TY - JOUR
T1 - Validation of spectral domain optical coherence tomographic doppler shifts using an in vitro flow model
AU - Kagemann, Larry
AU - Wollstein, Gadi
AU - Ishikawa, Hiroshi
AU - Townsend, Kelly A.
AU - Schuman, Joel S.
PY - 2009/2
Y1 - 2009/2
N2 - PURPOSE. To validate velocity measurements produced by spectral domain optical coherence tomography (SD-OCT) in an in vitro laminar flow model. METHODS. A 30-mL syringe filled with skim milk was inserted into a syringe pump. Intravenous (IV) tubing connected the syringe within the pump to a glass capillary tube (internal diameter, 0.579 mm) shallowly embedded in agarose gel, then to a collection reservoir. SD-OCT imaging was performed with an anterior segment eye scanner and optics engine coupled with a 100-nm bandwidth broadband superluminescent diode. Scan density of 128 × 128 A-scans was spread over a 4 × 4 mm area, and each A-scan was 2 mm in length. Fifteen sequential stationary A-scans were obtained at each 128 × 128 position, and Doppler shifts were calculated from temporal changes in phase. The beam-to-flow vector Doppler angle was determined from three-dimensional scans. RESULTS. In all reflectance and Doppler images, a clear laminar flow pattern was observed, with vmax appearing in the center of the flow column. Phase wrapping was observed at all measured flow velocities, and fringe washout progressively shattered reflectance and phase signals beyond the Nyquist limit. The observed percentages of the velocity profile at or below Nyquist frequency was highly correlated with the predicted percentages (R2 = 0.934; P = 0.007). CONCLUSIONS. SD-OCT provides objective Doppler measurements of laminar fluid flow in an in vitro flow system in a range up to the Nyquist limit.
AB - PURPOSE. To validate velocity measurements produced by spectral domain optical coherence tomography (SD-OCT) in an in vitro laminar flow model. METHODS. A 30-mL syringe filled with skim milk was inserted into a syringe pump. Intravenous (IV) tubing connected the syringe within the pump to a glass capillary tube (internal diameter, 0.579 mm) shallowly embedded in agarose gel, then to a collection reservoir. SD-OCT imaging was performed with an anterior segment eye scanner and optics engine coupled with a 100-nm bandwidth broadband superluminescent diode. Scan density of 128 × 128 A-scans was spread over a 4 × 4 mm area, and each A-scan was 2 mm in length. Fifteen sequential stationary A-scans were obtained at each 128 × 128 position, and Doppler shifts were calculated from temporal changes in phase. The beam-to-flow vector Doppler angle was determined from three-dimensional scans. RESULTS. In all reflectance and Doppler images, a clear laminar flow pattern was observed, with vmax appearing in the center of the flow column. Phase wrapping was observed at all measured flow velocities, and fringe washout progressively shattered reflectance and phase signals beyond the Nyquist limit. The observed percentages of the velocity profile at or below Nyquist frequency was highly correlated with the predicted percentages (R2 = 0.934; P = 0.007). CONCLUSIONS. SD-OCT provides objective Doppler measurements of laminar fluid flow in an in vitro flow system in a range up to the Nyquist limit.
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U2 - 10.1167/iovs.08-2305
DO - 10.1167/iovs.08-2305
M3 - Article
C2 - 18824730
AN - SCOPUS:59449102065
SN - 0146-0404
VL - 50
SP - 702
EP - 706
JO - Investigative Ophthalmology and Visual Science
JF - Investigative Ophthalmology and Visual Science
IS - 2
ER -