Endobronchial coils for emphysema: Dual mechanism of action on lobar residual volume reduction

RENEW Study Group

doi:10.1111/resp.13816

Endobronchial coils for emphysema: Dual mechanism of action on lobar residual volume reduction

RENEW Study Group

Pulmonary and Critical Care Medicine

Research output: Contribution to journal › Article › peer-review

5 Scopus citations

Abstract

Background and objective: The RENEW trial demonstrated that bronchoscopic lung volume reduction using endobronchial coils improves quality of life, pulmonary function and exercise performance. In this post hoc analysis of RENEW, we examine the mechanism of action of endobronchial coils that drives improvement in clinical outcomes. Methods: A total of 78 patients from the RENEW coil-treated group who were treated in one or both lobes that were deemed as the most destroyed were included in this retrospective analysis. Expiratory and inspiratory HRCT scans were used to assess lobar volume change from baseline to 12 months post coil treatment in treated and untreated lobes. Results: Reduction in lobar RV in treated lobes was significantly associated with favourable clinical improvement. Independent predictor of the change in RV and FEV₁ was the change in lobar RV reduction in the treated lobes and for change in 6MWD the absence of cardiac disease and the change in SGRQ, while the independent predictor of change in SGRQ was the change in 6MWD. Conclusion: Our results suggest that residual lobar volume reduction in treated lobes measured by QCT is the driving mechanism of action of endobronchial coils leading to positive clinical outcomes. However, the improvement in exercise capacity and quality of life seems to be affected by the presence of cardiac disease.

Original language	English (US)
Pages (from-to)	1160-1166
Number of pages	7
Journal	Respirology
Volume	25
Issue number	11
DOIs	https://doi.org/10.1111/resp.13816
State	Published - Nov 1 2020

Keywords

bronchoscopy and interventional techniques
emphysema
endobronchial coils
lung volume reduction
quantitative computed tomographic analysis

ASJC Scopus subject areas

Pulmonary and Respiratory Medicine

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10.1111/resp.13816

Cite this

@article{b52077168b8343c9a3d4ed490f750beb,

title = "Endobronchial coils for emphysema: Dual mechanism of action on lobar residual volume reduction",

abstract = "Background and objective: The RENEW trial demonstrated that bronchoscopic lung volume reduction using endobronchial coils improves quality of life, pulmonary function and exercise performance. In this post hoc analysis of RENEW, we examine the mechanism of action of endobronchial coils that drives improvement in clinical outcomes. Methods: A total of 78 patients from the RENEW coil-treated group who were treated in one or both lobes that were deemed as the most destroyed were included in this retrospective analysis. Expiratory and inspiratory HRCT scans were used to assess lobar volume change from baseline to 12 months post coil treatment in treated and untreated lobes. Results: Reduction in lobar RV in treated lobes was significantly associated with favourable clinical improvement. Independent predictor of the change in RV and FEV1 was the change in lobar RV reduction in the treated lobes and for change in 6MWD the absence of cardiac disease and the change in SGRQ, while the independent predictor of change in SGRQ was the change in 6MWD. Conclusion: Our results suggest that residual lobar volume reduction in treated lobes measured by QCT is the driving mechanism of action of endobronchial coils leading to positive clinical outcomes. However, the improvement in exercise capacity and quality of life seems to be affected by the presence of cardiac disease.",

keywords = "bronchoscopy and interventional techniques, emphysema, endobronchial coils, lung volume reduction, quantitative computed tomographic analysis",

author = "{RENEW Study Group} and Hartman, {Jorine E.} and Shah, {Pallav L.} and Sciurba, {Frank C.} and Herth, {Felix J.F.} and Slebos, {Dirk Jan} and Herth, {F. J.F.} and D. Gompelmann and M. Schuhmann and R. Eberhardt and D. Harzheim and B. Rump and Slebos, {D. J.} and {Ten Hacken}, N. and K. Klooster and Hartman, {J. E.} and S. Augustijn and C. Caneja and W. McNulty and J. Garner and G. Desl{\'e}e and H. Vallerand and S. Dury and D. Gras and M. Verdier and Marquette, {C. H.} and C. Sanfiorenzo and C. Clary and C. Leheron and J. Pradelli and S. Korzeniewski and P. Wolter and T. Arfi and F. Macone and M. Poudenx and S. Leroy and A. Guillemart and J. Griffonet and C. Strange and R. Argula and G. Silvestri and Huggins, {J. T.} and N. Pastis and D. Woodford and L. Schwarz and D. Walker and G. Criner and J. Mamary and D. Midthun and R. Kern and Boras, {L. L.}",

note = "Publisher Copyright: {\textcopyright} 2020 The Authors. Respirology published by John Wiley & Sons Australia, Ltd on behalf of Asian Pacific Society of Respirology.",

year = "2020",

month = nov,

day = "1",

doi = "10.1111/resp.13816",

language = "English (US)",

volume = "25",

pages = "1160--1166",

journal = "Respirology",

issn = "1323-7799",

publisher = "Wiley-Blackwell",

number = "11",

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TY - JOUR

T1 - Endobronchial coils for emphysema

T2 - Dual mechanism of action on lobar residual volume reduction

AU - RENEW Study Group

AU - Hartman, Jorine E.

AU - Shah, Pallav L.

AU - Sciurba, Frank C.

AU - Herth, Felix J.F.

AU - Slebos, Dirk Jan

AU - Herth, F. J.F.

AU - Gompelmann, D.

AU - Schuhmann, M.

AU - Eberhardt, R.

AU - Harzheim, D.

AU - Rump, B.

AU - Slebos, D. J.

AU - Ten Hacken, N.

AU - Klooster, K.

AU - Hartman, J. E.

AU - Augustijn, S.

AU - Caneja, C.

AU - McNulty, W.

AU - Garner, J.

AU - Deslée, G.

AU - Vallerand, H.

AU - Dury, S.

AU - Gras, D.

AU - Verdier, M.

AU - Marquette, C. H.

AU - Sanfiorenzo, C.

AU - Clary, C.

AU - Leheron, C.

AU - Pradelli, J.

AU - Korzeniewski, S.

AU - Wolter, P.

AU - Arfi, T.

AU - Macone, F.

AU - Poudenx, M.

AU - Leroy, S.

AU - Guillemart, A.

AU - Griffonet, J.

AU - Strange, C.

AU - Argula, R.

AU - Silvestri, G.

AU - Huggins, J. T.

AU - Pastis, N.

AU - Woodford, D.

AU - Schwarz, L.

AU - Walker, D.

AU - Criner, G.

AU - Mamary, J.

AU - Midthun, D.

AU - Kern, R.

AU - Boras, L. L.

PY - 2020/11/1

Y1 - 2020/11/1

N2 - Background and objective: The RENEW trial demonstrated that bronchoscopic lung volume reduction using endobronchial coils improves quality of life, pulmonary function and exercise performance. In this post hoc analysis of RENEW, we examine the mechanism of action of endobronchial coils that drives improvement in clinical outcomes. Methods: A total of 78 patients from the RENEW coil-treated group who were treated in one or both lobes that were deemed as the most destroyed were included in this retrospective analysis. Expiratory and inspiratory HRCT scans were used to assess lobar volume change from baseline to 12 months post coil treatment in treated and untreated lobes. Results: Reduction in lobar RV in treated lobes was significantly associated with favourable clinical improvement. Independent predictor of the change in RV and FEV1 was the change in lobar RV reduction in the treated lobes and for change in 6MWD the absence of cardiac disease and the change in SGRQ, while the independent predictor of change in SGRQ was the change in 6MWD. Conclusion: Our results suggest that residual lobar volume reduction in treated lobes measured by QCT is the driving mechanism of action of endobronchial coils leading to positive clinical outcomes. However, the improvement in exercise capacity and quality of life seems to be affected by the presence of cardiac disease.

AB - Background and objective: The RENEW trial demonstrated that bronchoscopic lung volume reduction using endobronchial coils improves quality of life, pulmonary function and exercise performance. In this post hoc analysis of RENEW, we examine the mechanism of action of endobronchial coils that drives improvement in clinical outcomes. Methods: A total of 78 patients from the RENEW coil-treated group who were treated in one or both lobes that were deemed as the most destroyed were included in this retrospective analysis. Expiratory and inspiratory HRCT scans were used to assess lobar volume change from baseline to 12 months post coil treatment in treated and untreated lobes. Results: Reduction in lobar RV in treated lobes was significantly associated with favourable clinical improvement. Independent predictor of the change in RV and FEV1 was the change in lobar RV reduction in the treated lobes and for change in 6MWD the absence of cardiac disease and the change in SGRQ, while the independent predictor of change in SGRQ was the change in 6MWD. Conclusion: Our results suggest that residual lobar volume reduction in treated lobes measured by QCT is the driving mechanism of action of endobronchial coils leading to positive clinical outcomes. However, the improvement in exercise capacity and quality of life seems to be affected by the presence of cardiac disease.

KW - bronchoscopy and interventional techniques

KW - emphysema

KW - endobronchial coils

KW - lung volume reduction

KW - quantitative computed tomographic analysis

UR - http://www.scopus.com/inward/record.url?scp=85082955826&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=85082955826&partnerID=8YFLogxK

U2 - 10.1111/resp.13816

DO - 10.1111/resp.13816

M3 - Article

C2 - 32267059

AN - SCOPUS:85082955826

SN - 1323-7799

VL - 25

SP - 1160

EP - 1166

JO - Respirology

JF - Respirology

IS - 11

ER -

Endobronchial coils for emphysema: Dual mechanism of action on lobar residual volume reduction

Abstract

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