New study shows how oxygen transfer is altered in diseased lung tissue

New study shows how oxygen transfer is altered in diseased lung tissue
New research from engineers at the University of Illinois at Urbana-Champaign shows how oxygen transfer is altered in diseased lung tissue. Credit: Mijung Kim and Marilyn Porras-Gomez.

A multidisciplinary team of researchers at the University of Illinois at Urbana-Champaign has developed tiny sensors that measure oxygen transport in bovine lung tissue. The study—which establishes a new framework for observing the elusive connection between lung membranes, oxygen flow and related disease—is published in the journal Nature Communications.

"The membranes that encase lungs and add the elasticity needed for inhaling and exhaling appear to also play a critical role in supplying oxygen to the bloodstream," said and engineering professor Cecilia Leal, who led the study with graduate students Mijung Kim and Marilyn Porras-Gomez.

For lung tissue to perform effectively, it must be able to transfer oxygen and other gases through its membranes, the researchers said. One way this happens is through a substance—called a surfactant—that reduces lung liquid surface tension to allow this exchange to occur. However, a surfactant called cardiolipin is known to be overly abundant in tissues infected with bacterial pneumonia, the study reports.

The new sensors are thin silicon- and graphene-based films that contain tiny transistors that measure oxygen permeation between biological surfaces. "A thin film of lung membranes is spread out over many at the device surface, giving us a better picture of what is going on over a relatively large area rather than just a spot," Leal said.

The team used the sensors to compare oxygen transfer between healthy and diseased membranes. The samples consisted of a bovine lipid-protein extract commonly used to treat suffering , with a portion of the samples combined with cardiolipin.

New study shows how oxygen transfer is altered in diseased lung tissue
Professor Cecilia Leal, center, and graduate students Mijung Kim, left, and Marilyn Porras-Gomez. Credit: L. Brian Stauffer

"We found that more oxygen passes through the tissue diseased by cardiolipin," Leal said. "Which may help explain previous observations of there being an off-balance of oxygen in the blood of pneumonia patients. Even though an increase in could be perceived as positive, it is important to keep the natural exchange that occurs in the lung—transferring oxygen more rapidly into the bloodstream disrupts this healthy equilibrium."

The researchers also compared the structure of healthy and diseased tissue using microscopic and X-ray imaging. They found that the tissue combined with cardiolipin showed damaged spots, which they posit may be responsible for increased oxygen transfer and subsequent off-balance oxygen levels in pneumonia patients.

The next stage of this research will be to study lung membranes extracted fromhealthy and diseased mammalian lungs, Leal said. "Our results raise important insights on lung membrane function, indicating that changes in structure and composition directly relate to oxygen permeation. This work can potentially enable examining the role of unbalanced diffusion through membranes in a pathological context."

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More information: Mijung Kim et al, Graphene-based sensing of oxygen transport through pulmonary membranes, Nature Communications (2020). DOI: 10.1038/s41467-020-14825-9
Journal information: Nature Communications

Citation: New study shows how oxygen transfer is altered in diseased lung tissue (2020, April 9) retrieved 1 December 2020 from
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