Julie B. Roberts scite author profile

The three dural substitutes tested were found to be safe and effective in healing surgically created defects in the dura mater. Although each of these dura substitutes are composed of collagen, differences in the collagen source and processing influenced device physicomechanical properties, porosity, and the nativity of the collagen polymer. These measured differences influenced device intraoperative handling and installation as well as the post-operative biological response, where differences in device resorption, cell penetration, vascularization, and collagen remodeling were observed.

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Direct perfusion measurements of cancellous bone anisotropic permeability

Kohles

Roberts

Upton

et al. 2001

Journal of Biomechanics

112

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Linear Poroelastic Cancellous Bone Anisotropy: Trabecular Solid Elastic and Fluid Transport Properties

Kohles

Roberts²

2002

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The mechanical performance of cancellous bone is characterized using experiments which apply linear poroelasticity theory. It is hypothesized that the anisotropic organization of the solid and pore volumes of cancellous bone can be physically characterized separately (no deformable boundary interactive effects) within the same bone sample. Due to its spongy construction, the in vivo mechanical function of cancellous or trabecular bone is dependent upon fluid and solid materials which may interact in a hydraulic, convective fashion during functional loading. This project provides insight into the organization of the tissue, ie., the trabecular connectivity, by defining the separate nature of this biphasic performance. Previous fluid flow experiments [Kohles et al., 2001, Journal of Biomechanics, 34(11), pp. 1197-1202] describe the pore space via orthotropic permeability. Ultrasonic wave propagation through the trabecular network is used to describe the solid component via orthotropic elastic moduli and material stiffness coefficients. The linear poroelastic nature of the tissue is further described by relating transport (fluid flow) and elasticity (trabecular load transmission) during regression analysis. In addition, an empirical relationship between permeability and porosity is applied to the collected data. Mean parameters in the superior-inferior (SI) orientation of cubic samples (n=20) harvested from a single bovine distal femur were the largest (p<0.05) in comparison to medial-lateral (ML) and anterior-posterior (AP) orientations: Apparent elastic modulus (2,139 MPa), permeability (4.65x10(-10) m2), and material stiffness coefficient (13.6 GPa). A negative correlation between permeability as a predictor of structural elastic modulus supported a parametric relationship in the ML (R2=0.4793), AP (R2=0.3018), and SI (R2=0.6445) directions (p<0.05).

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Correlation of anisotropic elastic and transport properties of cancellous bone

Roberts

Kohles²

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A transverse tubular system and neuromuscular junctions in a molluscan unstriated muscle

Dorsett¹,

Roberts²

1980

Cell Tissue Res.

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The buccal mass retractor muscles of Philine aperta are unusual in possessing a system of transverse tubules in what are in other respects typical unstriated muscle fibres. The tubules are formed from invaginations of the sarcolemma that penetrate up to 9 micron radially into the fibre. There is some indication that the tubules are zoned at certain points along the fibre. Physiologically, the outer membrane of the muscle fibre does not support an action potential, and the fibre contracts by summation of small twitches in response to individual excitatory junction potentials. Neuromuscular junctions occur in shallow grooves along the surface of the fibres. They contain 3 types of vesicles; clear, intermediate and dense-cored. A scheme suggesting how striated muscle may be derived from the unstriated condition is described.

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Julie B. Roberts

Repair of the dura mater with processed collagen devices

Direct perfusion measurements of cancellous bone anisotropic permeability

Linear Poroelastic Cancellous Bone Anisotropy: Trabecular Solid Elastic and Fluid Transport Properties

Correlation of anisotropic elastic and transport properties of cancellous bone

A transverse tubular system and neuromuscular junctions in a molluscan unstriated muscle

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