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RESEARCH PRODUCT
Cardiorespiratory Coordination after Training and Detraining. A Principal Component Analysis Approach
Oscar NiñoRobert HristovskiCasimiro JavierreJuan AlamoNatàlia BalaguéDaniel AragonésJosep L. VenturaJacob Gonzálezsubject
medicine.medical_specialtyPhysiologySpeech recognitioneducationphysiological variableslcsh:PhysiologyMalalties de l'aparell respiratori03 medical and health sciences0302 clinical medicinePhysiology (medical)MedicineCardiorespiratory exercise testingTraining programmeYoung maleOriginal Researchcomplex adaptive systemsTraining periodPrincipal Component AnalysisCoordinative variableslcsh:QP1-981business.industryCardiorespiratory fitnessRespiratory organs diseases030229 sport sciencesStrength variablesPrincipal component analysisPhysical therapybusiness030217 neurology & neurosurgerytraining effectsdescription
Our purpose was to study the effects of different training modalities and detraining on cardiorespiratory coordination (CRC). Thirty-two young males were randomly assigned to four training groups: aerobic (AT), resistance (RT), aerobic plus resistance (AT + RT), and control (C). They were assessed before training, after training (6 weeks) and after detraining (3 weeks) by means of a graded maximal test. A principal component (PC) analysis of selected cardiovascular and cardiorespiratory variables was performed to evaluate CRC. The first PC (PC1) coefficient of congruence in the three conditions (before training, after training and after detraining) was compared between groups. Two PCs were identified in 81% of participants before the training period. After this period the number of PCs and the projection of the selected variables onto them changed only in the groups subject to a training programme. The PC1 coefficient of congruence was significantly lower in the training groups compared with the C group [H (3, N=32) = 11.28; p = 0.01]. In conclusion, training produced changes in CRC, reflected by the change in the number of PCs and the congruence values of PC1. These changes may be more sensitive than the usually explored cardiorespiratory reserve, and they probably precede it.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2016-02-12 |