Fast cycling of intermittent hypoxia in a physiomimetic 3D environment: A novel tool for the study of the parenchymal effects of sleep apnea
Background: Patients with obstructive sleep apnea (OSA) experience recurrent hypoxemic events with a frequency sometimes exceeding 60 events/h. These episodic events induce downstream transient hypoxia in the parenchymal tissue of all organs, thereby eliciting the pathological consequences of OSA. W...
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| Published in | Frontiers in pharmacology Vol. 13; p. 1081345 |
|---|---|
| Main Authors | , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Switzerland
Frontiers Media S.A
12.01.2023
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| Subjects | |
| Online Access | Get full text |
| ISSN | 1663-9812 1663-9812 |
| DOI | 10.3389/fphar.2022.1081345 |
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| Abstract | Background:
Patients with obstructive sleep apnea (OSA) experience recurrent hypoxemic events with a frequency sometimes exceeding 60 events/h. These episodic events induce downstream transient hypoxia in the parenchymal tissue of all organs, thereby eliciting the pathological consequences of OSA. Whereas experimental models currently apply intermittent hypoxia to cells conventionally cultured in 2D plates, there is no well-characterized setting that will subject cells to well-controlled intermittent hypoxia in a 3D environment and enable the study of the effects of OSA on the cells of interest while preserving the underlying tissue environment.
Aim:
To design and characterize an experimental approach that exposes cells to high-frequency intermittent hypoxia mimicking OSA in 3D (hydrogels or tissue slices).
Methods:
Hydrogels made from lung extracellular matrix (L-ECM) or brain tissue slices (300–800-μm thickness) were placed on a well whose bottom consisted of a permeable silicone membrane. The chamber beneath the membrane was subjected to a square wave of hypoxic/normoxic air. The oxygen concentration at different depths within the hydrogel/tissue slice was measured with an oxygen microsensor.
Results:
3D-seeded cells could be subjected to well-controlled and realistic intermittent hypoxia patterns mimicking 60 apneas/h when cultured in L-ECM hydrogels ≈500 μm-thick or
ex-vivo
in brain slices 300–500 μm-thick.
Conclusion:
This novel approach will facilitate the investigation of the effects of intermittent hypoxia simulating OSA in 3D-residing cells within the parenchyma of different tissues/organs. |
|---|---|
| AbstractList | Background:
Patients with obstructive sleep apnea (OSA) experience recurrent hypoxemic events with a frequency sometimes exceeding 60 events/h. These episodic events induce downstream transient hypoxia in the parenchymal tissue of all organs, thereby eliciting the pathological consequences of OSA. Whereas experimental models currently apply intermittent hypoxia to cells conventionally cultured in 2D plates, there is no well-characterized setting that will subject cells to well-controlled intermittent hypoxia in a 3D environment and enable the study of the effects of OSA on the cells of interest while preserving the underlying tissue environment.
Aim:
To design and characterize an experimental approach that exposes cells to high-frequency intermittent hypoxia mimicking OSA in 3D (hydrogels or tissue slices).
Methods:
Hydrogels made from lung extracellular matrix (L-ECM) or brain tissue slices (300–800-μm thickness) were placed on a well whose bottom consisted of a permeable silicone membrane. The chamber beneath the membrane was subjected to a square wave of hypoxic/normoxic air. The oxygen concentration at different depths within the hydrogel/tissue slice was measured with an oxygen microsensor.
Results:
3D-seeded cells could be subjected to well-controlled and realistic intermittent hypoxia patterns mimicking 60 apneas/h when cultured in L-ECM hydrogels ≈500 μm-thick or
ex-vivo
in brain slices 300–500 μm-thick.
Conclusion:
This novel approach will facilitate the investigation of the effects of intermittent hypoxia simulating OSA in 3D-residing cells within the parenchyma of different tissues/organs. Background: Patients with obstructive sleep apnea (OSA) experience recurrent hypoxemic events with a frequency sometimes exceeding 60 events/h. These episodic events induce downstream transient hypoxia in the parenchymal tissue of all organs, thereby eliciting the pathological consequences of OSA. Whereas experimental models currently apply intermittent hypoxia to cells conventionally cultured in 2D plates, there is no well-characterized setting that will subject cells to well-controlled intermittent hypoxia in a 3D environment and enable the study of the effects of OSA on the cells of interest while preserving the underlying tissue environment.Aim: To design and characterize an experimental approach that exposes cells to high-frequency intermittent hypoxia mimicking OSA in 3D (hydrogels or tissue slices).Methods: Hydrogels made from lung extracellular matrix (L-ECM) or brain tissue slices (300–800-μm thickness) were placed on a well whose bottom consisted of a permeable silicone membrane. The chamber beneath the membrane was subjected to a square wave of hypoxic/normoxic air. The oxygen concentration at different depths within the hydrogel/tissue slice was measured with an oxygen microsensor.Results: 3D-seeded cells could be subjected to well-controlled and realistic intermittent hypoxia patterns mimicking 60 apneas/h when cultured in L-ECM hydrogels ≈500 μm-thick or ex-vivo in brain slices 300–500 μm-thick.Conclusion: This novel approach will facilitate the investigation of the effects of intermittent hypoxia simulating OSA in 3D-residing cells within the parenchyma of different tissues/organs. Background: Patients with obstructive sleep apnea (OSA) experience recurrent hypoxemic events with a frequency sometimes exceeding 60 events/h. These episodic events induce downstream transient hypoxia in the parenchymal tissue of all organs, thereby eliciting the pathological consequences of OSA. Whereas experimental models currently apply intermittent hypoxia to cells conventionally cultured in 2D plates, there is no well-characterized setting that will subject cells to well-controlled intermittent hypoxia in a 3D environment and enable the study of the effects of OSA on the cells of interest while preserving the underlying tissue environment. Aim: To design and characterize an experimental approach that exposes cells to high-frequency intermittent hypoxia mimicking OSA in 3D (hydrogels or tissue slices). Methods: Hydrogels made from lung extracellular matrix (L-ECM) or brain tissue slices (300-800-μm thickness) were placed on a well whose bottom consisted of a permeable silicone membrane. The chamber beneath the membrane was subjected to a square wave of hypoxic/normoxic air. The oxygen concentration at different depths within the hydrogel/tissue slice was measured with an oxygen microsensor. Results: 3D-seeded cells could be subjected to well-controlled and realistic intermittent hypoxia patterns mimicking 60 apneas/h when cultured in L-ECM hydrogels ≈500 μm-thick or ex-vivo in brain slices 300-500 μm-thick. Conclusion: This novel approach will facilitate the investigation of the effects of intermittent hypoxia simulating OSA in 3D-residing cells within the parenchyma of different tissues/organs.Background: Patients with obstructive sleep apnea (OSA) experience recurrent hypoxemic events with a frequency sometimes exceeding 60 events/h. These episodic events induce downstream transient hypoxia in the parenchymal tissue of all organs, thereby eliciting the pathological consequences of OSA. Whereas experimental models currently apply intermittent hypoxia to cells conventionally cultured in 2D plates, there is no well-characterized setting that will subject cells to well-controlled intermittent hypoxia in a 3D environment and enable the study of the effects of OSA on the cells of interest while preserving the underlying tissue environment. Aim: To design and characterize an experimental approach that exposes cells to high-frequency intermittent hypoxia mimicking OSA in 3D (hydrogels or tissue slices). Methods: Hydrogels made from lung extracellular matrix (L-ECM) or brain tissue slices (300-800-μm thickness) were placed on a well whose bottom consisted of a permeable silicone membrane. The chamber beneath the membrane was subjected to a square wave of hypoxic/normoxic air. The oxygen concentration at different depths within the hydrogel/tissue slice was measured with an oxygen microsensor. Results: 3D-seeded cells could be subjected to well-controlled and realistic intermittent hypoxia patterns mimicking 60 apneas/h when cultured in L-ECM hydrogels ≈500 μm-thick or ex-vivo in brain slices 300-500 μm-thick. Conclusion: This novel approach will facilitate the investigation of the effects of intermittent hypoxia simulating OSA in 3D-residing cells within the parenchyma of different tissues/organs. Patients with obstructive sleep apnea (OSA) experience recurrent hypoxemic events with a frequency sometimes exceeding 60 events/h. These episodic events induce downstream transient hypoxia in the parenchymal tissue of all organs, thereby eliciting the pathological consequences of OSA. Whereas experimental models currently apply intermittent hypoxia to cells conventionally cultured in 2D plates, there is no well-characterized setting that will subject cells to well-controlled intermittent hypoxia in a 3D environment and enable the study of the effects of OSA on the cells of interest while preserving the underlying tissue environment. To design and characterize an experimental approach that exposes cells to high-frequency intermittent hypoxia mimicking OSA in 3D (hydrogels or tissue slices). Hydrogels made from lung extracellular matrix (L-ECM) or brain tissue slices (300-800-μm thickness) were placed on a well whose bottom consisted of a permeable silicone membrane. The chamber beneath the membrane was subjected to a square wave of hypoxic/normoxic air. The oxygen concentration at different depths within the hydrogel/tissue slice was measured with an oxygen microsensor. 3D-seeded cells could be subjected to well-controlled and realistic intermittent hypoxia patterns mimicking 60 apneas/h when cultured in L-ECM hydrogels ≈500 μm-thick or in brain slices 300-500 μm-thick. This novel approach will facilitate the investigation of the effects of intermittent hypoxia simulating OSA in 3D-residing cells within the parenchyma of different tissues/organs. |
| Author | Gasull, Xavier Jurado, Alicia Farré, Ramon Otero, Jorge Gozal, David Ulldemolins, Anna Lluís, Helena Sunyer, Raimon Almendros, Isaac Gavara, Núria |
| AuthorAffiliation | 4 The Institute for Bioengineering of Catalonia (IBEC) , The Barcelona Institute of Science and Technology (BIST) , Barcelona , Spain 5 CIBER de Enfermedades Respiratorias , Madrid , Spain 1 Unitat de Biofísica i Bioenginyeria , Facultat de Medicina i Ciències de la Salut , Universitat de Barcelona , Barcelona , Spain 2 Neurophysiology Laboratory , Department of Biomedicine , School of Medicine , Institute of Neurosciences , University of Barcelona , Barcelona , Spain 3 Institut Investigacions Biomèdiques August Pi Sunyer , Barcelona , Spain 6 Department of Child Health , The University of Missouri School of Medicine , Columbia , KY , United States |
| AuthorAffiliation_xml | – name: 2 Neurophysiology Laboratory , Department of Biomedicine , School of Medicine , Institute of Neurosciences , University of Barcelona , Barcelona , Spain – name: 3 Institut Investigacions Biomèdiques August Pi Sunyer , Barcelona , Spain – name: 5 CIBER de Enfermedades Respiratorias , Madrid , Spain – name: 6 Department of Child Health , The University of Missouri School of Medicine , Columbia , KY , United States – name: 4 The Institute for Bioengineering of Catalonia (IBEC) , The Barcelona Institute of Science and Technology (BIST) , Barcelona , Spain – name: 1 Unitat de Biofísica i Bioenginyeria , Facultat de Medicina i Ciències de la Salut , Universitat de Barcelona , Barcelona , Spain |
| Author_xml | – sequence: 1 givenname: Alicia surname: Jurado fullname: Jurado, Alicia – sequence: 2 givenname: Anna surname: Ulldemolins fullname: Ulldemolins, Anna – sequence: 3 givenname: Helena surname: Lluís fullname: Lluís, Helena – sequence: 4 givenname: Xavier surname: Gasull fullname: Gasull, Xavier – sequence: 5 givenname: Núria surname: Gavara fullname: Gavara, Núria – sequence: 6 givenname: Raimon surname: Sunyer fullname: Sunyer, Raimon – sequence: 7 givenname: Jorge surname: Otero fullname: Otero, Jorge – sequence: 8 givenname: David surname: Gozal fullname: Gozal, David – sequence: 9 givenname: Isaac surname: Almendros fullname: Almendros, Isaac – sequence: 10 givenname: Ramon surname: Farré fullname: Farré, Ramon |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/36712654$$D View this record in MEDLINE/PubMed |
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| Cites_doi | 10.1002/jbm.a.35726 10.1183/09031936.00184314 10.1002/jbm.a.34946 10.3389/fcell.2022.819726 10.3389/fonc.2019.00043 10.5665/sleep.4166 10.1152/japplphysiol.00492.2011 10.1016/S2213-2600(19)30198-5 10.3390/children9091278 10.3389/fmolb.2020.00033 10.14723/tmrsj.37.439 10.1152/physiol.00036.2016 10.3390/polym13142350 10.1152/ajpregu.00056.2019 10.1152/ajplung.2001.281.4.L1021 10.3390/ijms22137137 10.1371/journal.pcbi.1000902 10.3390/antiox10081165 10.5665/SLEEP.1176 10.1002/(SICI)1097-0290(19960520)50:4<365::AID-BIT3>3.0.CO;2-J 10.1093/sleep/21.4.386 10.3389/fphys.2016.00319 10.1002/bit.22361 10.3389/fphys.2018.01803 10.3390/ijms21228779 10.1038/nmeth.3839 10.1038/2151173a0 10.1152/ajpcell.00098.2017 10.3390/antib11020026 10.3389/fbioe.2021.711977 10.1128/mSystems.00058-19 10.3389/fvets.2021.686088 10.1089/ten.TEC.2015.0375 10.1016/j.ejphar.2016.06.057 10.1089/ten.TEA.2012.0587 10.1016/S2213-2600(12)70051-6 10.1152/ajplung.00451.2019 10.1038/nrendo.2016.22 10.3389/fbioe.2019.00251 10.1152/ajpheart.00556.2014 10.3389/fphar.2022.945134 10.1007/978-1-4939-9086-3_21 |
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| Copyright | Copyright © 2023 Jurado, Ulldemolins, Lluís, Gasull, Gavara, Sunyer, Otero, Gozal, Almendros and Farré. Copyright © 2023 Jurado, Ulldemolins, Lluís, Gasull, Gavara, Sunyer, Otero, Gozal, Almendros and Farré. 2023 Jurado, Ulldemolins, Lluís, Gasull, Gavara, Sunyer, Otero, Gozal, Almendros and Farré |
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| Keywords | obstructive sleep apnea oxygen diffusion hypoxia 3D culture cell culture hydrogels tissue slice disease model |
| Language | English |
| License | Copyright © 2023 Jurado, Ulldemolins, Lluís, Gasull, Gavara, Sunyer, Otero, Gozal, Almendros and Farré. This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms. |
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| Notes | ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23 Ramaswamy Krishnan, Beth Israel Deaconess Medical Center and Harvard Medical School, United States Reviewed by: Raoua Ben Messaoud, INSERM U1042 Laboratoire Hypoxie et Physiopathologies cardiovasculaires et respiratoires (HP2), France This article was submitted to Respiratory Pharmacology, a section of the journal Frontiers in Pharmacology Edited by: Haiyang Tang, University of Arizona, United States |
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Patients with obstructive sleep apnea (OSA) experience recurrent hypoxemic events with a frequency sometimes exceeding 60 events/h. These episodic... Patients with obstructive sleep apnea (OSA) experience recurrent hypoxemic events with a frequency sometimes exceeding 60 events/h. These episodic events... Background: Patients with obstructive sleep apnea (OSA) experience recurrent hypoxemic events with a frequency sometimes exceeding 60 events/h. These episodic... |
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| Title | Fast cycling of intermittent hypoxia in a physiomimetic 3D environment: A novel tool for the study of the parenchymal effects of sleep apnea |
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