Effects on dogs of surface-induced hypothermia and rewarming on the right heart function and pulmonary circulation

Palo, Micaela De; Lauri, Timo; Timisjärvi, J.

doi:10.1007/s004210050059

Cited by 6 publications

(3 citation statements)

References 25 publications

(20 reference statements)

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“…This study shows a direct dependence on T of the hydraulic resistance of all the pulmonary vascular bed areas, while similar results were previously found for venous resistance only (De Pasquale et al 1965;Greenlees et al 1985); according to present results, the pulmonary vascular area which exhibited the highest sensitivity to T changes was the venous area, followed by the capillary area, while less sensitivity was observed for the arterial area (Table 2). Similar percentage changes in PVR may be calculated from data reported by other authors in different animal species (Goetz et al 1962;Pennington et al 1971;Martinez-Ruiz et al 1996), while higher figures are reported by others, again in different experimental animals (Stern and Braun 1970;Chen and Chien 1978;Palo et al 2000).…”

Section: Discussionmentioning

confidence: 50%

“…Indeed, while most authors describe a decrease in pulmonary vascular resistance (PVR) with increasing blood temperature (Goetz et al 1962;De Pasquale et al 1965;Stern and Braun 1970;McMurtry et al 1975;Chen and Chien 1978;Will et al 1978;Greenlees et al 1985;Palo et al 2000), some reports record no change (Fuhner and Starling 1913), or even an opposite effect (Pennington et al 1971;Martinez-Ruiz et al 1996).…”

Section: Introductionmentioning

confidence: 96%

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Effect of perfusate temperature on pulmonary vascular resistance and compliance by arterial and venous occlusion in the rat

Rubini

2004

Eur J Appl Physiol

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The effect of different temperatures of perfusing fluid was tested on the pulmonary circulation of the rat. With increasing temperature, a decrease in overall pulmonary vascular resistance was observed, which depended on the associated reductions of arterial, venous and capillary vascular resistances. The highest sensitivity to temperature changes was exhibited by the venous segment. The overall sensitivity of pulmonary vessels to temperature caused a reduction in hydraulic resistance of about 1% for each 1 degrees C temperature increment. Compliance of pulmonary vessels increased when perfusate temperature was increased from between 25 and 35 degrees C to 45 degrees C, probably due to a direct effect of temperature on the stiffness of the vessel walls.

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Section: Discussionmentioning

confidence: 50%

Section: Introductionmentioning

confidence: 96%

Effect of perfusate temperature on pulmonary vascular resistance and compliance by arterial and venous occlusion in the rat

Rubini

2004

Eur J Appl Physiol

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“…15,30,34 Hypothermia in animals has been linked to cardiovascular compromise, coagulopathy, increased data variability in biomedical research, and longer recoveries from anesthesia. 18,22,23,31,35,38 Hypothermia is a well-recognized and extremely frequent anesthetic complication in animals, affecting as much as 84% to 97% of dogs and cats undergoing surgical procedures. 24,25,27 The rapid onset of hypothermia in anesthetized laboratory rodents suggests that a high incidence of hypothermia is likely if active warming is not provided.…”

Section: Discussionmentioning

confidence: 99%

Prewarming Followed by Active Warming is Superior to Passive Warming in Preventing Hypothermia for Short Procedures in Adult Rats (Rattus norvegicus) Under Isoflurane Anesthesia

Rufiange¹,

Leung²,

Simpson³

et al. 2020

j am assoc lab anim sci

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General anesthesia is a common procedure in laboratory rats; however, it impairs thermoregulation, rapidly leading to hypothermia as warm core blood is distributed to the cooler periphery. The protective strategy of prewarming before the onset of anesthesia delays hypothermia, but only for a short period. This prospective, randomized, cross-over, experimental study in adult male and female SD rats (n = 8) was designed to compare passive (fleece blanket) and active (temperature controlled heating pad) warming. Initial treatment order was randomized, with a cross-over after a minimum 5 d washout period. Both groups underwent a period of prewarming in a warming box to increase core temperature by 1% (median 0.4 °C). At completion of prewarming, general anesthesia was induced and maintained for 30 min with isoflurane carried in oxygen. Core temperature was monitored for a further 30 min after anesthesia. Active warming resulted in higher core temperatures during anesthesia. During passive warming, hypothermia occurred after approximately 30 min of anesthesia and continued into recovery. In contrast, active warming prevented hypothermia. Prewarming followed by passive warming delayed hypothermia for approximately 30min, but active warming was more effective at maintaining normothermia both during and after general anesthesia.

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Intraoperative anaesthetic complications in dogs undergoing general anaesthesia for thoracolumbar hemilaminectomy: a retrospective analysis

Bruniges

Rioja²

2019

Veterinary Anaesthesia and Analgesia

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Effects on dogs of surface-induced hypothermia and rewarming on the right heart function and pulmonary circulation

Cited by 6 publications

References 25 publications

Effect of perfusate temperature on pulmonary vascular resistance and compliance by arterial and venous occlusion in the rat

Effect of perfusate temperature on pulmonary vascular resistance and compliance by arterial and venous occlusion in the rat

Prewarming Followed by Active Warming is Superior to Passive Warming in Preventing Hypothermia for Short Procedures in Adult Rats (Rattus norvegicus) Under Isoflurane Anesthesia

Intraoperative anaesthetic complications in dogs undergoing general anaesthesia for thoracolumbar hemilaminectomy: a retrospective analysis

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