Affiliation:
1. Stratamagnetic Software, LLC
Abstract
Abstract
An instrumented “intelligent syringe” for tissue properties prediction is described. The syringe records pressure transients created while injecting or withdrawing fluid from tissue at given flow rates. Dynamic data is interpreted using computer-based porous media math models to predict permeability, anisotropy, compressibility, background pressure and porosity. The new method provides direct measurements of flow properties important to drug delivery, clinical diagnosis, disease control, synthetic organ design and research endeavors. The approach conveniently, rapidly and inexpensively supplements conventional methods like X-ray, Catscan, MRI and ultrasound, which offer qualitative results through gray scale images requiring physician dependent and subjective analysis. The “iSyringe” supports portable target monitoring on daily or weekly bases; it provides local quantitative information useful in understanding global qualitative results obtained from traditional methods. The theoretical foundations of the method are derived, validated mathematically, and applied to published human and animal data, highlighting potential clinical and research applications.
Publisher
Research Square Platform LLC
Reference7 articles.
1. Abramowitz, M. and Stegun, I. A. Handbook of Mathematical Functions (Dover Publications, 1970).
2. Clinical evaluation of large volume subcutaneous injection tissue effects, pain, and acceptability in healthy adults;Woodley WD;Clinical and Translational Science,2022
3. Understanding Subcutaneous Tissue Pressure for Engineering Injection Devices for Large-Volume Protein Delivery;Doughty DV;Journal of Pharmaceutical Sciences,2016
4. Tissue Permeability and the Spreading Factors in Infection;Duran-Reynals F;Bacteriol Rev.,1942
5. Yuan S.Y. and Rigor, R.R. Regulation of Endothelial Barrier Function, Chap. 3 – Methods for Measuring Permeability. (Morgan & Claypool Life Sciences, 2010).