Preseptal and Orbital Cellulitis
Preseptal cellulitis and orbital cellulitis are distinct diseases that share a few clinical symptoms and signs. Preseptal cellulitis usually begins superficial to the orbital septum. Orbital cellulitis usually begins deep to the orbital septum. Both are more common among children; preseptal cellulitis is far more common than orbital cellulitis.
Orbital cellulitis is most often caused by extension of infection from adjacent sinuses, especially the ethmoid sinus. Less commonly, orbital cellulitis is caused by direct infection accompanying local trauma (eg, insect or animal bite, penetrating eyelid injuries) or contiguous spread of infection from the face or teeth or by hematogenous spread.
Pathogens vary by etiology and patient age. Streptococcus pneumoniae is the most frequent pathogen associated with sinus infection, whereas Staphylococcus aureus and S. pyogenes predominate when infection arises from local trauma. Haemophilus influenzae type b, once a common cause, is now less common because of widespread vaccination. Fungi are uncommon pathogens, causing orbital cellulitis in diabetic or immunosuppressed patients. Infection in children < 9 years is typically with a single aerobic organism; with increasing age, particularly age > 15 years, infection is more typically polymicrobial with mixed aerobic and anaerobic (Bacteroides, Peptostreptococcus) infections.
Because orbital cellulitis originates from large adjacent foci of fulminant infection (eg, sinusitis) separated by only a thin bone barrier, orbital infection can be extensive and severe. Subperiosteal fluid collections, some quite large, can accumulate; they are called subperiosteal abscesses, but many are sterile initially.
Complications with orbital cellulitis include vision loss (3 to 11%) due to ischemic retinopathy and optic neuropathy caused by increased intraorbital pressure; restricted ocular movements (ophthalmoplegia) caused by soft-tissue inflammation; and intracranial sequelae from central spread of infection, including cavernous sinus thrombosis, meningitis, and cerebral abscess.
Symptoms and signs of preseptal cellulitis include tenderness, swelling, warmth, redness or discoloration (violaceous in the case of H. influenzae) of the eyelid, and sometimes fever. Patients may be unable to open their eyes because of eyelid swelling. The swelling and discomfort can make it difficult to examine the eye, but when accomplished, examination shows that visual acuity is not affected, ocular movement is intact, and the globe is not pushed forward (proptosis).
Symptoms and signs of orbital cellulitis include swelling and redness of the eyelid and surrounding soft tissues, conjunctival hyperemia and chemosis, decreased ocular motility, pain with eye movements, decreased visual acuity, and proptosis caused by orbital swelling. Signs of the primary infection are also often present (eg, nasal discharge and bleeding with sinusitis, periodontal pain and swelling with abscess). Fever is usually present. Headache and lethargy should raise suspicion of associated meningitis. Some or all of these findings may be absent early in the course of the infection.
Subperiosteal abscesses, if large enough, can contribute to symptoms of orbital cellulitis such as swelling and redness of the eyelid, decreased ocular motility, proptosis, and decreased visual acuity.
Diagnosis of preseptal cellulitis and orbital cellulitis is primarily clinical. Other disorders to consider include trauma, insect or animal bites without cellulitis, retained foreign bodies, allergic reactions, tumors, and inflammatory orbital pseudotumor.
Eyelid swelling may require the use of lid retractors for evaluation of the globe, and initial signs of complicated infection may be subtle. An ophthalmologist should be consulted when orbital cellulitis is suspected.
Preseptal cellulitis and orbital cellulitis are often distinguishable clinically. Preseptal cellulitis is likely if eye findings are normal except for eyelid swelling. The presence of a local nidus of infection on the skin makes preseptal cellulitis even more likely.
If findings are equivocal, if the examination is difficult (as in young children), or if nasal discharge is present (suggesting sinusitis), CT or MRI should be done to exclude orbital cellulitis, tumor, and pseudotumor. MRI is better than CT if cavernous sinus thrombosis is being considered.
The direction of proptosis may be a clue to the site of infection; eg, extension from the frontal sinus pushes the globe down and out, and extension from the ethmoid sinus pushes the globe laterally and out.
Blood cultures are often done (ideally before beginning antibiotics) in patients with orbital cellulitis, but less than one third are positive. Lumbar puncture is done if meningitis is suspected. Cultures of the paranasal sinus fluid are done if sinusitis is the suspected source. Other laboratory tests are not particularly helpful.
In patients with preseptal cellulitis, initial therapy should be directed against sinusitis pathogens (S. pneumoniae, nontypeable H. influenzae, S. aureus, Moraxella catarrhalis); however, in areas where methicillin-resistant S. aureus is prevalent, clinicians should add appropriate antibiotics (eg, clindamycin, trimethoprim/sulfamethoxazole, or doxycycline for oral treatment and vancomycin for inpatient treatment). In patients with dirty wounds, gram-negative infection must be considered.
Outpatient treatment is an option if orbital cellulitis has been definitively excluded; children should have no signs of systemic infection and should be in the care of responsible parents or guardians. Patients should be closely followed by an ophthalmologist. Outpatient treatment options include amoxicillin/clavulanate 30 mg/kg orally every 8 hours (for children < 12 years) or 500 mg orally 3 times a day or 875 mg orally 2 times a day (for adults) for 10 days.
For inpatients, ampicillin/sulbactam 50 mg/kg IV every 6 hours (for children) or 1.5 to 3 g (for adults) IV every 6 hours (maximum 8 g ampicillin/day) for 7 days is an option. If methicillin-resistant S. aureus is a consideration antibiotics should be adjusted accordingly.
Patients with orbital cellulitis should be hospitalized and treated with meningitis-dose antibiotics (see table Common IV Antibiotic Dosages for Acute Bacterial Meningitis). A 2nd- or 3rd-generation cephalosporin, such as cefotaxime 50 mg/kg IV every 6 hours (for children < 12 years) or 1 to 2 g IV every 6 hours (for adults) for 14 days, is an option when sinusitis is present; imipenem, ceftriaxone, and piperacillin/tazobactam are other options. If cellulitis is related to trauma or foreign body, treatment should cover gram-positive, including methicillin-resistant S. aureus if in a prevalent area, (vancomycin 1 g IV every 12 hours) and gram-negative (eg, ertapenem 100 mg IV once/day) pathogens and be taken for 7 to 10 days or until clinical improvement.
Surgery to decompress the orbit, drain an abscess, open infected sinuses, or a combination is indicated in any of the following circumstances:
Preseptal and orbital cellulitis are differentiated by whether infection is anterior or posterior to the orbital septum.
Orbital cellulitis is usually caused by contiguous spread of ethmoid or frontal sinusitis, whereas preseptal cellulitis is commonly caused by contiguous spread from local facial or eyelid injuries, insect or animal bites, conjunctivitis, and chalazion.
Both disorders can cause tenderness, swelling, warmth, redness or discoloration of the eyelid, and fever.
Orbital cellulitis is likely if there is decreased ocular motility, pain with eye movements, proptosis, or decreased visual acuity.
Antibiotic therapy is indicated, with surgery reserved for complicated orbital cellulitis (eg, abscess, foreign body, impaired vision, antibiotic failure).