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Cell Culture in a Hyperbaric Chamber: A Research Model to Study the Effects of Hyperbarism (Hyperbaric Pressure) on Bone Cell Culture
Cell Culture in a Hyperbaric Chamber: A Research Model to Study the Effects of Hyperbarism (Hyperbaric Pressure) on Bone Cell Culture
by Fattorini, Luigi , Mariano, Alessia , Marchetti, Enrico , Rodio, Angelo , Scotto d’Abusco, Anna , Consalvi, Valerio
in Alkaline phosphatase / Antibodies / Aquaculture / Biomarkers / Biomarkers - metabolism / Bone and Bones - cytology / Bone and Bones - metabolism / Bone cancer / bone metabolism / Bone morphogenetic protein 2 / Bones / Cell culture / Cell Culture Techniques - instrumentation / Cell Culture Techniques - methods / Cell Line / Collagen / Collagen (type I) / Compressed air / Cytokines - metabolism / Decompression / Down-regulation / Gases / Genes / Homeostasis / Humans / hyperbaric chamber / hyperbaric environment / Hyperbaric Oxygenation / Inflammation / inflammatory pathways / Joint surgery / Medical research / Medicine, Experimental / Models, Biological / Necrosis / NF-κB protein / Osteoblasts / Osteoblasts - cytology / Osteoblasts - metabolism / Osteocalcin / Osteonecrosis / osteopenia / Osteoprotegerin / Osteoprotegerin - metabolism / Penicillin / Phosphatases / Pressure / RANK Ligand - metabolism / Reactive oxygen species / Reactive Oxygen Species - metabolism / Tumor necrosis factor-α
2025
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Cell Culture in a Hyperbaric Chamber: A Research Model to Study the Effects of Hyperbarism (Hyperbaric Pressure) on Bone Cell Culture
by Fattorini, Luigi , Mariano, Alessia , Marchetti, Enrico , Rodio, Angelo , Scotto d’Abusco, Anna , Consalvi, Valerio
in Alkaline phosphatase / Antibodies / Aquaculture / Biomarkers / Biomarkers - metabolism / Bone and Bones - cytology / Bone and Bones - metabolism / Bone cancer / bone metabolism / Bone morphogenetic protein 2 / Bones / Cell culture / Cell Culture Techniques - instrumentation / Cell Culture Techniques - methods / Cell Line / Collagen / Collagen (type I) / Compressed air / Cytokines - metabolism / Decompression / Down-regulation / Gases / Genes / Homeostasis / Humans / hyperbaric chamber / hyperbaric environment / Hyperbaric Oxygenation / Inflammation / inflammatory pathways / Joint surgery / Medical research / Medicine, Experimental / Models, Biological / Necrosis / NF-κB protein / Osteoblasts / Osteoblasts - cytology / Osteoblasts - metabolism / Osteocalcin / Osteonecrosis / osteopenia / Osteoprotegerin / Osteoprotegerin - metabolism / Penicillin / Phosphatases / Pressure / RANK Ligand - metabolism / Reactive oxygen species / Reactive Oxygen Species - metabolism / Tumor necrosis factor-α
2025
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Cell Culture in a Hyperbaric Chamber: A Research Model to Study the Effects of Hyperbarism (Hyperbaric Pressure) on Bone Cell Culture
Cell Culture in a Hyperbaric Chamber: A Research Model to Study the Effects of Hyperbarism (Hyperbaric Pressure) on Bone Cell Culture
by Fattorini, Luigi , Mariano, Alessia , Marchetti, Enrico , Rodio, Angelo , Scotto d’Abusco, Anna , Consalvi, Valerio
in Alkaline phosphatase / Antibodies / Aquaculture / Biomarkers / Biomarkers - metabolism / Bone and Bones - cytology / Bone and Bones - metabolism / Bone cancer / bone metabolism / Bone morphogenetic protein 2 / Bones / Cell culture / Cell Culture Techniques - instrumentation / Cell Culture Techniques - methods / Cell Line / Collagen / Collagen (type I) / Compressed air / Cytokines - metabolism / Decompression / Down-regulation / Gases / Genes / Homeostasis / Humans / hyperbaric chamber / hyperbaric environment / Hyperbaric Oxygenation / Inflammation / inflammatory pathways / Joint surgery / Medical research / Medicine, Experimental / Models, Biological / Necrosis / NF-κB protein / Osteoblasts / Osteoblasts - cytology / Osteoblasts - metabolism / Osteocalcin / Osteonecrosis / osteopenia / Osteoprotegerin / Osteoprotegerin - metabolism / Penicillin / Phosphatases / Pressure / RANK Ligand - metabolism / Reactive oxygen species / Reactive Oxygen Species - metabolism / Tumor necrosis factor-α
2025

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Mohammed Bin Rashid Library /
Catalogue /
Cell Culture in a Hyperbaric Chamber: A Research Model to Study the Effects of Hyperbarism (Hyperbaric Pressure) on Bone Cell Culture
Cell Culture in a Hyperbaric Chamber: A Research Model to Study the Effects of Hyperbarism (Hyperbaric Pressure) on Bone Cell Culture
Journal Article

Cell Culture in a Hyperbaric Chamber: A Research Model to Study the Effects of Hyperbarism (Hyperbaric Pressure) on Bone Cell Culture

Fattorini, Luigi,
Mariano, Alessia,
Marchetti, Enrico,
Rodio, Angelo,
Scotto d’Abusco, Anna,
Consalvi, Valerio
2025
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Overview
The hyperbaric environment, to which many categories of workers are exposed, can provoke injuries that can lead to various types of disorders. A major part of the studies aiming to explore the causes/effects leading to these injuries are conducted in vivo. In the present manuscript, we describe the effects on osteoblast cell cultures stressed in a hyperbaric purpose-built chamber, using an in vitro model to analyze the affected pathways. A hyperbaric chamber for cell cultures was constructed by adapting a pressurized test chamber originally designed for technical use. The MG-63 cell line and human primary osteoblasts were placed into this chamber at different atm and exposure times, at 37 °C. After treatment, the chamber was depressurized by performing controlled decompression stops. Then, the pro-inflammatory cytokines and bone tissue biomarker expression were analyzed. The stress conditions induced the overexpression of pro-inflammatory cytokines, such as IL-6, IL-1β, and TNF-α, along with reactive oxygen species release. Moreover, the alteration of bone tissue marker production was observed. In particular, the increase in Receptor Activator of NF-κB Ligand (RANKL) and the decrease in Osteoprotegerin (OPG) were detected. Further modulation was observed regarding other biomarkers, Alkaline phosphatase, Osteocalcin, Bone Morphogenetic Protein-2, and mainly Collagen type I, all of which were downregulated by treatment. Taken together, these findings account for certain illnesses, such as dysbaric osteonecrosis, diagnosed in workers exposed to a hyperbaric environment. Inflammation induced by this kind of stress affects several factors involved in bone tissue homeostasis, leading to bone injuries, which are among the typical disorders observed in divers.
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MDPI AG,MDPI
Subject

Alkaline phosphatase

/ Antibodies

/ Aquaculture

/ Biomarkers

/ Biomarkers - metabolism

/ Bone and Bones - cytology

/ Bone and Bones - metabolism

/ Bone cancer

/ bone metabolism

/ Bone morphogenetic protein 2

/ Bones

/ Cell culture

/ Cell Culture Techniques - instrumentation

/ Cell Culture Techniques - methods

/ Cell Line

/ Collagen

/ Collagen (type I)

/ Compressed air

/ Cytokines - metabolism

/ Decompression

/ Down-regulation

/ Gases

/ Genes

/ Homeostasis

/ Humans

/ hyperbaric chamber

/ hyperbaric environment

/ Hyperbaric Oxygenation

/ Inflammation

/ inflammatory pathways

/ Joint surgery

/ Medical research

/ Medicine, Experimental

/ Models, Biological

/ Necrosis

/ NF-κB protein

/ Osteoblasts

/ Osteoblasts - cytology

/ Osteoblasts - metabolism

/ Osteocalcin

/ Osteonecrosis

/ osteopenia

/ Osteoprotegerin

/ Osteoprotegerin - metabolism

/ Penicillin

/ Phosphatases

/ Pressure

/ RANK Ligand - metabolism

/ Reactive oxygen species

/ Reactive Oxygen Species - metabolism

/ Tumor necrosis factor-α

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