OBJECTIVE: To determine if the Physiological Cost Index (PCI) can be recommended as an outcome measure in clinical trials. DESIGN: Three assessments were performed, 2 with shoes, 1 without. The difference between walking with shoes and walking barefoot was used to study the ability of the PCI to detect a change in the criterion standard. SETTING: A research department affiliated with a rehabilitation hospital in the Netherlands. PARTICIPANTS: Twelve children with cerebral palsy. INTERVENTIONS: During the first and third assessments, the children walked with shoes. During the intermediate assessment, the children walked without shoes. MAIN OUTCOME MEASURE: Breath-by-breath oxygen uptake, heart rate (HR), and walking speed were measured at a self-selected comfortable speed. Oxygen cost (EO(2)) and the PCI were subsequently calculated offline. Feasibility judgments were made regarding the ability of the PCI to detect changes in a criterion standard and the statistical power of the outcome measure. RESULTS: Pearson correlation coefficients were.66 and.62 for HR(walking)-HR(baseline) and HR(walking), respectively. The smallest detectable difference of the PCI and EO(2) were 69% and 32%, respectively. A difference of at least 69% or 32% should be found before one can conclude a difference with a certainty of 95%. CONCLUSIONS: The reproducibility of the PCI and the ability to show small differences in EO(2) were moderate. Subtracting HR(baseline) when calculating the PCI is probably not useful because it only increased within-subject variability. With respect to statistical power of a new clinical trial, we recommend using EO(2) instead of the PCI. Copyright 2002 by the American Congress of Rehabilitation Medicine and the American Academy of Physical Medicine and Rehabilitation
OBJECTIVE: To determine if the Physiological Cost Index (PCI) can be recommended as an outcome measure in clinical trials. DESIGN: Three assessments were performed, 2 with shoes, 1 without. The difference between walking with shoes and walking barefoot was used to study the ability of the PCI to detect a change in the criterion standard. SETTING: A research department affiliated with a rehabilitation hospital in the Netherlands. PARTICIPANTS: Twelve children with cerebral palsy. INTERVENTIONS: During the first and third assessments, the children walked with shoes. During the intermediate assessment, the children walked without shoes. MAIN OUTCOME MEASURE: Breath-by-breath oxygen uptake, heart rate (HR), and walking speed were measured at a self-selected comfortable speed. Oxygen cost (EO(2)) and the PCI were subsequently calculated offline. Feasibility judgments were made regarding the ability of the PCI to detect changes in a criterion standard and the statistical power of the outcome measure. RESULTS: Pearson correlation coefficients were.66 and.62 for HR(walking)-HR(baseline) and HR(walking), respectively. The smallest detectable difference of the PCI and EO(2) were 69% and 32%, respectively. A difference of at least 69% or 32% should be found before one can conclude a difference with a certainty of 95%. CONCLUSIONS: The reproducibility of the PCI and the ability to show small differences in EO(2) were moderate. Subtracting HR(baseline) when calculating the PCI is probably not useful because it only increased within-subject variability. With respect to statistical power of a new clinical trial, we recommend using EO(2) instead of the PCI. Copyright 2002 by the American Congress of Rehabilitation Medicine and the American Academy of Physical Medicine and Rehabilitation
Authors: Mariana Simões Ferreira; Roberto Teixeira Mendes; Fernando Augusto de Lima Marson; Mariana Porto Zambon; Ilma Aparecida Paschoal; Adyleia Aparecida Dalbo Contrera Toro; Silvana Dalge Severino; Maria Ângela Gonçalves de Oliveira Ribeiro; José Dirceu Ribeiro Journal: BMC Pulm Med Date: 2014-12-15 Impact factor: 3.317