Signals consistent with microbubbles detected in legs of normal human subjects after exercise

Wilbur, Jed C.; Phillips, Scott; Donoghue, T. G.; Alvarenga, Donna A.; Knaus, Darin A.; Magari, Patrick; Buckey, Jay C.

doi:10.1152/japplphysiol.00615.2009

Cited by 13 publications

(10 citation statements)

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“…Gas nuclei grow to become visible, and stable gas bubbles depend on the dissolved CO 2 gas concentration (Wilbur et al 2010; Lin et al 2000). Partial venous pressure of CO 2 ( P vCO 2 ) elevates during CPR and its causes are as follows (Suwa 1992; Halmagyi et al 1970; Suwa et al 1969; Chazan et al 1968; Weil et al 1986; Gudipati et al 1990; Lindner et al 1991): 1) increased arterial-venous difference of P CO 2 due to low cardiac output, 2) increased CO 2 production due to anaerobic metabolism progression, and 3) decreased CO 2 transport by the blood.…”

Section: Discussionmentioning

confidence: 99%

“…Second, PMCT findings could not morphologically differentiate whether the myocardial intravascular gas of the LV was in the artery or in the vein. However, tribonucleation and supersaturation of CO 2 , which are the two predominant theories of gas nuclei and bubbles origin (Wilbur et al 2010; Lin et al 2000), suggest that the gases were in the vein. Additionally, the presence of intravascular gas in the venula of pericardial fat may be indirect evidence.…”

Section: Discussionmentioning

confidence: 99%

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Immediate non-traumatic postmortem computed tomographic demonstration of myocardial intravascular gas of the left ventricle: effects from cardiopulmonary resuscitation

et al. 2013

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SummaryAn 87-year-old man was found in a state of cardiopulmonary arrest. Despite cardiopulmonary resuscitation (CPR) for over 1 hour by emergency technicians and physicians, the patient died. Immediate postmortem computed tomography showed cardiovascular gas in the right atrium, right ventricle, and left ventricle. Cardiovascular gas in the left ventricle was located in the myocardium and appeared as linear or branch-shaped suggesting the presence of myocardial intravascular gas. This is the first report describing the appearance and significance of myocardial intravascular gas of the left ventricle as a CPR-related change.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Immediate non-traumatic postmortem computed tomographic demonstration of myocardial intravascular gas of the left ventricle: effects from cardiopulmonary resuscitation

et al. 2013

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“…The question remains as to why cycling exercise did not produce benefi cial results. In a recent study carried out by Wilbur et al ( 31 ), a dual frequency ultrasound technique was used to detect microbubbles in the legs of subjects before and after cycling exercise. This technique would be useful to compare the amount of bubbles produced by different types of exercise and, in this case, Wilbur's results suggested that cycling did produce an increased amount of detectable microbubbles.…”

Section: Discussionmentioning

confidence: 99%

Pre-Dive Exercise and Post-Dive Evolution of Venous Gas Emboli

Gennser

Jurd²,

Blogg³

2012

aviat space environ med

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“…It has been known for at least half a century that, as noticed by Hayward in 1967 (11), "extremely gentle rubbing" of two solid objects inside a liquid under tension, which is otherwise stable against most forms of mechanical action (e.g., knocking on the container wall or stirring), readily induces nucleation. This tribonucleation is often cited as a plausible source of the microbubbles found in the limbs of humans and animals after physical exercise (12,13). Campbell (14) and Ikels (15) attributed the nucleation observed in these conditions to the pressure drop induced by the viscous flow in the space between two separating solid surfaces.…”

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confidence: 98%

Tribonucleation of bubbles

Lhuissier

Sun

Lohse

et al. 2014

Proc. Natl. Acad. Sci. U.S.A.

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We report on the nucleation of bubbles on solids that are gently rubbed against each other in a liquid. The phenomenon is found to depend strongly on the material and roughness of the solid surfaces. For a given surface, temperature, and gas content, a trail of growing bubbles is observed if the rubbing force and velocity exceed a certain threshold. Direct observation through a transparent solid shows that each bubble in the trail results from the early coalescence of several microscopic bubbles, themselves detaching from microscopic gas pockets forming between the solids. From a detailed study of the wear tracks, with atomic force and scanning electron microscopy imaging, we conclude that these microscopic gas pockets originate from a local fracturing of the surface asperities, possibly enhanced by chemical reactions at the freshly created surfaces. Our findings will be useful either for preventing undesired bubble formation or, on the contrary, for "writing with bubbles," i.e., creating controlled patterns of microscopic bubbles.Comment: Link to journal article: http://www.pnas.org/content/111/28/10089.abstrac

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Signals consistent with microbubbles detected in legs of normal human subjects after exercise

Cited by 13 publications

References 13 publications

Immediate non-traumatic postmortem computed tomographic demonstration of myocardial intravascular gas of the left ventricle: effects from cardiopulmonary resuscitation

Immediate non-traumatic postmortem computed tomographic demonstration of myocardial intravascular gas of the left ventricle: effects from cardiopulmonary resuscitation

Pre-Dive Exercise and Post-Dive Evolution of Venous Gas Emboli

Tribonucleation of bubbles

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