ISD3: a particokinetic model for predicting the combined effects of particle sedimentation, diffusion and dissolution on cellular dosimetry for in vitro systems

The development of particokinetic models describing the delivery of insoluble or poorly soluble nanoparticles to cells in liquid cell culture systems has improved the basis for dose-response analysis, hazard ranking from high-throughput systems, and now allows for translation of exposures across in...

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Published inParticle and fibre toxicology Vol. 15; no. 1; pp. 6 - 22
Main Authors Thomas, Dennis G, Smith, Jordan N, Thrall, Brian D, Baer, Donald R, Jolley, Hadley, Munusamy, Prabhakaran, Kodali, Vamsi, Demokritou, Philip, Cohen, Joel, Teeguarden, Justin G
Format Journal Article
LanguageEnglish
Published England BioMed Central Ltd 25.01.2018
BioMed Central
BMC
Subjects
Analysis
Animals
BASIC BIOLOGICAL SCIENCES
Blood proteins
Cell Culture Techniques
Cell Line
Chemical Precipitation
Culture Media - chemistry
Diffusion
Dissolution
Dosimeters
dosimetry
Health aspects
In vitro dosimetry
ISD3
ISDD
Macrophages, Alveolar - metabolism
Metal Nanoparticles - analysis
Metal Nanoparticles - chemistry
Mice
Models, Biological
Nanoparticle
Nanoparticles
Nanoparticles - analysis
Nanoparticles - chemistry
Nanoparticles - metabolism
Nanosilver
Particle Size
Particokinetic model
population balance
Population balance equation
Rankings
Silver - analysis
Silver - chemistry
Silver - metabolism
silver dissolution
silver nanoparticle
Solubility
Surface Properties
Testing equipment
In vitro dosimetry
Nanoparticle
Population balance equation
ISDD
Nanosilver
ISD3
Dissolution
Particokinetic model
Online AccessGet full text

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Abstract The development of particokinetic models describing the delivery of insoluble or poorly soluble nanoparticles to cells in liquid cell culture systems has improved the basis for dose-response analysis, hazard ranking from high-throughput systems, and now allows for translation of exposures across in vitro and in vivo test systems. Complimentary particokinetic models that address processes controlling delivery of both particles and released ions to cells, and the influence of particle size changes from dissolution on particle delivery for cell-culture systems would help advance our understanding of the role of particles and ion dosimetry on cellular toxicology. We developed ISD3, an extension of our previously published model for insoluble particles, by deriving a specific formulation of the Population Balance Equation for soluble particles. ISD3 describes the time, concentration and particle size dependent dissolution of particles, their delivery to cells, and the delivery and uptake of ions to cells in in vitro liquid test systems. We applied the model to calculate the particle and ion dosimetry of nanosilver and silver ions in vitro after calibration of two empirical models, one for particle dissolution and one for ion uptake. Total media ion concentration, particle concentration and total cell-associated silver time-courses were well described by the model, across 2 concentrations of 20 and 110 nm particles. ISD3 was calibrated to dissolution data for 20 nm particles as a function of serum protein concentration, but successfully described the media and cell dosimetry time-course for both particles at all concentrations and time points. We also report the finding that protein content in media affects the initial rate of dissolution and the resulting near-steady state ion concentration in solution for the systems we have studied. By combining experiments and modeling, we were able to quantify the influence of proteins on silver particle solubility, determine the relative amounts of silver ions and particles in exposed cells, and demonstrate the influence of particle size changes resulting from dissolution on particle delivery to cells in culture. ISD3 is modular and can be adapted to new applications by replacing descriptions of dissolution, sedimentation and boundary conditions with those appropriate for particles other than silver.
AbstractList The development of particokinetic models describing the delivery of insoluble or poorly soluble nanoparticles to cells in liquid cell culture systems has improved the basis for dose-response analysis, hazard ranking from high-throughput systems, and now allows for translation of exposures across in vitro and in vivo test systems. Complimentary particokinetic models that address processes controlling delivery of both particles and released ions to cells, and the influence of particle size changes from dissolution on particle delivery for cell-culture systems would help advance our understanding of the role of particles and ion dosimetry on cellular toxicology. We developed ISD3, an extension of our previously published model for insoluble particles, by deriving a specific formulation of the Population Balance Equation for soluble particles. ISD3 describes the time, concentration and particle size dependent dissolution of particles, their delivery to cells, and the delivery and uptake of ions to cells in in vitro liquid test systems. We applied the model to calculate the particle and ion dosimetry of nanosilver and silver ions in vitro after calibration of two empirical models, one for particle dissolution and one for ion uptake. Total media ion concentration, particle concentration and total cell-associated silver time-courses were well described by the model, across 2 concentrations of 20 and 110 nm particles. ISD3 was calibrated to dissolution data for 20 nm particles as a function of serum protein concentration, but successfully described the media and cell dosimetry time-course for both particles at all concentrations and time points. We also report the finding that protein content in media affects the initial rate of dissolution and the resulting near-steady state ion concentration in solution for the systems we have studied. By combining experiments and modeling, we were able to quantify the influence of proteins on silver particle solubility, determine the relative amounts of silver ions and particles in exposed cells, and demonstrate the influence of particle size changes resulting from dissolution on particle delivery to cells in culture. ISD3 is modular and can be adapted to new applications by replacing descriptions of dissolution, sedimentation and boundary conditions with those appropriate for particles other than silver.
The development of particokinetic models describing the delivery of insoluble or poorly soluble nanoparticles to cells in liquid cell culture systems has improved the basis for dose-response analysis, hazard ranking from high-throughput systems, and now allows for translation of exposures across in vitro and in vivo test systems. Complimentary particokinetic models that address processes controlling delivery of both particles and released ions to cells, and the influence of particle size changes from dissolution on particle delivery for cell-culture systems would help advance our understanding of the role of particles ion dosimetry on cellular toxicology. We developed ISD3, an extension of our previously published model for insoluble particles, by deriving a specific formulation of the Population Balance Equation for soluble particles. ISD3 describes the time, concentration and particle size dependent dissolution of particles, their delivery to cells, and the delivery and uptake of ions to cells in in vitro liquid test systems. The model is modular, and can be adapted by application of any empirical model of dissolution, alternative approaches to calculating sedimentation rates, and cellular uptake or treatment of boundary conditions. We apply the model to calculate the particle and ion dosimetry of nanosilver and silver ions in vitro after calibration of two empirical models, one for particle dissolution and one for ion uptake. The results demonstrate utility and accuracy of the ISD3 framework for dosimetry in these systems. Total media ion concentration, particle concentration and total cell-associated silver time-courses were well described by the model, across 2 concentrations of 20 and 110 nm particles. ISD3 was calibrated to dissolution data for 20 nm particles as a function of serum protein concentration, but successfully described the media and cell dosimetry time-course for both particles at all concentrations and time points. We also report the finding that protein content in media has effects both on the initial rate of dissolution and the resulting near-steady state ion concentration in solution.
Abstract Background The development of particokinetic models describing the delivery of insoluble or poorly soluble nanoparticles to cells in liquid cell culture systems has improved the basis for dose-response analysis, hazard ranking from high-throughput systems, and now allows for translation of exposures across in vitro and in vivo test systems. Complimentary particokinetic models that address processes controlling delivery of both particles and released ions to cells, and the influence of particle size changes from dissolution on particle delivery for cell-culture systems would help advance our understanding of the role of particles and ion dosimetry on cellular toxicology. We developed ISD3, an extension of our previously published model for insoluble particles, by deriving a specific formulation of the Population Balance Equation for soluble particles. Results ISD3 describes the time, concentration and particle size dependent dissolution of particles, their delivery to cells, and the delivery and uptake of ions to cells in in vitro liquid test systems. We applied the model to calculate the particle and ion dosimetry of nanosilver and silver ions in vitro after calibration of two empirical models, one for particle dissolution and one for ion uptake. Total media ion concentration, particle concentration and total cell-associated silver time-courses were well described by the model, across 2 concentrations of 20 and 110 nm particles. ISD3 was calibrated to dissolution data for 20 nm particles as a function of serum protein concentration, but successfully described the media and cell dosimetry time-course for both particles at all concentrations and time points. We also report the finding that protein content in media affects the initial rate of dissolution and the resulting near-steady state ion concentration in solution for the systems we have studied. Conclusions By combining experiments and modeling, we were able to quantify the influence of proteins on silver particle solubility, determine the relative amounts of silver ions and particles in exposed cells, and demonstrate the influence of particle size changes resulting from dissolution on particle delivery to cells in culture. ISD3 is modular and can be adapted to new applications by replacing descriptions of dissolution, sedimentation and boundary conditions with those appropriate for particles other than silver.
ArticleNumber 6
Audience Academic
Author Kodali, Vamsi
Demokritou, Philip
Teeguarden, Justin G
Munusamy, Prabhakaran
Baer, Donald R
Thrall, Brian D
Cohen, Joel
Jolley, Hadley
Thomas, Dennis G
Smith, Jordan N
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  givenname: Dennis G
  surname: Thomas
  fullname: Thomas, Dennis G
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  organization: Computational Biology, Biological Sciences Division, Pacific Northwest National Laboratory, 902 Battelle Blvd, Richland, WA, 99352, USA. dennis.thomas@pnnl.gov
– sequence: 2
  givenname: Jordan N
  surname: Smith
  fullname: Smith, Jordan N
  organization: Health Effects and Exposure Science, Biological Sciences Division, Pacific Northwest National Laboratory, 902 Battelle Blvd, Richland, WA, 99352, USA
– sequence: 3
  givenname: Brian D
  surname: Thrall
  fullname: Thrall, Brian D
  organization: Health Effects and Exposure Science, Biological Sciences Division, Pacific Northwest National Laboratory, 902 Battelle Blvd, Richland, WA, 99352, USA
– sequence: 4
  givenname: Donald R
  surname: Baer
  fullname: Baer, Donald R
  organization: Interfacial Sciences and Simulation, Environmental Molecular Sciences Division, Pacific Northwest National Laboratory, Richland, WA, 99352, USA
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  givenname: Hadley
  surname: Jolley
  fullname: Jolley, Hadley
  organization: Health Effects and Exposure Science, Biological Sciences Division, Pacific Northwest National Laboratory, 902 Battelle Blvd, Richland, WA, 99352, USA
– sequence: 6
  givenname: Prabhakaran
  surname: Munusamy
  fullname: Munusamy, Prabhakaran
  organization: Interfacial Sciences and Simulation, Environmental Molecular Sciences Division, Pacific Northwest National Laboratory, Richland, WA, 99352, USA
– sequence: 7
  givenname: Vamsi
  surname: Kodali
  fullname: Kodali, Vamsi
  organization: Health Effects and Exposure Science, Biological Sciences Division, Pacific Northwest National Laboratory, 902 Battelle Blvd, Richland, WA, 99352, USA
– sequence: 8
  givenname: Philip
  surname: Demokritou
  fullname: Demokritou, Philip
  organization: Center for Nanotechnology and Nanotoxicology, Department of Environmental Health, Harvard University T. H. Chan School of Public Health, Boston, MA, 02115, USA
– sequence: 9
  givenname: Joel
  surname: Cohen
  fullname: Cohen, Joel
  organization: Center for Nanotechnology and Nanotoxicology, Department of Environmental Health, Harvard University T. H. Chan School of Public Health, Boston, MA, 02115, USA
– sequence: 10
  givenname: Justin G
  surname: Teeguarden
  fullname: Teeguarden, Justin G
  email: jt@pnnl.gov, jt@pnnl.gov
  organization: Department of Environmental and Molecular Toxicology, Oregon State University, Corvallis, OR, 93771, USA. jt@pnnl.gov
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Issue 1
Keywords In vitro dosimetry
Nanoparticle
Population balance equation
ISDD
Nanosilver
ISD3
Dissolution
Particokinetic model
Language English
License Open AccessThis article is distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The Creative Commons Public Domain Dedication waiver (http://creativecommons.org/publicdomain/zero/1.0/) applies to the data made available in this article, unless otherwise stated.
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PublicationTitle Particle and fibre toxicology
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GM DeLoid (243_CR24) 2017; 12
243_CR30
Team RC (243_CR39) 2013
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Snippet The development of particokinetic models describing the delivery of insoluble or poorly soluble nanoparticles to cells in liquid cell culture systems has...
Abstract Background The development of particokinetic models describing the delivery of insoluble or poorly soluble nanoparticles to cells in liquid cell...
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osti
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Open Access Repository
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StartPage 6
SubjectTerms Analysis
Animals
BASIC BIOLOGICAL SCIENCES
Blood proteins
Cell Culture Techniques
Cell Line
Chemical Precipitation
Culture Media - chemistry
Diffusion
Dissolution
Dosimeters
dosimetry
Health aspects
In vitro dosimetry
ISD3
ISDD
Macrophages, Alveolar - metabolism
Metal Nanoparticles - analysis
Metal Nanoparticles - chemistry
Mice
Models, Biological
Nanoparticle
Nanoparticles
Nanoparticles - analysis
Nanoparticles - chemistry
Nanoparticles - metabolism
Nanosilver
Particle Size
Particokinetic model
population balance
Population balance equation
Rankings
Silver - analysis
Silver - chemistry
Silver - metabolism
silver dissolution
silver nanoparticle
Solubility
Surface Properties
Testing equipment
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Title ISD3: a particokinetic model for predicting the combined effects of particle sedimentation, diffusion and dissolution on cellular dosimetry for in vitro systems
URI https://www.ncbi.nlm.nih.gov/pubmed/29368623
https://www.osti.gov/servlets/purl/1439688
https://pubmed.ncbi.nlm.nih.gov/PMC5784555
https://doaj.org/article/fc7a0e6e6d464a539c4283ced0eed268
Volume 15
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