Inspiratory resistive loading after all-out exercise improves subsequent performance

Chiappa, Gaspar R.; Ribeiro, Jorge Pinto; Alves, Camila Xavier; Vieira, Paulo José Cardoso; Dubas, João Paulo; Queiroga, Fernando Ramos; Batista, Laura D.; Silva, Antônio C.; Neder, J. Alberto

doi:10.1007/s00421-009-1022-9

Cited by 16 publications

(17 citation statements)

References 25 publications

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“…In stark contrast to the findings of Chiappa et al (3,4), we observed no effect of ITL upon lactate recovery kinetics. The novel finding of this investigation is that following IMT, ITL accelerates the capacity for whole body lactate exchange and clearance.…”

Section: Paragraph Number 29contrasting

confidence: 99%

Loading of Trained Inspiratory Muscles Speeds Lactate Recovery Kinetics

Brown

Sharpe

Johnson

2010

Medicine &Amp; Science in Sports &Amp; Exercise

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Purpose: To investigate the effects of inspiratory muscle loading (ITL) and inspiratory muscle training (IMT) upon blood lactate concentration ([lac -] B ) and acid-base balance following maximal incremental cycling.Methods: 18 subjects were divided into a control (n=9) or IMT group (n=9). Prior to and following a 6 wk intervention subjects completed two maximal incremental cycling tests followed by 20 min of recovery with (ITL) or without (passive recovery; PR) a constant inspiratory resistance (15 cmH 2 O). The IMT group performed 6 wk pressure threshold IMT at 50% maximal inspiratory mouth pressure (MIP). Throughout recovery, acid-base balance was quantified using the physicochemical approach by measuring the strong ion difference

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Section: Paragraph Number 29contrasting

confidence: 99%

Loading of Trained Inspiratory Muscles Speeds Lactate Recovery Kinetics

Brown

Sharpe

Johnson

2010

Medicine &Amp; Science in Sports &Amp; Exercise

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“…Secondly, Chiappa et al (2009) showed that increasing the work of breathing (via pressure-threshold loading) during recovery from maximal exercise significantly accelerated rates of lactate clearance and improved subsequent 30 s maximal cycling performance. The authors suggest that with loading, the inspiratory muscles are capable of net lactate consumption.…”

Section: Introductionmentioning

confidence: 99%

“…Recently it has emerged that respiratory muscle activity may strongly influence the systemic blood lactate concentration ([lac -] B ) (Brown et al 2008(Brown et al , 2010Chiappa et al 2009;Johnson et al 2006;Renggli et al 2008;Verges et al 2007). This notion contradicts the traditional view that the small mass of the respiratory muscles (estimated at around 960 g (Freedman et al 1983)) and their large oxidative capacity precludes any systemically relevant lactate exchange (Wetter and Dempsey 2000 Romer et al 2002b) and volitional isocapnic hyperpnoea training (endurance-training stimulus) (Leddy et al 2007;Spengler et al 1999), with up to 52% of variation in post-training whole-body exercise performance improvement accounted for by the reduced [lac -] B (Romer et al 2002b).…”

Section: Introductionmentioning

confidence: 99%

Inspiratory muscle training abolishes the blood lactate increase associated with volitional hyperpnoea superimposed on exercise and accelerates lactate and oxygen uptake kinetics at the onset of exercise

2011

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We examined the effects of inspiratory muscle training (IMT) upon volitional hyperpnoea-mediated increases in blood lactate ([lac -] B ) during cycling at maximal lactate steady state (MLSS) power, and blood lactate and oxygen uptake kinetics at the onset of exercise. Twenty males formed either an IMT (n=10) or control group (n=10).Before and after a 6-wk intervention two 30 min trials were performed at MLSS (207  28 W), which was determined using repeated 30 min constant power trials. The first was a reference trial, whereas during the second trial from 20-28 min participants mimicked the breathing pattern commensurate with 90% of the maximal minute

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“…However, such effects have not been documented in humans thus far. The results of the cardiopulmonary exercise test performed here indicate that, despite carrying two TP53 mutant alleles, our patient has preserved functional capacity, as demonstrated by peak power output, peak oxygen uptake, and an anaerobic threshold within the limits of normality [21]. Moreover, ventilatory efficiency and hemodynamic responses to exercise were also normal.…”

Section: Discussionmentioning

confidence: 81%

“…The per minute ventilation/carbon dioxide output slope was calculated using a linear regression analysis based on all points of the incremental exercise [20]. Before and during the exercise tests, cardiac output and stroke volume were estimated non-invasively by impedance cardiography (PhysioFlow PF07 Enduro, Manatec Biomedical, Paris, France) as previously described [21]. Arterial oxygen saturation was measured by finger oximetry (Takaoka Oxicap, São Paulo, Brazil).…”

Section: Case Presentationmentioning

confidence: 99%

TP53p.R337H is a conditional cancer-predisposing mutation: further evidence from a homozygous patient

et al. 2013

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BackgroundAdrenocortical carcinomas (ACCs) are among the most common childhood cancers occurring in infants affected with the Li-Fraumeni and Li- Fraumeni-like (LFS/LFL) syndromes, which are caused by dominant germline mutations in the TP53 gene. In Brazil, a particular mutation, occurring in the tetramerisation domain of the gene, p.R337H, is exceedingly common due to a founder effect and is strongly associated with ACC. In this report, we describe the phenotype and long-term clinical follow-up of a female child diagnosed with ACC and homozygous for the TP53 p.R337H founder mutation.Case presentationAt age 11 months, the patient was diagnosed with a virilising anaplastic adrenal cortical tumour, which was completely excised without disturbing the adrenal capsule. Family history was consistent with an LFL tumour pattern, and genotyping identified the TP53 p.R337H mutation in both alleles in genomic DNA from lymphocytes and fibroblasts. Haplotype analysis confirmed the occurrence of the mutation in the same founder haplotype previously described in other Brazilian patients. No other germline or somatic TP53 mutations or rearrangements were identified. At age 9 years, the child was asymptomatic and had no evidence of endocrine derangements. Full body and brain magnetic resonance imaging (MRI) failed to detect any suspicious proliferative lesions, and cardiopulmonary exercise testing results were within the normal reference for the child’s age, ruling out a major exercise capacity deficiency.ConclusionThis is the first clinical and aerobic functional capacity documentation of a patient who carries two mutant TP53 alleles and no wild-type allele. Our results support the hypothesis that TP53 p.R337H, the most common TP53 mutation ever described in any population, is a conditional mutant. Furthermore, our observations over a long period of clinical follow-up suggest that TP53 p.R337H homozygotes do not have a more severe disease phenotype than do heterozygote carriers of the same mutation. Patients with the homozygous TP53 p.R337H genotype will require careful surveillance for lifetime cancer risk and for effects on metabolic capacity later in life.

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Inspiratory resistive loading after all-out exercise improves subsequent performance

Cited by 16 publications

References 25 publications

Loading of Trained Inspiratory Muscles Speeds Lactate Recovery Kinetics

Loading of Trained Inspiratory Muscles Speeds Lactate Recovery Kinetics

Inspiratory muscle training abolishes the blood lactate increase associated with volitional hyperpnoea superimposed on exercise and accelerates lactate and oxygen uptake kinetics at the onset of exercise

TP53p.R337H is a conditional cancer-predisposing mutation: further evidence from a homozygous patient

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