Brain natriuretic peptide predicts forced vital capacity of the lungs, oxygen pulse and peak oxygen consumption in physiological condition

► NT-pro-BNP has predictive value for heart rate. ► NT-pro-BNP has predictive value for forced vital capacity. ► NT-pro-BNP has predictive value for oxygen consumption. ► NT-pro-BNP has predictive value for oxygen pulse. ► NT-pro-BNP could be a common regulatory factor coordinating adaptation of hea...

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Published inPeptides (New York, N.Y. : 1980) Vol. 43; pp. 32 - 39
Main Authors Popovic, Dejana, Ostojic, Miodrag C., Popovic, Bojana, Petrovic, Milan, Vujisic-Tesic, Bosiljka, Kocijancic, Aleksandar, Banovic, Marko, Arandjelovic, Aleksandra, Stojiljkovic, Stanimir, Markovic, Vidan, Damjanovic, Svetozar S.
Format Journal Article
LanguageEnglish
Published United States Elsevier Inc 01.05.2013
Subjects
athletes
brain
Brain natriuretic peptide
Cardiopulmonary test
echocardiography
exercise test
Forced vital capacity
heart
heart rate
Humans
Lung - metabolism
lungs
Male
males
multiple regression analysis
Natriuretic Peptide, Brain - metabolism
natriuretic peptides
oxygen
Oxygen - metabolism
Oxygen Consumption
Oxygen pulse
Predictive Value of Tests
pulmonary diseases
regression analysis
respiratory tract diseases
rest
Vital Capacity
Young Adult
LAV
A
RVDd
C
CPET
RV A
RV
BNP
E
Forced vital capacity
FM
LVDd
HR
LV
FFM
RV E
BSA
DBP
BW
MAPSE
W
TDI
WP
RVe
RV ET
SBP
Brain natriuretic peptide
EF
SV
A duration
Oxygen consumption
VO2 max
TAPSE
RA
RV s
FVC
PWTd
VCO2 max
s
IVSTd
LVVd
Oxygen pulse
VO2/HR max
Cardiopulmonary test
Online AccessGet full text
ISSN0196-9781
1873-5169
1873-5169
DOI10.1016/j.peptides.2013.01.017

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Abstract ► NT-pro-BNP has predictive value for heart rate. ► NT-pro-BNP has predictive value for forced vital capacity. ► NT-pro-BNP has predictive value for oxygen consumption. ► NT-pro-BNP has predictive value for oxygen pulse. ► NT-pro-BNP could be a common regulatory factor coordinating adaptation of heart and lungs to stress condition. Brain natriuretic peptide (NT-pro-BNP) is used as marker of cardiac and pulmonary diseases. However, the predictive value of circulating NT-pro-BNP for cardiac and pulmonary performance is unclear in physiological conditions. Standard echocardiography, tissue Doppler and forced spirometry at rest were used to assess cardiac parameters and forced vital capacity (FVC) in two groups of athletes (16 elite male wrestlers (W), 21 water polo player (WP)), as different stress adaptation models, and 20 sedentary subjects (C) matched for age. Cardiopulmonary test on treadmill (CPET), as acute stress model, was used to measure peak oxygen consumption (peak VO2), maximal heart rate (HRmax) and peak oxygen pulse (peak VO2/HR). NT-pro-BNP was measured by immunoassey sandwich technique 10min before the test – at rest, at the beginning of the test, at maximal effort, at third minute of recovery. FVC was higher in athletes and the highest in W (WP 5.60±0.29 l; W 6.57±1.00 l; C 5.41±0.29 l; p<0.01). Peak VO2 and peak VO2/HR were higher in athletes and the highest in WP. HRmax was not different among groups. In all groups, NT-pro-BNP decreased from rest to the beginning phase, increased in maximal effort and stayed unchanged in recovery. NT-pro-BNP was higher in C than W in all phases; WP had similar values as W and C. On multiple regression analysis, in all three groups together, ΔNT-pro-BNP from rest to the beginning phase independently predicted both peak VO2 and peak VO2/HR (r=0.38, 0.35; B=37.40, 0.19; p=0.007, 0.000, respectively). NT-pro-BNP at rest predicted HRmax (r=−0.32, B=−0.22, p=0.02). Maximal NT-pro-BNP predicted FVC (r=−0.22, B=−0.07, p=0.02). These results show noticeable predictive value of NT-pro-BNP for both cardiac and pulmonary performance in physiological conditions suggesting that NT-pro-BNP could be a common regulatory factor coordinating adaptation of heart and lungs to stress condition.
AbstractList Brain natriuretic peptide (NT-pro-BNP) is used as marker of cardiac and pulmonary diseases. However, the predictive value of circulating NT-pro-BNP for cardiac and pulmonary performance is unclear in physiological conditions. Standard echocardiography, tissue Doppler and forced spirometry at rest were used to assess cardiac parameters and forced vital capacity (FVC) in two groups of athletes (16 elite male wrestlers (W), 21 water polo player (WP)), as different stress adaptation models, and 20 sedentary subjects (C) matched for age. Cardiopulmonary test on treadmill (CPET), as acute stress model, was used to measure peak oxygen consumption (peak VO2), maximal heart rate (HRmax) and peak oxygen pulse (peak VO2/HR). NT-pro-BNP was measured by immunoassey sandwich technique 10min before the test - at rest, at the beginning of the test, at maximal effort, at third minute of recovery. FVC was higher in athletes and the highest in W (WP 5.60±0.29 l; W 6.57±1.00 l; C 5.41±0.29 l; p<0.01). Peak VO2 and peak VO2/HR were higher in athletes and the highest in WP. HRmax was not different among groups. In all groups, NT-pro-BNP decreased from rest to the beginning phase, increased in maximal effort and stayed unchanged in recovery. NT-pro-BNP was higher in C than W in all phases; WP had similar values as W and C. On multiple regression analysis, in all three groups together, ΔNT-pro-BNP from rest to the beginning phase independently predicted both peak VO2 and peak VO2/HR (r=0.38, 0.35; B=37.40, 0.19; p=0.007, 0.000, respectively). NT-pro-BNP at rest predicted HRmax (r=-0.32, B=-0.22, p=0.02). Maximal NT-pro-BNP predicted FVC (r=-0.22, B=-0.07, p=0.02). These results show noticeable predictive value of NT-pro-BNP for both cardiac and pulmonary performance in physiological conditions suggesting that NT-pro-BNP could be a common regulatory factor coordinating adaptation of heart and lungs to stress condition.Brain natriuretic peptide (NT-pro-BNP) is used as marker of cardiac and pulmonary diseases. However, the predictive value of circulating NT-pro-BNP for cardiac and pulmonary performance is unclear in physiological conditions. Standard echocardiography, tissue Doppler and forced spirometry at rest were used to assess cardiac parameters and forced vital capacity (FVC) in two groups of athletes (16 elite male wrestlers (W), 21 water polo player (WP)), as different stress adaptation models, and 20 sedentary subjects (C) matched for age. Cardiopulmonary test on treadmill (CPET), as acute stress model, was used to measure peak oxygen consumption (peak VO2), maximal heart rate (HRmax) and peak oxygen pulse (peak VO2/HR). NT-pro-BNP was measured by immunoassey sandwich technique 10min before the test - at rest, at the beginning of the test, at maximal effort, at third minute of recovery. FVC was higher in athletes and the highest in W (WP 5.60±0.29 l; W 6.57±1.00 l; C 5.41±0.29 l; p<0.01). Peak VO2 and peak VO2/HR were higher in athletes and the highest in WP. HRmax was not different among groups. In all groups, NT-pro-BNP decreased from rest to the beginning phase, increased in maximal effort and stayed unchanged in recovery. NT-pro-BNP was higher in C than W in all phases; WP had similar values as W and C. On multiple regression analysis, in all three groups together, ΔNT-pro-BNP from rest to the beginning phase independently predicted both peak VO2 and peak VO2/HR (r=0.38, 0.35; B=37.40, 0.19; p=0.007, 0.000, respectively). NT-pro-BNP at rest predicted HRmax (r=-0.32, B=-0.22, p=0.02). Maximal NT-pro-BNP predicted FVC (r=-0.22, B=-0.07, p=0.02). These results show noticeable predictive value of NT-pro-BNP for both cardiac and pulmonary performance in physiological conditions suggesting that NT-pro-BNP could be a common regulatory factor coordinating adaptation of heart and lungs to stress condition.
Brain natriuretic peptide (NT-pro-BNP) is used as marker of cardiac and pulmonary diseases. However, the predictive value of circulating NT-pro-BNP for cardiac and pulmonary performance is unclear in physiological conditions. Standard echocardiography, tissue Doppler and forced spirometry at rest were used to assess cardiac parameters and forced vital capacity (FVC) in two groups of athletes (16 elite male wrestlers (W), 21 water polo player (WP)), as different stress adaptation models, and 20 sedentary subjects (C) matched for age. Cardiopulmonary test on treadmill (CPET), as acute stress model, was used to measure peak oxygen consumption (peak VO2), maximal heart rate (HRmax) and peak oxygen pulse (peak VO2/HR). NT-pro-BNP was measured by immunoassey sandwich technique 10min before the test - at rest, at the beginning of the test, at maximal effort, at third minute of recovery. FVC was higher in athletes and the highest in W (WP 5.60±0.29 l; W 6.57±1.00 l; C 5.41±0.29 l; p<0.01). Peak VO2 and peak VO2/HR were higher in athletes and the highest in WP. HRmax was not different among groups. In all groups, NT-pro-BNP decreased from rest to the beginning phase, increased in maximal effort and stayed unchanged in recovery. NT-pro-BNP was higher in C than W in all phases; WP had similar values as W and C. On multiple regression analysis, in all three groups together, ΔNT-pro-BNP from rest to the beginning phase independently predicted both peak VO2 and peak VO2/HR (r=0.38, 0.35; B=37.40, 0.19; p=0.007, 0.000, respectively). NT-pro-BNP at rest predicted HRmax (r=-0.32, B=-0.22, p=0.02). Maximal NT-pro-BNP predicted FVC (r=-0.22, B=-0.07, p=0.02). These results show noticeable predictive value of NT-pro-BNP for both cardiac and pulmonary performance in physiological conditions suggesting that NT-pro-BNP could be a common regulatory factor coordinating adaptation of heart and lungs to stress condition.
Brain natriuretic peptide (NT-pro-BNP) is used as marker of cardiac and pulmonary diseases. However, the predictive value of circulating NT-pro-BNP for cardiac and pulmonary performance is unclear in physiological conditions. Standard echocardiography, tissue Doppler and forced spirometry at rest were used to assess cardiac parameters and forced vital capacity (FVC) in two groups of athletes (16 elite male wrestlers (W), 21 water polo player (WP)), as different stress adaptation models, and 20 sedentary subjects (C) matched for age. Cardiopulmonary test on treadmill (CPET), as acute stress model, was used to measure peak oxygen consumption (peak VO2), maximal heart rate (HRmax) and peak oxygen pulse (peak VO2/HR). NT-pro-BNP was measured by immunoassey sandwich technique 10min before the test – at rest, at the beginning of the test, at maximal effort, at third minute of recovery. FVC was higher in athletes and the highest in W (WP 5.60±0.29 l; W 6.57±1.00 l; C 5.41±0.29 l; p<0.01). Peak VO2 and peak VO2/HR were higher in athletes and the highest in WP. HRmax was not different among groups. In all groups, NT-pro-BNP decreased from rest to the beginning phase, increased in maximal effort and stayed unchanged in recovery. NT-pro-BNP was higher in C than W in all phases; WP had similar values as W and C. On multiple regression analysis, in all three groups together, ΔNT-pro-BNP from rest to the beginning phase independently predicted both peak VO2 and peak VO2/HR (r=0.38, 0.35; B=37.40, 0.19; p=0.007, 0.000, respectively). NT-pro-BNP at rest predicted HRmax (r=−0.32, B=−0.22, p=0.02). Maximal NT-pro-BNP predicted FVC (r=−0.22, B=−0.07, p=0.02). These results show noticeable predictive value of NT-pro-BNP for both cardiac and pulmonary performance in physiological conditions suggesting that NT-pro-BNP could be a common regulatory factor coordinating adaptation of heart and lungs to stress condition.
Brain natriuretic peptide (NT-pro-BNP) is used as marker of cardiac and pulmonary diseases. However, the predictive value of circulating NT-pro-BNP for cardiac and pulmonary performance is unclear in physiological conditions. Standard echocardiography, tissue Doppler and forced spirometry at rest were used to assess cardiac parameters and forced vital capacity (FVC) in two groups of athletes (16 elite male wrestlers (W), 21 water polo player (WP)), as different stress adaptation models, and 20 sedentary subjects (C) matched for age. Cardiopulmonary test on treadmill (CPET), as acute stress model, was used to measure peak oxygen consumption (peak VO2), maximal heart rate (HRmax) and peak oxygen pulse (peak VO2/HR). NT-pro-BNP was measured by immunoassey sandwich technique 10 min before the test a at rest, at the beginning of the test, at maximal effort, at third minute of recovery. FVC was higher in athletes and the highest in W (WP 5.60 A- 0.29 l; W 6.57 A- 1.00 l; C 5.41 A- 0.29 l; p < 0.01). Peak VO2 and peak VO2/HR were higher in athletes and the highest in WP. HRmax was not different among groups. In all groups, NT-pro-BNP decreased from rest to the beginning phase, increased in maximal effort and stayed unchanged in recovery. NT-pro-BNP was higher in C than W in all phases; WP had similar values as W and C. On multiple regression analysis, in all three groups together, INT-pro-BNP from rest to the beginning phase independently predicted both peak VO2 and peak VO2/HR (r = 0.38, 0.35; B = 37.40, 0.19; p = 0.007, 0.000, respectively). NT-pro-BNP at rest predicted HRmax (r = a0.32, B = a0.22, p = 0.02). Maximal NT-pro-BNP predicted FVC (r = a0.22, B = a0.07, p = 0.02). These results show noticeable predictive value of NT-pro-BNP for both cardiac and pulmonary performance in physiological conditions suggesting that NT-pro-BNP could be a common regulatory factor coordinating adaptation of heart and lungs to stress condition.
► NT-pro-BNP has predictive value for heart rate. ► NT-pro-BNP has predictive value for forced vital capacity. ► NT-pro-BNP has predictive value for oxygen consumption. ► NT-pro-BNP has predictive value for oxygen pulse. ► NT-pro-BNP could be a common regulatory factor coordinating adaptation of heart and lungs to stress condition. Brain natriuretic peptide (NT-pro-BNP) is used as marker of cardiac and pulmonary diseases. However, the predictive value of circulating NT-pro-BNP for cardiac and pulmonary performance is unclear in physiological conditions. Standard echocardiography, tissue Doppler and forced spirometry at rest were used to assess cardiac parameters and forced vital capacity (FVC) in two groups of athletes (16 elite male wrestlers (W), 21 water polo player (WP)), as different stress adaptation models, and 20 sedentary subjects (C) matched for age. Cardiopulmonary test on treadmill (CPET), as acute stress model, was used to measure peak oxygen consumption (peak VO2), maximal heart rate (HRmax) and peak oxygen pulse (peak VO2/HR). NT-pro-BNP was measured by immunoassey sandwich technique 10min before the test – at rest, at the beginning of the test, at maximal effort, at third minute of recovery. FVC was higher in athletes and the highest in W (WP 5.60±0.29 l; W 6.57±1.00 l; C 5.41±0.29 l; p<0.01). Peak VO2 and peak VO2/HR were higher in athletes and the highest in WP. HRmax was not different among groups. In all groups, NT-pro-BNP decreased from rest to the beginning phase, increased in maximal effort and stayed unchanged in recovery. NT-pro-BNP was higher in C than W in all phases; WP had similar values as W and C. On multiple regression analysis, in all three groups together, ΔNT-pro-BNP from rest to the beginning phase independently predicted both peak VO2 and peak VO2/HR (r=0.38, 0.35; B=37.40, 0.19; p=0.007, 0.000, respectively). NT-pro-BNP at rest predicted HRmax (r=−0.32, B=−0.22, p=0.02). Maximal NT-pro-BNP predicted FVC (r=−0.22, B=−0.07, p=0.02). These results show noticeable predictive value of NT-pro-BNP for both cardiac and pulmonary performance in physiological conditions suggesting that NT-pro-BNP could be a common regulatory factor coordinating adaptation of heart and lungs to stress condition.
Author Damjanovic, Svetozar S.
Stojiljkovic, Stanimir
Popovic, Bojana
Ostojic, Miodrag C.
Petrovic, Milan
Banovic, Marko
Markovic, Vidan
Popovic, Dejana
Arandjelovic, Aleksandra
Vujisic-Tesic, Bosiljka
Kocijancic, Aleksandar
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BackLink https://www.ncbi.nlm.nih.gov/pubmed/23419987$$D View this record in MEDLINE/PubMed
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CitedBy_id crossref_primary_10_5937_fizkul1802139M
crossref_primary_10_1016_j_peptides_2013_07_009
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WUQ
X7M
XJT
ZGI
~G-
ABPIF
ABPTK
AEQTP
FBQ
AAHBH
AATTM
AAXKI
AAYWO
AAYXX
ACVFH
ADCNI
AEIPS
AEUPX
AFJKZ
AFPUW
AGCQF
AGRNS
AIGII
AIIUN
AKBMS
AKRWK
AKYEP
ANKPU
APXCP
BNPGV
CITATION
SSH
CGR
CUY
CVF
ECM
EFKBS
EIF
NPM
7X8
7TK
ACLOT
~HD
7S9
L.6
ID FETCH-LOGICAL-c458t-69cc1bc68bf8719b92c7fc56aac17ae0a78ef8a05e58da7a32feb2476efeb2ae3
IEDL.DBID AIKHN
ISSN 0196-9781
1873-5169
IngestDate Sun Sep 28 03:47:22 EDT 2025
Sun Sep 28 15:11:31 EDT 2025
Fri Sep 05 05:06:07 EDT 2025
Mon Jul 21 05:48:56 EDT 2025
Tue Jul 01 01:23:04 EDT 2025
Thu Apr 24 23:10:58 EDT 2025
Wed Dec 27 19:20:25 EST 2023
Fri Feb 23 02:25:18 EST 2024
IsPeerReviewed true
IsScholarly true
Keywords LAV
A
RVDd
C
CPET
RV A
RV
BNP
E
Forced vital capacity
FM
LVDd
HR
LV
FFM
RV E
BSA
DBP
BW
MAPSE
W
TDI
WP
RVe
RV ET
SBP
Brain natriuretic peptide
EF
SV
A duration
Oxygen consumption
VO2 max
TAPSE
RA
RV s
FVC
PWTd
VCO2 max
s
IVSTd
LVVd
Oxygen pulse
VO2/HR max
Cardiopulmonary test
Language English
License https://www.elsevier.com/tdm/userlicense/1.0
Copyright © 2013 Elsevier Inc. All rights reserved.
LinkModel DirectLink
MergedId FETCHMERGED-LOGICAL-c458t-69cc1bc68bf8719b92c7fc56aac17ae0a78ef8a05e58da7a32feb2476efeb2ae3
Notes http://dx.doi.org/10.1016/j.peptides.2013.01.017
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ObjectType-Feature-2
content type line 23
PMID 23419987
PQID 1353043732
PQPubID 23479
PageCount 8
ParticipantIDs proquest_miscellaneous_2000022681
proquest_miscellaneous_1534827988
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pubmed_primary_23419987
crossref_citationtrail_10_1016_j_peptides_2013_01_017
crossref_primary_10_1016_j_peptides_2013_01_017
fao_agris_US201600028420
elsevier_sciencedirect_doi_10_1016_j_peptides_2013_01_017
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PublicationDate_xml – month: 05
  year: 2013
  text: 2013-05-01
  day: 01
PublicationDecade 2010
PublicationPlace United States
PublicationPlace_xml – name: United States
PublicationTitle Peptides (New York, N.Y. : 1980)
PublicationTitleAlternate Peptides
PublicationYear 2013
Publisher Elsevier Inc
Publisher_xml – name: Elsevier Inc
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Snippet ► NT-pro-BNP has predictive value for heart rate. ► NT-pro-BNP has predictive value for forced vital capacity. ► NT-pro-BNP has predictive value for oxygen...
Brain natriuretic peptide (NT-pro-BNP) is used as marker of cardiac and pulmonary diseases. However, the predictive value of circulating NT-pro-BNP for cardiac...
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SubjectTerms athletes
brain
Brain natriuretic peptide
Cardiopulmonary test
echocardiography
exercise test
Forced vital capacity
heart
heart rate
Humans
Lung - metabolism
lungs
Male
males
multiple regression analysis
Natriuretic Peptide, Brain - metabolism
natriuretic peptides
oxygen
Oxygen - metabolism
Oxygen Consumption
Oxygen pulse
Predictive Value of Tests
pulmonary diseases
regression analysis
respiratory tract diseases
rest
Vital Capacity
Young Adult
Title Brain natriuretic peptide predicts forced vital capacity of the lungs, oxygen pulse and peak oxygen consumption in physiological condition
URI https://dx.doi.org/10.1016/j.peptides.2013.01.017
https://www.ncbi.nlm.nih.gov/pubmed/23419987
https://www.proquest.com/docview/1353043732
https://www.proquest.com/docview/1534827988
https://www.proquest.com/docview/2000022681
Volume 43
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