1. Spatially resolved diffuse imaging for high‐speed depth estimation of jet injection
- Author
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Andrew J. Taberner, Bryan P. Ruddy, Poul M. F. Nielsen, and Kieran A. Brennan
- Subjects
Materials science ,Optical fiber ,General Physics and Astronomy ,01 natural sciences ,General Biochemistry, Genetics and Molecular Biology ,Injections ,law.invention ,010309 optics ,Drug Delivery Systems ,Optics ,law ,0103 physical sciences ,Jet injector ,Image Processing, Computer-Assisted ,General Materials Science ,business.industry ,Scattering ,Spatially resolved ,Optical Imaging ,010401 analytical chemistry ,General Engineering ,General Chemistry ,Penetration (firestop) ,0104 chemical sciences ,Exponential function ,Light intensity ,Diffuse reflection ,business - Abstract
We investigate the use of spatially resolved diffuse imaging to track a fluid jet delivered at high speed into skin tissue. A jet injector with a short needle to deliver drugs beneath the dermis, is modified to incorporate a laser beam into the jet, which is ejected into ex vivo porcine tissue. The diffuse light emitted from the side and top of the tissue sample is recorded using high-speed videography. Similar experiments, using a depth-controlled fiber optic source, generate a reference dataset. The side light distribution is related to source depth for the controlled-source experiments and used to track the effective source depth of the injections. Postinjection X-ray images show agreement between the jet penetration and ultimate light source depth. The surface light intensity profile is parameterized with a single parameter and an exponential function is used to relate this parameter to source depth for the controlled-source data. This empirical model is then used to estimate the effective source depth from the surface profile of the injection experiments. The depth estimates for injections into fat remain close to the side depth estimates, with a root-mean-square error of 1.1 mm, up to a source depth of 8 mm.
- Published
- 2019
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