early diagnosis and treatment with antimicrobial therapy are fundamental to optimize visual outcome.[3][16]
Post-operative bacterial endophthalmitis caused by any type of streptococci is associated with very poor visual outcome. Post-operative bacterial endophthalmitis caused by coagulase-negative staphylococcus (cause milder endophthalmitis) is associated with better visual outcome than strepcocci. Overall, 50% of eyes with post-cataract endophthalmitis obtain a final visual acuity 20/40 vision, and 10% obtain a final visual acuity of 20/400.[2]
Post-traumatic bacterial endophthalmitis is associated with particularly very poor visual outcome. Only 22% to 42% patients with post-traumatic bacterial endophthalmitis obtain a final visual acuity of 20/400 or better.[3][17]
Delayed post-operative endophthalmitis is associated with particularly good prognosis with treatment.[18]
The prognosis of endogenouse bacterial endophthalmtis varies with the offending organism and the systemic status of the patient. Late detection and late treatment of systemic infection in endogenouse bacterial endophthalmtis is associated with a poor prognosis.[2][3][6]
Diagnosis
Diagnostic Criteria
Endophthalmitis is a clinical diagnosis, supported by culture of intra-ocular fluids.[2][3]
History
A detailed and thorough history from the patient is necessary. Specific areas of focus when obtaining a history from the patient with exogenous endophthalmitis include:
- History of previous intraocular surgery
- History of eye trauma
- History of chronic, recurrent, steroid responsive idiopathic uveitis (most patients with delayed post-operative endophthalmitis are characterized by this presentation)
Specific areas of focus when obtaining a history from the patient with endogenous endophthalmitis include history of diabetes mellitus, HIV infection, cancer, renal failure requiring dialysis, cardiac disease, use of immunosuppressive drugs, major surgery, intravenous catheters, and intravenous drug abuse.
Symptoms
- Acute bacterial post-operative endophthalmitis may occur within hours to few days after surgical procedures in 75% of cases. Symptoms include fever, decreased vision, red eye, and eye pain.
- Delayed post-operative endophthalmitis may occur several weeks or month after surgery and often include less virulent bacteria. Symptoms include insidious decrease of vision, gradually increasing redness and minimal or no pain.
- Posttraumatic bacterial endophthalmitis may occur within hours after the trauma or up to several weeks after injury. Symptoms include decreased vision, pain greater than expected, and lid swelling.
- Endogenouse bacterial endophthalmtis presents with eye symptoms (eye pain, blurred vision, ocular discharge, and photophobia) rather than symptoms of their underlying infection.
Physical Examination
A thorough physical and eye examination from the patient is necessary. Common ophthalmoscope examination findings of exogenous bacterial endophthalmitis include:[2][3]
- Visual acuity less than 5/200
- Light perception
- No retinal vessel visible by indirect ophthalmoscopy
- Conjunctival injection
- eyelid edema
- Hypopyon
- Clumps of exudate in the anterior chamber (around the pupillary margin)
- Cloudy cornea
- Decreased red reflex
- Anterior chamber and vitreous inflammatory reactions
- Retinitis
- Ring corneal infiltrate (post-traumatic)
- Roth's spots and retinal periphlebitis (endogenouse endophthalmtis)
Patients with endogenouse bacterial endophthalmtis usually appear extremely ill and lethargic. Therefore, eye examination in extremely ill patients, such as those in intensive care units (ICU), seems necessary. Additionally, a thorough examination is necessary to identify the primary source of infection in patient with endogenous endophthalmitis.
Laboratory Findings
Laboratory studies consistent with the diagnosis of bacterial endophthalmitis include:[2][19][20]
- Culture and gram stain of aqueous humor as well as the vitreous humor (not often sensitive)
- Polymerase chain reaction (PCR) of aqueous humor as well as the vitreous humor (much more sensitive than culture (70% vs. 9%)
- Conjunctival and eyelid cultures in patients with blepharitis and wound dehiscence may indicated
- Blood cultures (it is positive in 75% of cases of endogenous endophthalmitis)
Vitreous cultures are more likely to be positive after vitrectomy than vitreous aspirate (90% vs. 75%), and aqueous cultures are positive in 40% of all cases with endophthalmitis.
Imaging Findings
X Ray
Chest X ray is helpful for detecting the source of infection in patients with endogenous endophthalmiatis.[2][3][6]
CT
Post-traumatic endophthalmitis
Orbital CT scan is helpful for localization of metallic intra ocular foreign bodies (IOFBs) in the setting of trauma. [3][17]
MRI
Post-traumatic endophthalmitis
Orbital MRI scan is helpful for localization of intra ocular foreign bodies (IOFBs) that may be radiolucent on CT in the setting of trauma. However, metallic IOFB must be excluded first.[3][17]
Ultrasound
On ocular ultrasonography, endophthalmitis may characterized by anterior vitreous haze echoes and retinochoroidal thickening.[2][3]
Other Imaging Findings
Orbital echography is helpful for assessment of vitreous opacification, presence of (IOFBs), status of the posterior hyaloid face, and retinal detachment in a patient with either post-operative or post-traumatic endophthalmitis.[3][17]
Other Diagnostic Studies
Other diagnostic studies for endogenous endophthalmiatis include:[2][3][6]
- Echocardiography (assessed the possibility of endocarditis).
- Testing for human immunodeficiency virus (HIV)
- Cultures of other sites (catheter tip)
Treatment
Medical Therapy
The patient needs urgent examination by an expert ophthalmologist and/or vitreo-retina specialist who will usually decide for urgent intervention to provide intravitreal injection of potent antibiotics and also prepare for an urgent pars plana vitrectomy as needed. Enucleation may be required to remove a blind and painful eye.[2][19]
- Bacterial cultures from vitreous samples are necessary in the management of bacterial endophthalmitis
- In addition to intravitreal antibiotic therapy, immediate vitrectomy is often necessary
- Repeat antimicrobial regimen in 2 days post-vitrectomy is necessary
- In post-traumatic bacterial endophthalmitis, treatment should be aggressive (intravitreal antibiotics, systemic therapy, and vitrectomy)
- In delayed post-operative endophthalmitis, treatment should include vitrectomy with posterior capsulectomy and intravitreal injection.
Antimicrobial Regimens
- Infectious endophthalmitis[2]
- 1. Causative pathogens
- 2. Empiric antimicrobial therapy
- Preferred regimen: Vancomycin 1 mg per 0.1 mL normal saline intravitreal injection, single dose AND Vancomycin 1 g IV bid for 2 weeks AND Ceftazidime 2.25 mg per 0.1 mL normal saline intravitreal injection, single dose AND Ceftazidime 1 g IV bid for 2 weeks AND Clindamycin 600-1200 mg IV bid to qid for 2 weeks
- Note (1): Re-injection should be considered if the infection does not improve beyond 48 hours of the first injection. Re-injection significantly increases the risk of retinal toxicity.
- Note (2): In addition to intravitreal and systemic antibiotic therapy, vitrectomy is usually necessary
- Note (3): Intravitreal and intravenous Amphotericin B may be added to the regimen if fungal endophthalmitis is suspected
- 3. Pathogen-directed antimicrobial therapy
- 3.1 Bacillus spp.
- Preferred regimen: Vancomycin 1 mg per 0.1 mL normal saline intravitreal injection, single dose AND Vancomycin 1 g IV bid for 2 weeks AND Clindamycin 600-1200 mg IV bid to qid for 2 weeks
- Note: In addition to antimicrobial therapy, vitrectomy is usually necessary
- 3.2 Non-Bacillus gram-positive bacteria
- Preferred regimen: Vancomycin 1 mg per 0.1 mL normal saline intravitreal injection, single dose AND Vancomycin 1 g IV bid for 2 weeks
- Note: In addition to antimicrobial therapy, vitrectomy is usually necessary
- 3.3 Gram-negative bacteria
- Preferred regimen: Ceftazidime 2.25 mg per 0.1 mL normal saline intravitreal injection, single dose AND Ceftazidime 1 g IV bid for 2 weeks
- Note (1): In addition to antimicrobial therapy, vitrectomy is usually necessary
- Note (2): Repeat antimicrobial regimen in 2 days post-vitrectomy
- 4. Special Considerations
- 4.1 Endogenous endophthalmitis
- 4.1.1 Empiric antimicrobial therapy
- Preferred regimen: Vancomycin 1 mg per 0.1 mL normal saline intravitreal injection, single dose AND Vancomycin 1 g IV bid for 2 weeks AND Ceftazidime 2.25 mg per 0.1 mL normal saline intravitreal injection, single dose AND Ceftazidime 1 g IV bid for 2 weeks AND Clindamycin 600-1200 mg IV bid to qid for 2 weeks
- Note (1): Re-injection should be considered if the infection does not improve beyond 48 hours of the first injection. Re-injection significantly increases the risk of retinal toxicity.
- Note (2): In addition to intravitreal and systemic antibiotic therapy, vitrectomy is usually necessary::* Note (3): Intravitreal and intravenous Amphotericin B may be added to the regimen if fungal endophthalmitis is suspected
- 4.2 Post-operative endophthalmitis
- 4.2.1 Empiric antimicrobial therapy
- Preferred regimen: Vancomycin 1 mg per 0.1 mL normal saline intravitreal injection, single dose AND Ceftazidime 2.25 mg per 0.1 mL normal saline intravitreal injection, single dose
- Note (1): In addition to intravitreal antibiotic therapy, vitrectomy is necessary
- Note (2): If there is no improvement in 48 h, a repeat intravitreal injection may be administered
- Note (3): Late post-operative endophthalmitis is often caused by Propionibacterium acnes (several years post-op)
- 4.2.2 Pathogen-directed antimicrobial therapy
- 4.2.2.1 Gram-positive bacteria
- Preferred regimen: Vancomycin 1 mg per 0.1 mL normal saline intravitreal injection, single dose
- 4.2.2.2 Gram-negative bacteria
- Preferred regimen: Amikacin 0.4 mg per 0.1 mL normal saline intravitreal injection, single dose
- Note: Intravitreal amikacin is associated with the development of retinal microvasculitis
- 4.3 Post-traumatic endophthalmitis
- 4.3.1 Empiric antimicrobial therapy
- Preferred regimen: Vancomycin 1 mg per 0.1 mL normal saline intravitreal injection, single dose AND Ceftazidime 2.25 mg per 0.1 mL normal saline intravitreal injection, single dose AND Amphotericin B 5-10 microgram in 0.1 mL in normal saline intravitreal injection, single dose
- Note (1): Removal of foreign bodies and debridement of necrotic tissue is necessary
- Note (2): In addition to antimicrobial therapy, vitrectomy is necessary
- Note (3): Systemic broad spectrum antibiotics are recommended in post-traumatic endophthalmitis
Surgery
Vitrectomy
Vitrectomy surgically debrides the vitreous humor, similarly to draining an abscess, and is the fastest way of clearing infection in eyes with fulminant endophthalmitis.[2][19][21]
- Vitrectomy is recommended for all patients who develop exogenous bacterial endophthalmitis.
- Vitrectomy is recommended in severe cases of endogenous bacterial endophthalmitis.
The benefits of vitrectomy include:
- Better vitreous sample
- Rapid and complete sterilization of the vitreous
- Removal of toxic bacterial products
- Enhancement of systemic antimicrobial penetration in to the eye
Prevention
Primary prevention
Effective measures for the primary prevention of post-operative endophthalmitis include:[22][23][24][25]
- Proper sterile preparation of the surgical site
- Sterile preparation of the skin surrounding the surgical eye with Povidone-Iodine 10%
- Povidone-Iodine 5% onto the ocular surface (3-5 minutes prior to surgery)
- preoperative antibiotic propylaxis (timing, routs of delivery, and antibiotic choice in not clear)
- Proper construction of wound, injectable intraocular lenses
- Preoperative clinical assessment of the patient before proceeding for surgery
Effective measures for the primary prevention of post-traumatic endophthalmitis include:[26]
- Primary globe repair within 24 h
- Removal of foreign bodies and debridement of necrotic tissue
- Intracameral or intravitreal antibiotic injection after penetrating eye injury
Effective measures for the primary prevention of endogenous endophthalmitis include:
- Effective treatment of underlining medical conditions
Secondary prevention
There are no secondary preventive measures available for Bacterial endophthalmiatis. Bacterial endophthalmiatis is a medical emergency.
References
- ↑ Weakley AL (1916). "METASTATIC ENDOPHTHALMITIS IN A CASE OF CEREBRO-SPINAL MENINGITIS". Br Med J. 1 (2871): 47–8. PMC 2346850. PMID 20767965.
- ↑ 2.00 2.01 2.02 2.03 2.04 2.05 2.06 2.07 2.08 2.09 2.10 2.11 2.12 2.13 2.14 2.15 2.16 2.17 2.18 2.19 2.20 Durand ML (2013). "Endophthalmitis". Clin Microbiol Infect. 19 (3): 227–34. doi:10.1111/1469-0691.12118. PMC 3638360. PMID 23438028.
- ↑ 3.00 3.01 3.02 3.03 3.04 3.05 3.06 3.07 3.08 3.09 3.10 3.11 3.12 3.13 3.14 3.15 3.16 3.17 3.18 3.19 3.20 3.21 3.22 3.23 3.24 3.25 3.26 3.27 3.28 3.29 Kernt M, Kampik A (2010). "Endophthalmitis: Pathogenesis, clinical presentation, management, and perspectives". Clin Ophthalmol. 4: 121–35. PMC 2850824. PMID 20390032.
- ↑ Keay L, Gower EW, Cassard SD, Tielsch JM, Schein OD (2012). "Postcataract surgery endophthalmitis in the United States: analysis of the complete 2003 to 2004 Medicare database of cataract surgeries". Ophthalmology. 119 (5): 914–22. doi:10.1016/j.ophtha.2011.11.023. PMC 3343208. PMID 22297029.
- ↑ 5.0 5.1 5.2 5.3 5.4 5.5 Essex RW, Yi Q, Charles PG, Allen PJ (2004). "Post-traumatic endophthalmitis". Ophthalmology. 111 (11): 2015–22. doi:10.1016/j.ophtha.2003.09.041. PMID 15522366.
- ↑ 6.0 6.1 6.2 6.3 6.4 6.5 6.6 Wong JS, Chan TK, Lee HM, Chee SP (2000). "Endogenous bacterial endophthalmitis: an east Asian experience and a reappraisal of a severe ocular affliction". Ophthalmology. 107 (8): 1483–91. PMID 10919895.
- ↑ American Academy of Ophthalmology/eyewiki (2014) http://eyewiki.aao.org/Endophthalmitis Accessed on July 20, 2016
- ↑ 8.0 8.1 8.2 Aaberg TM, Flynn HW, Schiffman J, Newton J (1998). "Nosocomial acute-onset postoperative endophthalmitis survey. A 10-year review of incidence and outcomes". Ophthalmology. 105 (6): 1004–10. doi:10.1016/S0161-6420(98)96000-6. PMID 9627649.
- ↑ Jackson TL, Eykyn SJ, Graham EM, Stanford MR (2003). "Endogenous bacterial endophthalmitis: a 17-year prospective series and review of 267 reported cases". Surv Ophthalmol. 48 (4): 403–23. PMID 12850229.
- ↑ Taban M, Behrens A, Newcomb RL, Nobe MY, Saedi G, Sweet PM; et al. (2005). "Acute endophthalmitis following cataract surgery: a systematic review of the literature". Arch Ophthalmol. 123 (5): 613–20. doi:10.1001/archopht.123.5.613. PMID 15883279.
- ↑ Endophthalmitis Study Group, European Society of Cataract & Refractive Surgeons (2007). "Prophylaxis of postoperative endophthalmitis following cataract surgery: results of the ESCRS multicenter study and identification of risk factors". J Cataract Refract Surg. 33 (6): 978–88. doi:10.1016/j.jcrs.2007.02.032. PMID 17531690.
- ↑ Krall EM, Arlt EM, Jell G, Strohmaier C, Bachernegg A, Emesz M; et al. (2014). "Intraindividual aqueous flare comparison after implantation of hydrophobic intraocular lenses with or without a heparin-coated surface". J Cataract Refract Surg. 40 (8): 1363–70. doi:10.1016/j.jcrs.2013.11.043. PMID 25088637.
- ↑ Cooper BA, Holekamp NM, Bohigian G, Thompson PA: Case-control study of endophthalmitis after cataract surgery comparing scleral tunnel and clear corneal wounds. Am J Ophthalmol 2003; 137:598–599.
- ↑ Menikoff JA, Speaker MG, Marmor M, Raskin EM: A case-control study of risk factors for post-operative endophthalmitis. Ophthalmology 1991; 98:1761–1768.
- ↑ Ariyasu RG, Kumar S, LaBree LD, Wagner DG, Smith RE (1995). "Microorganisms cultured from the anterior chamber of ruptured globes at the time of repair". Am J Ophthalmol. 119 (2): 181–8. PMID 7832224.
- ↑ Mamalis N (2002). "Endophthalmitis". J Cataract Refract Surg. 28 (5): 729–30. PMID 11978440.
- ↑ 17.0 17.1 17.2 17.3 Affeldt JC, Flynn HW, Forster RK, Mandelbaum S, Clarkson JG, Jarus GD (1987). "Microbial endophthalmitis resulting from ocular trauma". Ophthalmology. 94 (4): 407–13. PMID 3495766.
- ↑ Zambrano, William, et al. "Management options for Propionibacterium acnes endophthalmitis." Ophthalmology 96.7 (1989): 1100-1105.
- ↑ 19.0 19.1 19.2 Barza M, Pavan PR, Doft BH, Wisniewski SR, Wilson LA, Han DP; et al. (1997). "Evaluation of microbiological diagnostic techniques in postoperative endophthalmitis in the Endophthalmitis Vitrectomy Study". Arch Ophthalmol. 115 (9): 1142–50. PMID 9298055.
- ↑ Seal D, Reischl U, Behr A, Ferrer C, Alió J, Koerner RJ; et al. (2008). "Laboratory diagnosis of endophthalmitis: comparison of microbiology and molecular methods in the European Society of Cataract & Refractive Surgeons multicenter study and susceptibility testing". J Cataract Refract Surg. 34 (9): 1439–50. doi:10.1016/j.jcrs.2008.05.043. PMID 18721702.
- ↑ "Results of the Endophthalmitis Vitrectomy Study. A randomized trial of immediate vitrectomy and of intravenous antibiotics for the treatment of postoperative bacterial endophthalmitis. Endophthalmitis Vitrectomy Study Group". Arch Ophthalmol. 113 (12): 1479–96. 1995. PMID 7487614.
- ↑ Kelkar A, Kelkar J, Amuaku W, Kelkar U, Shaikh A (2008). "How to prevent endophthalmitis in cataract surgeries?". Indian J Ophthalmol. 56 (5): 403–7. PMC 2636140. PMID 18711270.
- ↑ Isenberg, Sherwin J., et al. "Efficacy of topical povidone-iodine during the first week after ophthalmic surgery." American journal of ophthalmology 124.1 (1997): 31-35.
- ↑ Classen, David C., et al. "The timing of prophylactic administration of antibiotics and the risk of surgical-wound infection." New England Journal of Medicine 326.5 (1992): 281-286.
- ↑ Barry, Peter, et al. "ESCRS study of prophylaxis of postoperative endophthalmitis after cataract surgery: preliminary report of principal results from a European multicenter study." Journal of Cataract & Refractive Surgery 32.3 (2006): 407-410.
- ↑ Soheilian M, Rafati N, Mohebbi MR, Yazdani S, Habibabadi HF, Feghhi M; et al. (2007). "Prophylaxis of acute posttraumatic bacterial endophthalmitis: a multicenter, randomized clinical trial of intraocular antibiotic injection, report 2". Arch Ophthalmol. 125 (4): 460–5. doi:10.1001/archopht.125.4.460. PMID 17420365.