Vasopressin V1A receptors mediate the increase in gastric mucosal oxygenation during hypercapnia

Vollmer, Christian; Schwartges, Ingo; Naber, Silke Maria; Beck, Christopher; Bauer, Inge; Picker, O.

doi:10.1530/joe-12-0526

Cited by 11 publications

(10 citation statements)

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“…So far, attempts to specifically resuscitate the gut have shown to be unsuccessful [10]. In previous studies, we could show that hypercapnia increased gastric μHbO 2 in anesthetized dogs [11] and preserved intestinal μHbO 2 in septic rats [12]. Both effects were abolished during V1A receptor blockade indicating an involvement of the vasopressin system.…”

Section: Introductionmentioning

confidence: 78%

Exogenous vasopressin dose-dependently modulates gastric microcirculatory oxygenation in dogs via V1A receptor

et al. 2019

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BackgroundHypercapnia improves gastric microcirculatory oxygenation (μHbO2) and increases vasopressin plasma levels, whereas V1A receptor blockade abolishes the increase of μHbO2. The aim of this study was to evaluate the effect of exogenous vasopressin (AVP) in increasing doses on microcirculatory perfusion and oxygenation and systemic hemodynamic variables. Furthermore, we evaluated the role of the vasopressin V1A receptor in mediating the effects.MethodsIn repetitive experiments, six anesthetized dogs received a selective vasopressin V1A receptor inhibitor ([Pmp1, Tyr (Me)2]-Arg8-Vasopressin) or sodium chloride (control groups). Thereafter, a continuous infusion of AVP was started with dose escalation every 30 min (0.001 ng/kg/min–1 ng/kg/min). Microcirculatory variables of the oral and gastric mucosa were measured with reflectance spectrometry, laser Doppler flowmetry, and incident dark field imaging. Transpulmonary thermodilution was used to measure systemic hemodynamic variables. AVP plasma concentrations were measured during baseline conditions and 30 min after each dose escalation.ResultsDuring control conditions, gastric μHbO2 did not change during the course of experiments. Infusion of 0.001 ng/kg/min and 0.01 ng/kg/min AVP increased gastric μHbO2 to 87 ± 4% and 87 ± 6%, respectively, compared to baseline values (80 ± 7%), whereas application of 1 ng/kg/min AVP strongly reduced gastric μHbO2 (59 ± 16%). V1A receptor blockade prior to AVP treatment abolished these effects on μHbO2. AVP dose-dependently enhanced systemic vascular resistance (SVR) and decreased cardiac output (CO). After prior V1A receptor blockade, SVR was reduced and CO increased (0.1 ng/kg/min + 1 ng/kg/min AVP).ConclusionsExogenous AVP dose-dependently modulates gastric μHbO2, with an increased μHbO2 with ultra-low dose AVP. The effects of AVP on μHbO2 are abolished by V1A receptor inhibition. These effects are independent of a modulation of systemic hemodynamic variables.

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Section: Introductionmentioning

confidence: 78%

Exogenous vasopressin dose-dependently modulates gastric microcirculatory oxygenation in dogs via V1A receptor

et al. 2019

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“…Enfin, l'augmentation de la DO 2 systémique et de l'oxygé-nation de la microcirculation splanchnique (muqueuse gastrique), en réponse à l'induction d'une hypercapnie, est médiée par le récepteur V1A de la vasopressine chez le chien sain [54].…”

Section: Effets De La Vasopressine Sur La Microcirculation Chez L'animalunclassified

Effets des vasoconstricteurs sur la microcirculation

et al. 2015

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Les théories physiologiques et les modèles animaux nous prédisent souvent un effet néfaste de l'obtention d'une vasoconstriction importante sur la microcirculation. La diminution de la pression capillaire (avec au maximum une fermeture des capillaires en cas de pression extramurale trop forte), de l'hématocrite microcirculatoire, possiblement du débit, et de la densité capillaire possible en sont autant de raisons. En fait, les effets des vasoconstricteurs à disposition sont impossibles à prévoir : la noradrénaline par exemple provoque un effet alphapositif entraînant une augmentation des résistances artériolaires, mais aussi veineuses, avec un effet possible d'augmentation du débit cardiaque par effet précharge et/ou par bêtastimulation. Les effets sur la perfusion intestinale, rénale et microcirculatoire (le plus souvent sublinguale) sont souvent neutres, voire positifs pour la noradrénaline et la terlipressine au décours du choc septique, pour peu qu'une hypovolémie importante ait été traitée auparavant et que les objectifs de pression artérielle moyenne ne dépassent pas 75 mmHg. La phényléphrine semble être difficile d'utilisation et dangereuse pour la microcirculation. La vasopressine requiert probablement des études complémentaires concernant la microcirculation. Enfin, la titration et la décrémentation en cas de signe de dysoxie tissulaire (marbrures cutanées, augmentation du lactate) semblent être de bon sens. Mots clés Microcirculation · Vasoconstricteurs · Sepsis · Noradrénaline · Terlipressine · Adrénaline · Vasopressine · PhényléphrineAbstract Physiology and animal models often predict microvascular negative effects of excessive vasoconstriction. The following are among them: a drop in capillary pressure (even closure of capillaries), a drop in microvascular haematocrit, a possible drop in flow, a possible decrease in capillary density. In fact, the impact of usual vasoconstrictors is difficult to predict, e.g. norepinephrine is an alpha agonist, which simultaneously increases arteriolar but also venular resistances together with a possible increase in cardiac output by beta stimulation or thanks to preload effect. Concerning norepinephrine and probably terlipressin, the effects on splanchnic, renal and most often sublingual microcirculation are globally either positive or neutral if a deep hypovolemia is treated before perfusion of the drug and if mean arterial pressure goal is below 75 mmHg. Phenylephrine seems deleterious and difficult to use. Vasopressin requires more studies concerning microcirculation. Careful titration and even decrementation of the drugs in case of tissue dysoxia (mottling of the skin, the increase of lactate levels) seems to be common sense.

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“…Experiments were performed with the approval of the Local Animal Care and Use Committee (North RhineWestphalia State Agency for Nature, Environment and Consumer Protection,Recklinghausen,Germany;. The same group of five dogs used in this study was used in another study published previously (Vollmer et al 2013). Each dog underwent each protocol in a randomized order and served as its own control.…”

Section: Animalsmentioning

confidence: 99%

“…After pretreatment, HC was maintained for an additional hour. The results of this control group have been published already as those of the control group (Vollmer et al 2013) because we are forced by law to minimize animal experiments. However, this group was randomized in this series.…”

Section: Raas Inhibition During Hc With Phe (Hc/ace-ic Phe)mentioning

confidence: 99%

“…Additionally, it protects microvascular oxygenation of the gastric mucosa during physiological conditions (Schwartges et al 2008) and hemorrhagic shock (Schwartges et al 2010). In this context, we have recently shown that the increase in gastric mucosal oxygenation during otherwise physiological conditions is mediated via vasopressin V1A receptors (Vollmer et al 2013) and might be due to increased levels of vasopressin during HC (Philbin et al 1970). However, HC interacts with other hormone systems as well.…”

Section: Introductionmentioning

confidence: 99%

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Hypercapnia counteracts captopril-induced depression of gastric mucosal oxygenation

Vollmer

Schwartges

Behmke

et al. 2013

Journal of Endocrinology

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Hypercapnia (HC) increases systemic oxygen delivery (DO 2 ) and gastric mucosal oxygenation. However, it activates the renin-angiotensin-aldosterone system (RAAS), which conversely reduces mesenteric perfusion. The aims of this study were to evaluate the effect of RAAS inhibition during normocapnia and HC on oral and gastric mucosal oxygenation (mHbO 2 ) and to assess the effect of blood pressure under these circumstances. Five dogs were repeatedly anesthetized to study the effects of ACE inhibition (ACE-I; 5 mg/kg captopril, followed by 0.25 mg/kg per h) on mHbO 2 (reflectance spectrophotometry) and hemodynamic variables during normocapnia (end-tidal CO 2 Z35 mmHg) and HC (end-expiratory carbon dioxide (etCO 2 )Z70 mmHg). In the control group, the dogs were subjected to HC alone. To exclude the effects of reduced blood pressure, in one group, blood pressure was maintained at baseline values via titrated phenylephrine (PHE) infusion during HC and additional captopril infusion. ACE-I strongly reduced gastric mHbO 2 from 72G2 to 65G2% and mean arterial pressure (MAP) from 64G2 to 48G4 mmHg, while DO 2 remained unchanged. This effect was counteracted in the presence of HC, which increased gastric mHbO 2 from 73G3 to 79G6% and DO 2 from 15G2 to 22G4 ml/kg per min during ACE-I without differences during HC alone. However, MAP decreased similar to that observed during ACE-I alone from 66G3 to 47G5 mmHg, while left ventricular contractility (dP max ) increased from 492G63 to 758G119 mmHg/s. Titrated infusion of PHE had no additional effects on mHbO 2 . In summary, our data suggest that RAAS inhibition reduces gastric mucosal oxygenation in healthy dogs. HC not only abolishes this effect, but also increases mHbO 2 , DO 2 , and dP max . The increase in mHbO 2 during ACE-I under HC is in accordance with our results independent of blood pressure.

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Vasopressin V1A receptors mediate the increase in gastric mucosal oxygenation during hypercapnia

Cited by 11 publications

References 35 publications

Exogenous vasopressin dose-dependently modulates gastric microcirculatory oxygenation in dogs via V1A receptor

Exogenous vasopressin dose-dependently modulates gastric microcirculatory oxygenation in dogs via V1A receptor

Effets des vasoconstricteurs sur la microcirculation

Hypercapnia counteracts captopril-induced depression of gastric mucosal oxygenation

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