Cardiovascular responses to dry apnoeas at exercise in air and in pure oxygen

Anna Taboni; Giovanni Vinetti; Paolo Bruseghini; Stefano Camelio; Matteo D'Elia; Christian Moia; Guido Ferretti; Nazzareno Fagoni

doi:10.1016/j.resp.2018.05.003

Cardiovascular responses to dry apnoeas at exercise in air and in pure oxygen

Anna Taboni
, Giovanni Vinetti
, Paolo Bruseghini
, Stefano Camelio
, Matteo D'Elia
, Christian Moia
, Guido Ferretti
, Nazzareno Fagoni

University of Brescia
University of Geneva

Research output: Contribution to journal › Article

Abstract

If, as postulated, the end of the steady state phase (phi 2) of cardiovascular responses to apnoea corresponds to the physiological breaking point, then we may hypothesize that phi 2 should become visible if exercise apnoeas are performed in pure oxygen. We tested this hypothesis on 9 professional divers by means of continuous recording of blood pressure (BP), heart rate (f(H)), stroke volume (Q(S)), and arterial oxygen saturation (SpO(2)) during dry maximal exercising apnoeas in ambient air and in oxygen. Apnoeas lasted 45.0 +/- 16.9 s in air and 77.0 +/- 28.9 s in oxygen (p < 0.05). In air, no phi 2 was observed. Conversely, in oxygen, a phi 2 of 28 +/- 5 s duration appeared, during which systolic BP (185 +/- 29 mmHg), f(H) (93 +/- 16 bpm) and Q(S) (91 +/- 16 ml) remained stable. End-apnoea SpO(2) was 95.5 +/- 1.9% in air and 100% in oxygen. The results support the tested hypothesis.

Original language	English
Pages (from-to)	17-21
Number of pages	5
Journal	RESPIRATORY PHYSIOLOGY & NEUROBIOLOGY
DOIs	https://doi.org/10.1016/j.resp.2018.05.003
Publication status	Published - 2018

Keywords

Adult
Air
Apnea
Blood Pressure
Blood pressure
Breath-hold
Cardiovascular System
Diving
Exercise
Heart Rate
Heart rate
Humans
Male
Oxygen
Physiological breaking point
Stroke Volume

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10.1016/j.resp.2018.05.003

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title = "Cardiovascular responses to dry apnoeas at exercise in air and in pure oxygen",

abstract = "If, as postulated, the end of the steady state phase (phi 2) of cardiovascular responses to apnoea corresponds to the physiological breaking point, then we may hypothesize that phi 2 should become visible if exercise apnoeas are performed in pure oxygen. We tested this hypothesis on 9 professional divers by means of continuous recording of blood pressure (BP), heart rate (f(H)), stroke volume (Q(S)), and arterial oxygen saturation (SpO(2)) during dry maximal exercising apnoeas in ambient air and in oxygen. Apnoeas lasted 45.0 +/- 16.9 s in air and 77.0 +/- 28.9 s in oxygen (p < 0.05). In air, no phi 2 was observed. Conversely, in oxygen, a phi 2 of 28 +/- 5 s duration appeared, during which systolic BP (185 +/- 29 mmHg), f(H) (93 +/- 16 bpm) and Q(S) (91 +/- 16 ml) remained stable. End-apnoea SpO(2) was 95.5 +/- 1.9\% in air and 100\% in oxygen. The results support the tested hypothesis.",

keywords = "Adult, Air, Apnea, Blood Pressure, Blood pressure, Breath-hold, Cardiovascular System, Diving, Exercise, Heart Rate, Heart rate, Humans, Male, Oxygen, Physiological breaking point, Stroke Volume, Adult, Air, Apnea, Blood Pressure, Blood pressure, Breath-hold, Cardiovascular System, Diving, Exercise, Heart Rate, Heart rate, Humans, Male, Oxygen, Physiological breaking point, Stroke Volume",

author = "Anna Taboni and Giovanni Vinetti and Paolo Bruseghini and Stefano Camelio and Matteo D'Elia and Christian Moia and Guido Ferretti and Nazzareno Fagoni",

year = "2018",

doi = "10.1016/j.resp.2018.05.003",

language = "English",

pages = "17--21",

journal = "RESPIRATORY PHYSIOLOGY \& NEUROBIOLOGY",

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publisher = "Elsevier BV",

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T1 - Cardiovascular responses to dry apnoeas at exercise in air and in pure oxygen

AU - Taboni, Anna

AU - Vinetti, Giovanni

AU - Bruseghini, Paolo

AU - Camelio, Stefano

AU - D'Elia, Matteo

AU - Moia, Christian

AU - Ferretti, Guido

AU - Fagoni, Nazzareno

PY - 2018

Y1 - 2018

N2 - If, as postulated, the end of the steady state phase (phi 2) of cardiovascular responses to apnoea corresponds to the physiological breaking point, then we may hypothesize that phi 2 should become visible if exercise apnoeas are performed in pure oxygen. We tested this hypothesis on 9 professional divers by means of continuous recording of blood pressure (BP), heart rate (f(H)), stroke volume (Q(S)), and arterial oxygen saturation (SpO(2)) during dry maximal exercising apnoeas in ambient air and in oxygen. Apnoeas lasted 45.0 +/- 16.9 s in air and 77.0 +/- 28.9 s in oxygen (p < 0.05). In air, no phi 2 was observed. Conversely, in oxygen, a phi 2 of 28 +/- 5 s duration appeared, during which systolic BP (185 +/- 29 mmHg), f(H) (93 +/- 16 bpm) and Q(S) (91 +/- 16 ml) remained stable. End-apnoea SpO(2) was 95.5 +/- 1.9% in air and 100% in oxygen. The results support the tested hypothesis.

AB - If, as postulated, the end of the steady state phase (phi 2) of cardiovascular responses to apnoea corresponds to the physiological breaking point, then we may hypothesize that phi 2 should become visible if exercise apnoeas are performed in pure oxygen. We tested this hypothesis on 9 professional divers by means of continuous recording of blood pressure (BP), heart rate (f(H)), stroke volume (Q(S)), and arterial oxygen saturation (SpO(2)) during dry maximal exercising apnoeas in ambient air and in oxygen. Apnoeas lasted 45.0 +/- 16.9 s in air and 77.0 +/- 28.9 s in oxygen (p < 0.05). In air, no phi 2 was observed. Conversely, in oxygen, a phi 2 of 28 +/- 5 s duration appeared, during which systolic BP (185 +/- 29 mmHg), f(H) (93 +/- 16 bpm) and Q(S) (91 +/- 16 ml) remained stable. End-apnoea SpO(2) was 95.5 +/- 1.9% in air and 100% in oxygen. The results support the tested hypothesis.

KW - Adult

KW - Air

KW - Apnea

KW - Blood Pressure

KW - Blood pressure

KW - Breath-hold

KW - Cardiovascular System

KW - Diving

KW - Exercise

KW - Heart Rate

KW - Heart rate

KW - Humans

KW - Male

KW - Oxygen

KW - Physiological breaking point

KW - Stroke Volume

KW - Adult

KW - Air

KW - Apnea

KW - Blood Pressure

KW - Blood pressure

KW - Breath-hold

KW - Cardiovascular System

KW - Diving

KW - Exercise

KW - Heart Rate

KW - Heart rate

KW - Humans

KW - Male

KW - Oxygen

KW - Physiological breaking point

KW - Stroke Volume

UR - http://hdl.handle.net/10807/214694

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DO - 10.1016/j.resp.2018.05.003

M3 - Article

SN - 1569-9048

SP - 17

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JO - RESPIRATORY PHYSIOLOGY & NEUROBIOLOGY

JF - RESPIRATORY PHYSIOLOGY & NEUROBIOLOGY

ER -

Cardiovascular responses to dry apnoeas at exercise in air and in pure oxygen

Abstract

Keywords

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