Multicenter Study

. 2025 Aug;211(8):1409-1417.

doi: 10.1164/rccm.202409-1820OC.

Mechanically Affected Lung and Progression of Emphysema

Surya P Bhatt^{1

2}, Sandeep Bodduluri^{1

2}, Joseph M Reinhardt³, Arie Nakhmani^{1

4}; COPDGene Investigators

Collaborators, Affiliations

Collaborators

COPDGene Investigators:
James D Crapo, Edwin K Silverman, Barry J Make, Elizabeth A Regan, Terri H Beaty, Peter J Castaldi, Michael H Cho, Dawn L DeMeo, Adel El Boueiz, Marilyn G Foreman, Auyon Ghosh, Lystra P Hayden, Craig P Hersh, Jacqueline Hetmanski, Brian D Hobbs, John E Hokanson, Wonji Kim, Nan Laird, Christoph Lange, Sharon M Lutz, Merry-Lynn McDonald, Dmitry Prokopenko, Matthew Moll, Jarrett Morrow, Dandi Qiao, Aabida Saferali, Phuwanat Sakornsakolpat, Emily S Wan, Jeong Yun, Juan Pablo Centeno, Jean-Paul Charbonnier, Harvey O Coxson, Craig J Galban, MeiLan K Han, Eric A Hoffman, Stephen Humphries, Francine L Jacobson, Philip F Judy, Ella A Kazerooni, Alex Kluiber, David A Lynch, Pietro Nardelli, John D Newell Jr, Aleena Notary, Andrea Oh, James C Ross, Raul San Jose Estepar, Joyce Schroeder, Jered Sieren, Berend C Stoel, Juerg Tschirren, Edwin Van Beek, Bram van Ginneken, Eva van Rikxoort, Gonzalo Vegas Sánchez-Ferrero, Lucas Veitel, George R Washko, Carla G Wilson, Robert Jensen, Douglas Everett, Jim Crooks, Katherine Pratte, Matt Strand, Erin Austin, Gregory Kinney, Kendra A Young, Surya P Bhatt, Jessica Bon, Alejandro A Diaz, Susan Murray, Xavier Soler, Russell P Bowler, Katerina Kechris, Farnoush BanaeiKashani, Jeffrey L Curtis, Perry G Pernicano, Nicola Hanania, Mustafa Atik, Aladin Boriek, Kalpatha Guntupalli, Elizabeth Guy, Amit Parulekar, R Graham Barr, John Austin, Belinda D'Souza, Byron Thomashow, Neil MacIntyre Jr, H Page McAdams, Lacey Washington, Charlene McEvoy, Joseph Tashjian, Robert Wise, Robert Brown, Nadia N Hansel, Karen Horton, Allison Lambert, Nirupama Putcha, Richard Casaburi, Alessandra Adami, Matthew Budoff, Hans Fischer, Janos Porszasz, Harry Rossiter, William Stringer, Amir Sharafkhaneh, Charlie Lan, Christine Wendt, Brian Bell, Ken M Kunisaki, Eric L Flenaugh, Hirut Gebrekristos, Mario Ponce, Silanath Terpenning, Gloria Westney, Richard Rosiello, David Pace, Gerard Criner, David Ciccolella, Francis Cordova, Chandra Dass, Gilbert D'Alonzo, Parag Desai, Michael Jacobs, Steven Kelsen, Victor Kim, A James Mamary, Nathaniel Marchetti, Aditi Satti, Kartik Shenoy, Robert M Steiner, Alex Swift, Irene Swift, Maria Elena Vega-Sanchez, Mark Dransfield, William Bailey, Anand Iyer, Hrudaya Nath, J Michael Wells, Douglas Conrad, Andrew Yen, Alejandro P Comellas, Karin F Hoth, Brad Thompson, Wassim Labaki, Dharshan Vummidi, Joanne Billings, Abbie Begnaud, Tadashi Allen, Frank Sciurba, Divay Chandra, Joel Weissfeld, Antonio Anzueto, Sandra Adams, Diego Maselli-Caceres, Mario E Ruiz, Harjinder Singh

Affiliations

¹ Center for Lung Analytics and Imaging Research.
² Division of Pulmonary, Allergy, and Critical Care Medicine, and.
³ Roy J. Carver Department of Biomedical Engineering, University of Iowa, Iowa City, Iowa.
⁴ Department of Electrical and Computer Engineering, University of Alabama at Birmingham, Birmingham, Alabama; and.

PMID: 40009041
PMCID: PMC12369868 (available on 2026-08-01)
DOI: 10.1164/rccm.202409-1820OC

Multicenter Study

Mechanically Affected Lung and Progression of Emphysema

Surya P Bhatt et al. Am J Respir Crit Care Med. 2025 Aug.

. 2025 Aug;211(8):1409-1417.

doi: 10.1164/rccm.202409-1820OC.

Authors

Surya P Bhatt^{1

2}, Sandeep Bodduluri^{1

2}, Joseph M Reinhardt³, Arie Nakhmani^{1

4}; COPDGene Investigators

Collaborators

COPDGene Investigators:
James D Crapo, Edwin K Silverman, Barry J Make, Elizabeth A Regan, Terri H Beaty, Peter J Castaldi, Michael H Cho, Dawn L DeMeo, Adel El Boueiz, Marilyn G Foreman, Auyon Ghosh, Lystra P Hayden, Craig P Hersh, Jacqueline Hetmanski, Brian D Hobbs, John E Hokanson, Wonji Kim, Nan Laird, Christoph Lange, Sharon M Lutz, Merry-Lynn McDonald, Dmitry Prokopenko, Matthew Moll, Jarrett Morrow, Dandi Qiao, Aabida Saferali, Phuwanat Sakornsakolpat, Emily S Wan, Jeong Yun, Juan Pablo Centeno, Jean-Paul Charbonnier, Harvey O Coxson, Craig J Galban, MeiLan K Han, Eric A Hoffman, Stephen Humphries, Francine L Jacobson, Philip F Judy, Ella A Kazerooni, Alex Kluiber, David A Lynch, Pietro Nardelli, John D Newell Jr, Aleena Notary, Andrea Oh, James C Ross, Raul San Jose Estepar, Joyce Schroeder, Jered Sieren, Berend C Stoel, Juerg Tschirren, Edwin Van Beek, Bram van Ginneken, Eva van Rikxoort, Gonzalo Vegas Sánchez-Ferrero, Lucas Veitel, George R Washko, Carla G Wilson, Robert Jensen, Douglas Everett, Jim Crooks, Katherine Pratte, Matt Strand, Erin Austin, Gregory Kinney, Kendra A Young, Surya P Bhatt, Jessica Bon, Alejandro A Diaz, Susan Murray, Xavier Soler, Russell P Bowler, Katerina Kechris, Farnoush BanaeiKashani, Jeffrey L Curtis, Perry G Pernicano, Nicola Hanania, Mustafa Atik, Aladin Boriek, Kalpatha Guntupalli, Elizabeth Guy, Amit Parulekar, R Graham Barr, John Austin, Belinda D'Souza, Byron Thomashow, Neil MacIntyre Jr, H Page McAdams, Lacey Washington, Charlene McEvoy, Joseph Tashjian, Robert Wise, Robert Brown, Nadia N Hansel, Karen Horton, Allison Lambert, Nirupama Putcha, Richard Casaburi, Alessandra Adami, Matthew Budoff, Hans Fischer, Janos Porszasz, Harry Rossiter, William Stringer, Amir Sharafkhaneh, Charlie Lan, Christine Wendt, Brian Bell, Ken M Kunisaki, Eric L Flenaugh, Hirut Gebrekristos, Mario Ponce, Silanath Terpenning, Gloria Westney, Richard Rosiello, David Pace, Gerard Criner, David Ciccolella, Francis Cordova, Chandra Dass, Gilbert D'Alonzo, Parag Desai, Michael Jacobs, Steven Kelsen, Victor Kim, A James Mamary, Nathaniel Marchetti, Aditi Satti, Kartik Shenoy, Robert M Steiner, Alex Swift, Irene Swift, Maria Elena Vega-Sanchez, Mark Dransfield, William Bailey, Anand Iyer, Hrudaya Nath, J Michael Wells, Douglas Conrad, Andrew Yen, Alejandro P Comellas, Karin F Hoth, Brad Thompson, Wassim Labaki, Dharshan Vummidi, Joanne Billings, Abbie Begnaud, Tadashi Allen, Frank Sciurba, Divay Chandra, Joel Weissfeld, Antonio Anzueto, Sandra Adams, Diego Maselli-Caceres, Mario E Ruiz, Harjinder Singh

Affiliations

¹ Center for Lung Analytics and Imaging Research.
² Division of Pulmonary, Allergy, and Critical Care Medicine, and.
³ Roy J. Carver Department of Biomedical Engineering, University of Iowa, Iowa City, Iowa.
⁴ Department of Electrical and Computer Engineering, University of Alabama at Birmingham, Birmingham, Alabama; and.

PMID: 40009041
PMCID: PMC12369868 (available on 2026-08-01)
DOI: 10.1164/rccm.202409-1820OC

Abstract

Rationale: Most emphysema is believed to arise from small airway disease, but recent data suggest emphysema begets more emphysema and that its progression may be due to the mechanical stress experienced by normal lung regions adjacent to existing emphysema. Objectives: To determine whether new emphysema arises from this penumbra of mechanically affected lung (MAL) or from small airway disease. Methods: We coregistered inspiratory chest computed tomography scans acquired at enrollment and 5 years later in 4,972 participants enrolled in a multicenter cohort. Using adaptive Gaussian smoothing, we quantified the three-dimensional effect of all emphysema clusters on adjacent normal voxels by assuming that the mechanical effect of each emphysema cluster on surrounding voxels depends on cluster size and decays with increasing distance. The cumulative mechanical effect on each voxel was used to calculate MAL. Based on the probability distribution of normal voxels progressing to emphysema, we classified voxels into high (⩾10.5), intermediate (>0 to <10.5), and zero MAL. We coregistered baseline inspiratory and expiratory computed tomography images to quantify functional small airway disease. We quantified the proportion of new emphysema arising from each risk region. Measurements and Main Results: In adjusted analyses, higher MAL was associated with faster FEV₁ decline (-2.2 ml/yr; 95% confidence interval [CI], -2.6 to -1.7; P < 0.001) and emphysema progression (-0.14 g/L/yr; 95% CI, -0.16 to -0.12; P < 0.001) and greater all-cause mortality (adjusted hazard ratio, 1.07; 95% CI, 1.05 to 1.09; P < 0.001). The relative mean contributions of high and intermediate MAL to new emphysema were 60.5% and 37.1%, respectively, in contrast to zero MAL (2.4%) and small airway disease (4.8%). Conclusions: Most new emphysema arises from areas of high MAL and in substantially higher proportion than areas of small airway disease.

Keywords: emphysema; mechanotransduction; progression; small airways.

PubMed Disclaimer

Comment in

Bridging the Gap: Small Airways, Mechanical Stress, and the Evolution of Emphysema.
Han MK, Hatt C. Han MK, et al. Am J Respir Crit Care Med. 2025 Aug;211(8):1324-1326. doi: 10.1164/rccm.202503-0614ED. Am J Respir Crit Care Med. 2025. PMID: 40532197 Free PMC article. No abstract available.

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Mechanically Affected Lung and Progression of Emphysema

Collaborators

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Mechanically Affected Lung and Progression of Emphysema

Authors

Collaborators

Affiliations

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Grants and funding

LinkOut - more resources

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Research Materials