2017
DOI: 10.1186/s12938-016-0309-4
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Analytical method for calculation of deviations from intended dosages during multi-infusion

Abstract: BackgroundIn this paper, a new method is presented that combines mechanical compliance effects with Poiseuille flow and push-out effects (“dead volume”) in one single mathematical framework for calculating dosing errors in multi-infusion set-ups. In contrast to existing numerical methods, our method produces explicit expressions that illustrate the mathematical dependencies of the dosing errors on hardware parameters and pump flow rate settings.MethodsOur new approach uses the Z-transform to model the contents… Show more

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Cited by 15 publications
(10 citation statements)
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“…This finding may also be explained by Poiseuille flow, which describes the flow through a cylindrical tube where the cross-section of the tube can be divided into laminae (circular layers of fluid). 19 , 20 Each lamina has its own velocity. The outer lamina will have a lower velocity than the middle lamina due to friction with the tubing wall.…”
Section: Discussionmentioning
confidence: 99%
“…This finding may also be explained by Poiseuille flow, which describes the flow through a cylindrical tube where the cross-section of the tube can be divided into laminae (circular layers of fluid). 19 , 20 Each lamina has its own velocity. The outer lamina will have a lower velocity than the middle lamina due to friction with the tubing wall.…”
Section: Discussionmentioning
confidence: 99%
“…The second research area explores the pharmacokinetic and pharmacodynamic models of drugs to control intravenous infusion dosages. In this line of research, we highlight the following related works that employ the models of drug absorption by intravenous routes: (i) development of a treatment-controlled infusion system model, which according to its target, explore concepts of mathematically manipulated pharmacokinetics able to consider the particular characteristics of patients resulting in specific parameters Bressan et al (2009); (ii) analyzing the pharmacokinetic employed to study the time dependence of the administered medicines in the definition of the absorption, distribution, metabolism, and excretion of a given drug, thus allowing the configuration modeling of infusion pump operations Trzaska (2014); (iii) enabling predictability in a wide range of possible situations involving many variables and dependencies, which provides the healthcare professional with an accurate prediction of dosing errors and interactive delay times for many scenarios Konings et al (2017) Although there are several works in the literature on these two fronts of research, there are studies that report many factors which may compromise these automation methods. For example, the patient's physiological and pathological characteristics and pharmacological drug factors may negatively influence the control and monitoring actions of infusion system operations Eusuf and Thomas (2019).…”
Section: Introductionmentioning
confidence: 99%
“…Benchtop (in vitro) modeling of initiating a drug infusion or changing the dose rate of an ongoing infusion shows that there can be a significant lag for the new concentration at the upstream side of the commonvolume to propagate to the patient and achieve the intended steady state delivery. This lag time can lead to delays in intended dose delivery that, under some conditions, can be surprisingly long [12,18,20,21,23]. For infusions into standard central venous catheters of sizeable dead-volume (9 Fr introducer sheath, dead volume~3.2 ml) with inert carrier flow rates designed to minimize excessive fluid administration (10 ml/hr), steady-state drug delivery rates may not be fully realized for over 20 min [18].…”
Section: Common-volume Analysismentioning
confidence: 99%
“…However, in reality there is much complexity in the nuances of drug infusion. Problems in drug dosing can come from startup delays of syringe pumps [3,4], errors in device calibration [9,10], and the complex interaction between multiple infusion devices with different compliances and flow rates through syringes of different barrel sizes leading to potential transient backflow [12,13]. Each of these can result in drug administration that deviates from the user's intent.…”
Section: Models Of Drug Infusionmentioning
confidence: 99%
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