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Query: UMLS:C0392674 (
exhaustion
)
13,658
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The purpose of this study was to compare perceptual responses (RPE) and selected physiological measures during both short term and prolonged exercise of equal relative intensities at 4300 m to those at sea level. Specifically, we compared results obtained (n=20) for 6 min of exercise at 60, 80 and 95% VO2max and at 5 min intervals during exercise to
exhaustion
at 85% VO2max. At 4300 m, VO2max was reduced 19%, while VEmax and Rmax increased 17 and 8%, respectively. HRmax and RPEmax was unchanged. For any given relative exercise intensity, VO2 and absolute exercise intensity (kpm-min-1) were reduced, while VE was about 12% and R about 7% greater at 4300 m; HR was unchanged. At 4300 m, RPE at the lower intensities of submaximal exercise and early during prolonged exercise were significantly less than at sea level. These differences were reduced and finally eliminated as exercise intensity increased toward maximal or as prolonged exercise continued to
exhaustion
. Endurance time to
exhaustion
at 4300 m was not different from that at sea level. To account for the perceptual differences between exercise at 4300 m an sea level, we proposed that local factors (muscular strain) exert greater influence on the perception of effort at exercise intensities which do not greatly stress ventilation and circulation, while central factors exert greater influence on the perception of effort at exercise intensities at which
tachypnea
and tachycardia are of sufficient magnitude to be perceived as extremely stressful.
...
PMID:The nature of the perception of effort at sea level and high altitude. 49 72
The purpose of this study was to determine whether induction of inspiratory muscle fatigue might impair subsequent exercise performance. Ten healthy subjects cycled to volitional
exhaustion
at 90% of their maximal capacity. Oxygen consumption, breathing pattern, and a visual analogue scale for respiratory effort were measured. Exercise was performed on three separate occasions, once immediately after induction of fatigue, whereas the other two episodes served as controls. Fatigue was achieved by having the subjects breathe against an inspiratory threshold load while generating 80% of their predetermined maximal mouth pressure until they could no longer reach the target pressure. After induction of fatigue, exercise time was reduced compared with control, 238 +/- 69 vs. 311 +/- 96 (SD) s (P less than 0.001). During the last minute of exercise, oxygen consumption and heart rate were lower after induction of fatigue than during control, 2,234 +/- 472 vs. 2,533 +/- 548 ml/min (P less than 0.002) and 167 +/- 15 vs. 177 +/- 12 beats/min (P less than 0.002). At exercise isotime, minutes ventilation and the visual analogue scale for respiratory effort were larger after induction of fatigue than during control. In addition, at exercise isotime, relative
tachypnea
was observed after induction of fatigue. We conclude that induction of inspiratory muscle fatigue can impair subsequent performance of high-intensity exercise and alter the pattern of breathing during such exercise.
...
PMID:Effect of respiratory muscle fatigue on subsequent exercise performance. 186 88
Although the respiratory system is not fully developed at birth, the human newborn infant has flexible strategies to sustain breathing and defend blood gas homeostasis in both health and disease conditions. Initially the thresholds for chemoreceptor response to PO2 and PCO2 closely mimic those of the fetus, but the threshold resets to sustain ventilation adequate for blood gas homeostasis appropriate to the extrauterine milieu. The muscles of respiration have been "trained" in utero and effectively assume the function of the respiratory pump, despite their marginal reserve against fatigue. The pliable chest wall is functionally stabilized by the tonic activity of the intercostal muscles, thereby allowing effective ventilation. Finally, expiration is prolonged by the postinspiratory activity of the diaphragm and laryngeal braking as a means of maintaining an elevated lung volume and augmenting FRC. The ventilatory response of the newborn to respiratory disease is limited. The magnitude of the VE response is smaller than that of the adult, and is characterized by an increase in the respiratory rate and a limited increase in the VT. The poor effort reserve of the muscles, especially the diaphragm, predisposes the newborn to muscle fatigue and ventilatory failure. To avoid fatigue, recruitment of accessory muscles occurs, along with laryngeal braking of expiration, thereby decreasing the work of the diaphragm, recruiting new alveoli by an auto-PEEP effect, increasing the FRC volume, and improving gas exchange by an increase in the pulmonary surface area. These mechanisms help to avoid muscle
exhaustion
and facilitate adequate gas exchange in the presence of lung disease. We do not know precisely the postconceptual age at which the newborn is sufficiently developed to adopt these various defensive strategies of breathing, but the presence of
tachypnea
and grunting in 28-week-old premature infants suggests that long before term the human infant is capable of remarkable variation in the defense of breathing.
...
PMID:Pulmonary and chest wall mechanics in the control of respiration in the newborn. 331 39
The purpose of this study was to determine whether the tachypneic breathing pattern of constant work rate, heavy exercise (CWE) is unique to CWE or whether it represents the usual pattern of the respiratory control system at high levels of ventilation (VI). We compared breathing pattern in ten healthy subjects (age 20-29 years) during CWE and maximal incremental exercise (MIE) on a bicycle ergometer. Work rate was constant at 76% of maximum work rate in CWE and progressively increased by 25 watts/minute until
exhaustion
during MIE. Breathing pattern was examined at matched levels of VI equivalent to 80% and about 100% of maximum VI during CWE (97.1 and 121.4 L.min-1, respectively). Exercise duration (mean+standard deviation) was 13 +/- 6 and 12 +/- 1 min during CWE and MIE, respectively (P = NS). Tidal volume (VT) fell by an average of 0.20 L towards the end of CWE, but was maintained relatively high and constant towards the end of MIE. At high, but not lower, matched levels of VI breathing pattern during CWE was significantly more rapid and shallow than that during MIE. The
tachypnoea
of CWE did not correlate with the progressive rise in VI, oxygen uptake or cardiac frequency during CWE. We conclude that (1) CWE is associated with a tachypneic influence that is absent or less during incremental exercise; this
tachypnea
is most marked at the end of CWE. (2) The
tachypnoea
of CWE is not part of a generalized rate accelerating process during CWE. The mechanism(s) underlying the
tachypnoea
are unclear but it may be related to inspiratory muscle fatigue, pulmonary oedema, and/or altered respiratory mechanics.
...
PMID:Differential ventilatory control during constant work rate and incremental exercise. 793 15
Mechanical ventilation is a well-established strategy in intensive care medicine. ICU trauma patients require analgesia, and sedation mostly consists of benzodiazepines and opioids with increasing doses over time. The weaning period is complicated by the withdrawal syndrome, showing tachycardia, hypertonia,
tachypnea
and restlessness. Although treatment with clonidine can influence these symptoms,
tachypnea
still remains the main problem in weaning patients from mechanical ventilation. Adding sufentanil, an opioid with greater effects on analgesia than on respiratory depression compared with fentanyl,
tachypnea
can be reduced to normal frequency. In this way weaning management can be managed more easily for the benefit of both, the patient and physician. In comparison with a group of 50 patients treated with clonidine alone, 72 patients treated with clonidine/sufentanil showed a shorter period from the start of spontaneous ventilation until extubation (4.8 vs 7.6 days) and until discharge from the ICU (7.7 vs 12.4 days). The number of reintubations caused by respiratory
exhaustion
decreased from 16.0 to 2.8%.
...
PMID:[In Process Citation] 1006 33
Inspiratory muscle fatigue (IMF) can develop during exhaustive exercise and cause
tachypnea
or rapid shallow breathing. We assessed the effects of rib cage muscle (RCM-F) and diaphragm fatigue (DIA-F) on breathing pattern and respiratory mechanics during high-intensity endurance exercise. Twelve healthy subjects performed a constant-load (85% maximal power) cycling test to
exhaustion
with prior IMF and a cycling test of similar intensity and duration without prior IMF (control). IMF was induced by resistive breathing and assessed by oesophageal and gastric twitch pressure measurements during cervical magnetic stimulation. Both RCM-F and DIA-F increased RCM and abdominal muscle force production during exercise compared to control. With RCM-F, tidal volume decreased while it increased with DIA-F. RCM-F was associated with a smaller increase in end-expiratory oesophageal pressure (i.e. decrease in lung volume) than DIA-F. These results suggest that RCM-F and not DIA-F is associated with rapid shallow breathing and that lowering the operating lung volume with DIA-F may help to preserve diaphragmatic function.
...
PMID:Influence of diaphragm and rib cage muscle fatigue on breathing during endurance exercise. 1642 67
A suicide bomb blast in 2013 at a distant city of Pakistan killed 84 and wounded more than 150 people. Some patients were transferred to our tertiary care hospital because of extreme load on medical services there. This patient arrived at the Aga Khan Hospital, 2 days after the bomb blast injury and underwent an orthopedic procedure. Next day, he developed sudden
tachypnea
, desaturation, and circulatory collapse. After initial cardiopulmonary resuscitation, he was immediately transferred to surgical intensive care unit. Based on history, echocardiography findings and patient parameters, a clinical diagnosis of massive pulmonary embolism was made and immediate thrombolytic therapy with alteplase was started. The immediate improvement in hemodynamic status was evident following 2 hours of alteplase infusion. This case also highlights the aggressiveness of resuscitation, decision making in initiating thrombolytic therapy on clinical grounds, importance of deep venous thrombosis prophylaxis, and
exhaustion
of health resources due to blast related mass destruction.
...
PMID:Bomb Blast and Its Consequences: Successful Intensive Care Management of Massive Pulmonary Embolsim. 2737 30
