Indications, Examination And Interpretation
Transcript of Indications, Examination And Interpretation
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OPHTHALMIC ULTRASOUNDIndications, Examination And Interpretation
By: Dr. Virginia Augustina MensahMBChB, MMED Ophthal (UON), FCOECSA.
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Scope
Introduction Indications Interpretation Examination Applications
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Introduction
Developed in the late 1950s and early 1960s
An important test for clinical evaluation of opaque media globe and abnormal orbit.
Useful for intraocular and orbital tumor identification in clear media
Tomographic 3D ultrasonic imaging of the anterior and posterior segment now possible
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Introduction
Ultrasound is an acoustic wave with a frequency greater than 20 kHz.
Frequencies used are: 8 to 25 MHz for imaging the posterior
segment of the eye and orbit 50 MHz for imaging the anterior
segment. Physiological hearing up to 18MHz
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Introduction
Involves the generation of sound waves at frequencies greater than 20 KHz.
Caused by the vibration of a thin crystal stimulated by pulses of electric current.
The sound waves propagate through a medium and are reflected by tissue surfaces back to the resting crystal
The crystal is made to vibrate, generating electrical impulses .
The reflected echoes are received, amplified, and electronically processed .
Displayed in A-scan or B-scan images.
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Indications for ophthalmic ultrasonography
For visualization of the posterior segment otherwise obscured by a dense cataract or cloudy cornea.
For examination of the retrobulbar and orbital structures.
For biometry
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A-scan (A-mode or time-amplitude) ultrasonography
A-scan is for tissue characterization and interpretation
The horizontal axis represents time or distance, useful for linear measurements
The vertical axis reveals echo amplitude; useful for characterizing tissues
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A scan
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A- scan The first spike, always the
tallest represents the interface between probe and cornea.
Next, two spikes separated by a short distance; anterior and posterior lens.
A flat line represents the vitreous.
A series of spikes progressively reducing in amplitude then follow – the retina, sclera, orbital tissues etc.
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. B-scan (B-mode or intensity-modulated)
B-scan provides a cross-sectional image of the globe and orbit.
Used predominantly for topographic information (anatomic location, shape, borders, size)
B-scan of a shallow RD
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B- scan
All B-scan probes have a small white dot on one side of the probe near the tip.
This indicates within which plane the transducer is sweeping back and forth.
Can be transverse or longitudinal.
Also marks the orientation of the image on the screen so that “up” on the screen always corresponds to the position of the white dot.
Probe captures image in the opposite meridian, eg at 6 o’clock, 12 o’clock is captured
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B- scan
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B- scan
Echoes are converted into dots with brightness intensity proportional to echo amplitude.
High amplitude echoes appear hyperechoic (white), absent echoes; anechoic (black)
Eg Retina is hyperechoic, vitreous; anechoic.
B-scan uses real time, gray scale, and three dimensional thinking for interpretation
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B scan
Real time refers to the display of motion or movement during B-scan imaging. Eg, the rapid movement
of vitreous hemorrhage and the slower, undulating movements of a fresh RRD
Grayscale refers to the variable gray tone of display echoes.
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B-scan
Three dimensional thinking is mentally creating an image of the eye being scanned by fusion of the two-dimensional images produced.
Probe positions are chosen to avoid passage of the examining beam or returning echoes through the artifact-inducing lens system
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A and B-scans
A-scan may be performed independently of B-scan.
Overlaps of information from A-scan and B-scan are for adequate ultrasound interpretation.
Instruments are available that present B-scan and A-scan images simultaneously.
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Examination
Patient in a horizontal position, asked to look straight towards the ceiling
Scanning done directly on the globe with topical anaesthesia and methylcellulose.
The globe is quickly scanned in the 8 meridians while the patient is asked to look in those directions.
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Examination
The patient is then asked to look straight ahead at the ceiling while vertical and horizontal (axial) scans are taken of the posterior pole.
The vitreous cavity is observed for sound reflections above the baseline while simultaneously watching the fundus for irregularities of the normal smooth convex shape.
Any abnormalities detected during the initial screening are studied in greater detail using the longitudinal and transverse B-scan positions.
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Examination
The A-scan is then applied to the eye and a brief screening scan may be performed in the 8 meridians as a double check on the B-scan
Usually sufficient to direct the A probe to the abnormality detected on the B-scan examination.
It is very important to maximize perpendicularity to the lesion with the A-scan.
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Examination
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Clinical Applications : Tumours
Choroidal malignant melanoma Retinoblastoma
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Retinoblastoma
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Posterior Vitreous Detachment and Retinal Detachment
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Subhyloid vitreous haemorrhage
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Vitreous haemorrhage
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Endophthalmitis
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Choroid detachment and Sclerritis
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Metastatic carcinoma
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Trauma
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Intumuscent lens
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Optic disc drusen and embolic material in CRA
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Lacrimal gland
Lacrimal gland extraocular muscle involved in Grave’s disease
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Orbital masses
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References
Clinical Ophthalmic Radiography, a case study approach by Roger P. Harrie
Duane’s Foundations of Clinical Ophthalmology, 2007 edition.
WWW.
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Thank you