Interactive Grand Rounds
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Transcript of Interactive Grand Rounds
Interactive Grand Rounds
Blair Lonsberry, MS, OD, MEd., FAAODiplomate, American Board of Optometry
Clinic Director and ProfessorPacific University College of Optometry
Disclosures and Special Request
Paid consultant for:• Alcon Pharmaceuticals, Bausch and Lomb,
Carl Zeiss Meditec, NiCox, SucampoSpecial Request:
Interactive remotes don’t work on your TV, so please don’t take them home!
Commitment to change:- write down three things that you “learned” from this presentation that you can incorporate into your practice to improve patient care
CASE 1
Case History
• 38 black male, complaining that the vision in his right eye is blurry.–Got the current Rx 3 weeks
previously, and started out good but in last couple of days OD vision has become blurry
• Medical Hx: no current health concerns and no medications
Entrance Skills
Va’s: OD: 6/7.5 (20/25), OS: 6/6 (20/20) Pupils: PERRL CVF: full to finger count EOM’s: FROM Amsler: central metamorphopsia OD HVF: 10-2 (see VF)
Which of the following OCT’s goes with this patient?
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3
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CASE 2
Case
• 55 yr white female complains of fluctuating vision– Worse at near– Spends 8-10 hours/day on the computer
• Medical Hx:– Hypertension for 10 years – Joint pain
• Medications:– HCTZ for HTN– Celebrex for her joint pain
Exam Data
• VA (corrected): – 6/7.5 (20/25) OD, OS
• PERRL• EOM’s: FROM• CVF: FTFC• SLE:
– TBUT 5 sec OD, OS– Positive NaFl staining and
Lissamine green staining of conj and cornea
– Decreased tear prism
Additional Testing/Questions
• Schirmer: < 5 mm of wetting in 5 minutes OD, OS
• RF and ANA: normal for patients age• SS-A: 2.0 (normal < 1.0), SS-B: 1.9
(normal <1.0)• Additional symptoms reported:
– Patient experiences dry mouth and taking Salagen
• Diagnosis: Sjogren’s Syndrome
Differential Diagnosis of Dry Eye
Signs and Symptoms of Dry EyeSigns:
– Ocular Surface Damage• Corneal Staining (Fluorescein and/or Rose
Bengal)• Conjunctival Staining (Lissamine Green )
– Decreased Tear Quantity• Schirmer Score• Phenol Red Thread Test• Tear Meniscus Height
– Decreased Tear Quality• Tear Break Up Time (TBUT)• Tear Osmolarity
Symptoms:– Grittiness– Burning– Irritation– Stringy discharge– Blurring of vision– Ocular Surface Disease Index (OSDI)
Treatment
• We initiated:– Omega-3 supplements (3-4 grams per day)– Recommended warm compresses and lid washes qhs– Testosterone cream 3% applied to upper lid bid
• Patient had significant improvement in symptoms with the use of the topical testosterone cream.– However, she was still symptomatic at the end of the
day and she still had significant staining on her cornea and conjunctiva
– Initiated FML tid for 1 month, restasis bid after 2 weeks• 2 months later patient reported further improvement
in her symptoms• No conjunctival staining was noted and only slight
SPK• Schirmer values improved to OD: 9 mm, OS: 10 mm
Transdermal Testosterone Cream
• Recent studies suggest that androgen deficiency may be the main cause of the meibomian gland dysfunction, tear-film instability and evaporative dry eye seen in Sjogren patients
• Transdermal testosterone promotes increased tear production and meibomian gland secretion, thereby reducing dry eye symptoms (Dr. Charles Connor).
• arGentis and Allergan have conducted trials to see if topical androgens are effective in treating dry eye
SJOGREN’S SYNDROME: OLD/NEW CLASSIFICATION
• Old:– 1o Sjogrens: occurs when sicca complex
manifests by itself • no systemic disease present
– 2o Sjogrens: occurs in association with collagen vascular disease such as
• RA and SLE • significant ocular/systemic manifestations
• New:– The diagnosis of SS should be given to all
who fulfill the new criteria while also diagnosing any concurrent organ-specific or multiorgan autoimmune diseases, without distinguishing as primary or secondary.
Diagnosis: New Criteria
• Sjogren’s International Collaborative Clinical Alliance (SICCA) was funded by the National Institutes of Health to develop new classification criteria for SS
• New diagnostic criteria requires at least 2 of the following 3: – 1) positive serum anti-SSA and/or anti-SSB or
(positive rheumatoid factor and antinuclear antibody titer >1:320),
– 2) ocular staining score >3, or – 3) presence of focal lymphocytic sialadenitis with
a focus score >1 focus/4 mm2 in labial salivary gland biopsy samples
Ocular Surface Score (OSS)
• The ocular surface score (OSS) is the sum of:– 0-6 score for fluorescein staining of
the cornea and– 0-3 score for lissamine green
staining of both the nasal and temporal bulbar conjunctiva,
– yielding a total score ranging from 0-12.
Antibodies to SS-A and SS-B
• Sjogren’s syndrome A and B• Typically tested by ELISA and
immunoblot• Associated Conditions:
– Uncommon in the normal population and in patients with rheumatic diseases other than Sjogren’s syndrome and SLE
– Present in 75% of patients with “primart” Sjogren’s but only 10-15% of patients with RA and secondary Sjogren’s syndrome
Antibodies to SS-A and SS-B
• Indications:– Should be measured in patients with
a clinical suspicion of Sjogren’s or SLE
• Interpretation:– Presence of AB’s is a strong
argument for the diagnosis of Sjogren’s Syndrome in a patient with sicca syndrome
Dry Eye and Lid Disease?
• It is estimated that 67-75% of patients who have dry eye have some form of lid disease– it is often the most overlooked cause for
dry eye symptoms
• Important to address the lids in any treatment plans for patients with dry eye
QUICKIE
CHRPE vs Nevus
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Nevi Trivia• 31% of choroidal nevi show slight enlargement
over time without the transformation to a melanoma (Ophthalmology 2011)
• The prevalence of choroidal nevi in the white U.S. population ranges from 4.6% to 7.9%– If it is assumed that all choroidal melanomas arise from
preexisting nevi, then the published data suggest a low rate (1/8845) of malignant transformation of a choroidal nevus in the U.S. white population. (Ophthalmology 2005)
• Choroidal melanoma risk for metastasis, ranging from 16% to 53% (at 5 years of follow-up) depending on the size of the tumor at the time of diagnosis. (Arch Ophthalmol 1992)
Nevi Trivia
• Studies suggest that the presence of orange pigment is significantly correlated with the risk of subsequent growth– when orange pigment is difficult to clinically discern
(especially with the natural coloration of the fundus and in amelanotic nevi), FAF offers the best currently available method to enhance its visibility. (Optometry 2009)
• Aggressive surveillance for survivors of ocular melanoma appears to carry a relatively high risk of secondary cancers from the radiation exposure, particularly for young women. (JAMA Ophthalmology 2013).
TFSOM—“To Find Small Ocular Melanoma”
Thickness: lesions >2mmFluid: any subretinal fluid (suggestive of serous retinal detachment)Symptoms: photopsia, vision lossOrange pigment overlying the lesionMargin touching optic nerve head
•None of these factors = 3% risk of a nevus converting to melanoma in five years.One of these factors = 8% risk of conversion in five years. Two or more factors = 50% risk of conversion in five years. For any changes noted during the course of follow-up, refer the patient to a retinal practice or an ocular oncology service.
Case
• 65 yr old white male– Notices spot in vision in his left
eye– Diabetes for 15 years
• Vision:6/6 (20/20) and 6/12 (20/40)• Dilated exam:
– Large lesion noted in left eye (not noted in exam 6 months previously
– See photo
Ocular TumorsAstrocytic Hamartoma Amelanotic Melanoma
Retinoblastoma Metastatic Choroidal Tumor
Choroidal Melanoma Metastases
• 80 to 90% of metastases from uveal melanoma occurred in the liver, less common sites being the skin and lung.– Gragoudas ES, Seddon JM, Egan KM, et al. Long-
term results of proton beam irradiated uveal melanomas. Ophthalmology. 1987;94:349–53.
CASE 3
Case• 23 WM
– Eye pain OD– Severe, started 2 days ago– Photophobia and redness
• POHx:– Had similar problem and was given
drops and felt better• PMHx:
– Told to get back into shape and to reduce stress
• Meds:– Ibuprofen for lower back pain
Assessment• VA:
• 6/6 (20/20)-, • 6/6 (20/20)+
• Entrance skills unremarkable
• SLE:– OD:
• 2+ injection, • 2+ cell,• Mild flare,• Fine deposits
– IOP: 18, 14 mm HG• DFE: unremarkable
Uveitis
• Uveitis frequently is nonspecific but can be associated with: – systemic disease, – occur following trauma, or – be the result of a primary
ocular disorder such as: • Fuchs's heterochromic
iridocyclitis or • glaucomatocyclitic crisis
(ie, Possner-Schlossman syndrome)
Helpful Mnemonic
• Mnemonic for acute forms of non-granulomatous uveitis:BLAIR G– B: Behcet’s disease– L: Lyme disease– A: Ankylosing spondilitis– I: Irritable bowel syndrome
(Crohn’s)– R: Reactive arthritis
– G: Glaucomatocyclitic crisis
Uveitis: Clinical Features
• The clinical features of anterior uveitis are readily recognizable– complaints of:
• photophobia, • pain, • blurred or variable vision
• A change in the blood-aqueous barrier results in the liberation of protein and cellular matter into the anterior chamber and the vitreous.
Uveitis: Clinical Findings
• Clinical findings of: – circumlimbal hyperemia, – cells and flare in the
aqueous and anterior vitreous, and
– keratic and trabecular precipitates
Uveitis: Treatment
– “Classical treatment”:• Pred forte: every 1-2 hours,
ensure taper–Pred forte: prednisolone
acetate formulation which allows penetration through cornea to anterior chamber
– Newer treatment option:• Durezol
Treatment Options
• Durezol:– Difluprednate
• only difluorinated steroid– Steroid emulsion– BAK free– Increased “potency” so dosing needs to be
less than “classical treatment” with Pred Forte
• rough recommendation is 1/2 dosing of Pred Forte
Cycloplegics• Common cycloplegic agents include:
– cyclopentolate 1-2% tid for mild-to-moderate,
– homatropine 5% BID – scopolamine 0.25% – atropine 1% bid-tid for moderate-to-
severe inflammation• most common is the use of Homatropine
5% bid• be careful using atropine as there is
potential for severe systemic side effects– also makes the iris essentially immobile
Cycloplegics
• Cycloplegia:– used for reduction of pain, – break/prevent the formation of
posterior synechiae– also functions in the reduction of
inflammation
Treatment
• Topical administration is most common though periocular injections and systemic meds are useful for posterior uveitis and difficult cases
• Dosing is dependent upon severity of the inflammation– typically you want to hit the uveitis hard and fast!
• E.g 1 gtt q 2hrs until the inflammation is gone! • If you have a minimal anterior chamber reaction
then steroid may not be necessary at all
Treatment
• NOTE: it is crucial to taper your steroid treatment! – You will have a rebound inflammation if
you simply remove your patient from their steroids…
– The taper will be dependent upon how long you have had them on the steroid to get rid of the inflammation!
– Typically, a slow taper is better in order to prevent rebound inflammation
– If the patient has been on the steroid for less than a week a faster taper can be considered.
Treatment
• NSAIDs: –do not play an important role in
the treatment of an acute uveitis
Treatment: Additional Therapies• Immunosuppressive agents (cytotoxic)
– reserved for sight-threatening uveitis that have not responded to conventional treatment • e.g. cyclophosphamide
• Antimetabolites (e.g. methotrexate) have been found useful in JIA related iridocyclitis and scleromalacia
• Cyclosporin has a very specific effect on the immune system and has been found useful in posterior and intermediate uveitis
Follow-up
• Every 1-7 days in acute phase depending upon severity and every 1-6 months when stable.
• On each f/u visit the AC reaction and IOP should be evaluated– DFE should be performed for flare-
ups, when VA affected, or every 3-6 months.
Follow Up
• If AC reaction improving, then steroid drops can be slowly tapered.– cycloplegia can also be tapered as
the AC reaction improves. – slow taper recommended for
chronic granulomatous uveitis.
CASE 4
Case
• 65 year old Caucasian patient presents with sudden onset loss/blurring of vision in the right eye
• PMHx: HTN for 15 years, takes “water pill”• VA’s: 6/18 (20/60) OD, 6/7.5 (20/25) OS• Pupils: PERRL –APD• CVF: Inferior defect right eye, no defects
noted in the left eye
Vision Loss Without Pain:Diabetes/Diabetic Retinopathy
Microvascular complications resulting in capillary closure & abnormal permeability
S&S include;◦ blurring of vision (maculopathy and refractive
error shifts), ◦sudden drop in vision (vitreous heme), ◦dot and blot hemes, ◦exudate, ◦cotton wool spots, ◦neovascularization (iris, retina and disc)
VEGF and DME
Aug. 10, 2012: FDA approves Lucentis to treat diabetic macular
edema• The drug’s safety and effectiveness to treat
DME were established in two clinical studies involving 759 patients who were treated and followed for three years. – patients were randomly assigned to receive
monthly injections of Lucentis at 0.3 milligrams (mg) or 0.5 mg, or no injections during the first 24 months of the studies
– after 24 months, all patients received monthly Lucentis either at 0.3 mg or 0.5 mg
• Results:– 34-45% of those treated with monthly Lucentis
0.3 mg gained at least three lines of vision compared with 12-18% of those who did not receive an injection.
Vision Loss Without Pain:Vein Occlusion
• Associated with:– hypertension, – coronary artery disease, – DM and – peripheral vascular disease.
• Usually seen in elderly patients (60-70), slight male and hyperopic predilection.
• Second most common vascular disease after diabetic retinopathy.
Branch Retinal Vein Occlusion: Signs/Symptoms
BRVO: sudden, painless, visual field defect.◦patients may have
normal vision. ◦quadrantic VF defect, ◦dilated tortuous retinal
veins with superficial hemes and CWS
◦typically occurs at A/V crossing (sup/temp)
BRVOBRVO more common than CRVO and has more
favorable prognosis◦Overall 50-60% of BRVO patients will maintain VA of
6/12 (20/40) or betterVisual loss results from:
◦Macular edema◦Foveal hemorrhage◦Vitreous heme◦Epiretinal membrane◦RD◦Macular ischemia◦Neovascularization complications
Study Design (n=397) BRVO
PRN ranibizumab for all patientsRescue Laser (if eligible beginning at Month 9)
1:1:1 Randomization
Sham(n=132)
Ranibizumab0.3 mg(n=134)
Monthly Injections (last at 5M)Rescue Laser (if eligible beginning at Month 3)
Ranibizumab0.5 mg (n=131)
Month 6 Primary Endpoint
Macular Edema Secondary to BRVO
Ranibizumab0.3 mg
Ranibizumab0.5 mg
Ranibizumab0.5 mg
Ranibizumab0.5 mg
12M
BRAnch retinal Vein Occlusion study safety/efficacy
Mean Change from Baseline BCVA
BRVO
The gain of additional 3 lines occurred at a rate of 61% of 0.5 AVT grp, 55% for 0.3 AVT & 29% placebo
0
2
4
6
8
10
12
14
16
18
20
0 2 4 6 8 10 12
Month
Mea
n C
han
ge
fro
m B
asel
ine
BC
VA
(E
TD
RS
Let
ters
)
Day 0–Month 5 Monthly Treatment
Months 6–11PRN Treatment
+16.6*
+18.3*
+7.3
+16.4
+18.3
+12.1
Sham/0.5 mg (n=132) 0.3 mg Ranibizumab (n=134) 0.5 mg Ranibizumab (n=131)
7
+10.2
+11.6
+3.1
Central Retinal Vein Occlusion:Signs/Symptoms
CRVO: thrombus occurring at lamina is classical theory but new evidence indicates that the occlusion is typically in the optic nerve posterior to the lamina cribrosa
◦decreased VA ranging from near normal to hand motion with majority 6/60 (20/200) range
◦dilated tortuous vessels, with numerous retinal hemes and CWS
Central Retinal Vein Occlusion• Visual morbidity and blindness are
primarily from:– persistent macular edema, – macular ischemia and – neovascular glaucoma
• CRVO’s can be ischemic or non.– Classical definition of ischemic is 10-disc area of non-
perfusion found on angiography– RAPD and ERG maybe better predictor– VA’s typically worse in ischemic– Increased number of cotton wool spots with decreased VA
maybe predictive
Central Retinal Vein Occlusion
Ischemic CRVO may lead to iris neovascularization and neovascular glaucoma
◦ Estimated apprx 20% of CRVO’s are ischemic with 45% of those developing neo
Regular examinations (1-2 wks) to monitor for ischemia or neo development
◦ should include gonio as angle neo can precede iris rubeosis
PRN Lucentis available for for all patients: 6M tx period
1:1:1 Randomization
Sham(n=130)
Ranibizumab0.3 mg(n=132)
Monthly Injections (last at 5M): 6M tx period
Ranibizumab0.5 mg (n= 130)
Month 6 Primary Endpoint
Macular Edema Secondary to CRVO
Ranibizumab0.3 mg
Ranibizumab0.5 mg
Study Design CRUISE (n=392)CRVO
12M trial
Central Retinal vein occlUsIon Study: Efficacy & safety
Mean Change from Baseline BCVA
CRVO
-2
0
2
4
6
8
10
12
14
16
18
2 4 6 8 10 120 7
+14.9*
+12.7*
+0.8
Pts with >/= 3 line improvement was noted in 48% of .5 AVT, 26 of .3 AVT & 17% of sham
Sham/0.5 mg (n=130) 0.3 mg Ranibizumab (n=132) 0.5 mg Ranibizumab (n=130)
+13.9+13.9
+7.3
Mea
n Ch
ange
from
Bas
elin
e BC
VA
(ETD
RS L
etter
s)
MonthDay 0–Month 5
Monthly TreatmentMonths 6–11
PRN Treatment
Vision Loss Without Pain:Artery Occlusion
• Primarily embolic in nature from cholesterol, calcifications, plaques.
• Usually occurs in elderly associated with:– hypertension (67%), – carotid occlusive disease (25%),– DM (33%) and – cardiac valvular disease.
• Sudden loss of unilateral, painless vision – defect dependent upon location of occlusion
Vision Loss Without Pain:Artery Occlusion
• BRAO typically located in temporal retinal bifurcations.
CRAO
• CRAO has profound vision loss with history of amaurosis fugax.– Vision is usually CF
(count fingers) to LP (light perception) with positive APD.
– Diffuse retinal whitening with arteriole constriction, cherry red macula.
Ophthalmic Emergency
Treatment is controversial due to poor prognosis and questionable benefit.
Treat immediately before workup, if patient presents within 24 hours of visual loss: ◦Digital ocular massage, ◦ systemic acetozolamide (500 mg IV or po), ◦ topical ocular hypertensive drops (Iopidine, B-blocker), ◦anterior chamber paracentesis, ◦consider admission to hospital for carbogen Tx (high
carbon dioxide)
CASE 5CASE 5
Case• 30 WM presents with 2 weeks worsening vision
OS– Was seen by neurologist 2 years previously for
flashes, head CT was normal– Flashes continued for the two years– History of color blindness– Patient presents with pressure behind the eye and
tightness with left eye movement for the past week– No vision changes with activity or movement– Denies history of trauma, redness, discharge or
headache• VA: 6/6 (20/20) and 6/9 (20/30)• External exam reveals no ptosis or resistance to
retropulsion
Case• PERRL with a left APD• Hertel: Base of 102 and
measurements of 19 and 18
• EOM: FROM though notes tight feeling in OS abduction
• IOP: 15 OU• DFE: normal ONH
appearance and fundus unremarkable
• HVF: inferior altitudinal defect OS
Case• One week f/u:• Reports continued
decreasing vision OS– Now 6/120 (20/400)
• Increased left APD• Increased visual field
defect • ONH swelling OS
Question
1 2 3 4
Which of the following MRI scans goes with this patient’s diagnosis?
Optic Neuritis
• Optic neuritis typically presents with a triad of symptoms: – loss of vision, dyschromatopsia and eye pain.
• The initial attack is unilateral in 70% of adult patients and bilateral in 30%.
• Associated visual symptoms are reduced perception of light intensity and Uhthoff's symptom (visual deficit induced by exercise or increased body temperature)
• The mean age of onset of optic neuritis is in the third decade of life
Optic Neuritis Treatment
• The ONTT showed that intravenous methylprednisolone followed by oral prednisone speeds the recovery of visual loss
• Oral prednisone was found to increase the risk of recurrent optic neuritis. – Thus, treatment with oral prednisone in
standard doses is no longer advised.
Case 6
Case History/Entrance Skills• 31 YR HM• CC: referred from PCP for a possible uveitis• LEE: 3 years ago• PMHx: unremarkable• Meds: Omega-3 supplements• Entrance VA: 6/9 (20/30) OD, OS• Refraction:
– +0.75 -2.50 x 003 6/7.5+ (20/25+)– +0.25 -2.75 x 004 6/7.5+ (20/25+)
• All other entrance skills unremarkable except for difficulty doing confrontation visual fields
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Health Assessment
• SLE:– 1+ conjunctival injection in the right eye– Anterior chamber: deep and quiet (no cells or
flare noted in either eye)
• IOP: 12 and 11 OD, OS• DFE: see photos
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OS OD
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OS
OD
80
OS
OD
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