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Non-Invasive and Non-Destructive Determination of Corneal and Scleral Biomechanics Using Vibrational Optical Coherence Tomography: Preliminary Observations
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作者 Frederick H. Silver ruchit g. shah Dominick Benedetto 《Materials Sciences and Applications》 2018年第7期657-669,共13页
Experimental measurements made in this study on human and porcine eyes suggest that the resonant frequency for both cornea and sclera varies from 130 to 150 Hz and increases slightly with increasing intraocular pressu... Experimental measurements made in this study on human and porcine eyes suggest that the resonant frequency for both cornea and sclera varies from 130 to 150 Hz and increases slightly with increasing intraocular pressure. The values of the moduli calculated using the experimental values of the thickness are close to 2 MPa. Similar values of the modulus for cornea and sclera suggest that there is very little stress concentration at the cornea-scleral junction and that any stress concentration that occurs probably resides at the scleral attachment laterally and posteriorly. These moduli are close to those measured in vivo on human skin suggesting that the mechanism of tensile deformation of skin, cornea and sclera are similar. Our results suggest that the modulus of cornea and sclera can be measured non-invasively and non-destructively using vibrational OCT. Results of these studies will assist clinicians to better understand the influence of biomechanics on the outcome of corneal refractive surgery as well as the pathogenesis of eye disorders such as glaucoma, myopia and keratoconus. 展开更多
关键词 Collagen Cornea SCLERA Skin BIOMECHANICS VIBRATIONAL OCT Optical Coherence Tomography (OCT) Modulus Resonant Frequency Mechanical Properties MYOPIA KERATOCONUS Glaucoma
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Viscoelastic Evaluation of Different Hyaluronic Acid Based Fillers Using Vibrational Optical Coherence Tomography
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作者 Frederick H. Silver ruchit g. shah +3 位作者 Nikita Kelkar Dominick Benedetto Dale DeVore Justin Cohen 《Materials Sciences and Applications》 2019年第5期423-431,共9页
Hylauronic acid (HA) is used as a viscoelastic in Ophthalmology during cataract surgery based on its high viscosity at rest, its ability to shear thin and dissipate energy during phacoemulsification. However, these pr... Hylauronic acid (HA) is used as a viscoelastic in Ophthalmology during cataract surgery based on its high viscosity at rest, its ability to shear thin and dissipate energy during phacoemulsification. However, these properties of HA solutions would make them susceptible to migration when used as dermal filler materials. In this study, we apply a new technique termed vibrational optical coherence tomography (VOCT) to compare the physical properties of different HA solutions and fillers used in facial aesthetics. Results presented in this study suggest that HA solutions and HA dermal fillers have markedly different physical properties. HA solutions are highly viscoelastic with high % viscous losses while fillers tend to have lower viscous energy dissipation properties. Clinical observations suggest that the high loss fillers are injected more superficially in the face where tension and internal and external forces are more likely minimized giving tissue of the hands and lips more volume and allowing more natural movement. In contrast, the lower loss gels that are used to lift tissue, generally have a higher G’, and are injected deeper into the face where injection and internal forces are likely to be higher. It is concluded that HA filler gel design can be optimized by use of VOCT to evaluate the % viscous energy loss both in vitro and in vivo. 展开更多
关键词 Hyaluronic Acid Injectable FILLER Dermal FILLER Plastic SURGERY Cosmetic SURGERY VISCOELASTIC Mechanical Properties Facial SURGERY Optical COHERENCE TOMOGRAPHY VIBRATIONAL Optical COHERENCE TOMOGRAPHY
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Analysis of Mechanical Behavior of Composite Tissues Using Vibrational Optical Coherence Tomography
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作者 Frederick H. Silver ruchit g. shah 《World Journal of Mechanics》 2017年第10期271-282,共12页
Extracellular matrices (ECMs) found in vertebrate tissues are fiber reinforced composite materials that prevent premature mechanical failure, store, transmit, and dissipate mechanical energy generated by the musculosk... Extracellular matrices (ECMs) found in vertebrate tissues are fiber reinforced composite materials that prevent premature mechanical failure, store, transmit, and dissipate mechanical energy generated by the musculoskeletal system. We have developed a new method using optical cohesion tomography and vibrational analysis to non-destructively and non-invasively measure the mechanical properties of composite tissues and polymeric materials. In addition, this method can be used to measure the moduli of individual components of composite materials and perform “mechanical spectroscopy” on materials. In addition, we propose that measurement of the resonant frequency of a material minimizes the viscoelastic behavior of a composite material. This approach simplifies the analysis of mechanical behavior of polymers and others materials that demonstrate time-dependence to their properties. 展开更多
关键词 COLLAGEN Fibers Elastic Fibers DERMIS Mechanical Properties Optical COHERENCE Tomography VIBRATIONAL ANALYSIS Skin CARTILAGE Bone Composites
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Virtual Biopsy and Physical Characterization of Tissues, Biofilms, Implants and Viscoelastic Liquids Using Vibrational Optical Coherence Tomography
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作者 Frederick H. Silver ruchit g. shah +2 位作者 Dominick Benedetto Abhinav Dulur Thomas Kirn 《World Journal of Mechanics》 2019年第1期1-16,共16页
Tissue biopsies and implant analysis during animal testing or clinical studies are a requirement for development of new surgical materials and procedures. In this paper we report the use of vibrational OCT (VOCT) to e... Tissue biopsies and implant analysis during animal testing or clinical studies are a requirement for development of new surgical materials and procedures. In this paper we report the use of vibrational OCT (VOCT) to evaluate the viscoelastic behavior of tissues, polymeric materials, biofilms, and viscoelastic solutions of macromolecules. Our results suggest that VOCT is a useful technique to characterize the behavior of cellular tissues and biofilms, polymeric implant materials and viscoelastic solutions used in medicine. It is demonstrated that the modulus and resonant frequency squared per unit thickness is a feature that can be used to characterize a variety of tissues. Further work is needed to understand the generalized behavior of synthetic polymers and viscoelastic solutions. 展开更多
关键词 OPTICAL COHERENCE TOMOGRAPHY VIBRATIONAL OPTICAL COHERENCE TOMOGRAPHY Biofilm Viscoelastic Solutions Mechanical Properties Modulus Stiffness TISSUES Hyaluronic Acid
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Mechanical Analysis of Multi-Component Tissues
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作者 Frederick H. Silver ruchit g. shah 《World Journal of Mechanics》 2017年第4期121-132,共12页
Collagen is the major structural fiber found in mammalian tissues. It is a protein in the form of a triple-helix which is found in several subfamilies, the most abundant of which is the fiber forming group containing ... Collagen is the major structural fiber found in mammalian tissues. It is a protein in the form of a triple-helix which is found in several subfamilies, the most abundant of which is the fiber forming group containing Types I, II and III. Type I collagen is found in tendons, skin, cornea, bone, lung and vessel walls. This collagen is thought to give rise to the high tensile strengths of collagen fibers in tissues;in addition, it is actively involved in other physiologic processes such mechanotransduction. However, the non-linear mechanical behavior and viscoelasticity of collagen fibers make analysis of the mechanical properties of tissues complicated. Mechanistically, during mechanical loading, a tensional increase in the D period is observed with increasing strain that is associated with: 1) molecular elongation at the triple-helical level of structure;2) increases in the gap distance between the end of one triple-helix and the start of the next one in the microfibril;and 3) molecular slippage. In this paper, we discuss the relationship between collagen hierarchical structure and its non-linear mechanical properties. Using vibrational analysis and optical coherence tomography, it is hoped that the mechanical properties of collagenous tissues can be studied in vivo in order to better understand tissue mechanics and to be better able to offer early diagnosis and differentiation of different disease states. 展开更多
关键词 Collagen Fibers Mechanical Properties Optical Coherence Tomography VIBRATIONAL Analysis TENDON Skin CARTILAGE Elastic ARTERIES
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