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Evaluation of transcutaneous Doppler ultrasonography for the measurement of blood flow in the femoral artery of pigs
2003
Fernández del Palacio, Maria Josefa | Luis Fuentes, Virginia | Bonagura, John D. | Schober, Karsten E. | Hatfield, Daniel G. | Laughlin, Harold M.
Objective-To compare measurements of blood flow in the common femoral artery obtained by duplex Doppler ultrasonography (DDU) and a reference ultrasonic transit-time flow (TTF) method and to examine the impact of Doppler spectral waveform measurement techniques on volumetric estimates. Animals-5 healthy female pigs. Procedure-Femoral arterial blood flow was measured simultaneously in anesthetized pigs by use of a TTF probe (left femoral artery) and transcutaneous DDU (right femoral artery). A range of flow states was induced pharmacologically by using xylazine, bradykinin, dobutamine, and isoflurane. Volumetric blood flow was calculated from DDU waveforms, using the product of the flow velocity integral (FVI), the cross-sectional vessel area, and heart rate. Three calculations of FVI were obtained by manually tracing the Doppler spectral envelopes at the outer envelope, the modal, and the inner envelope of the spectral dispersion pattern. Data analysis included calculation of Pearson correlation coefficients and Bland-Altman limits of agreement. Results-Blood flow measured by DDU was more closely correlated with TTF measurements when the modal or inner envelope tracing method was used ( r, 0.76 and 0.78; limits of agreement, -100 to 54.2 and -48.5 to 77.0 mL/min, respectively). Limits of agreement for the outer envelope tracing method were -238.5 to 64 mL/min. Conclusion and Clinical Relevance-Transcutaneous DDU is a reliable noninvasive technique for measuring blood flow in the femoral artery of pigs over a range of flow states. Tracing the inner envelope of the Doppler spectral dispersion pattern provided the best estimate of blood flow in this study.
显示更多 [+] 显示较少 [-]Evidence for endothelium-derived relaxing factor/nitric oxide in equine digital arteries
1995
Cogswell, A.M. | Johnson, P.J. | Adams, H.R.
Objective--To test the hypothesis that endothelium-derived nitric oxide modulates vasomotor reactivity in equine digital arteries. Design--Digital arteries were isolated from adult horses, and their vasodilator properties were examined in an in vitro controlled environment. Animals--Five adult horses (1 gelding, 4 mares) without evidence of hoof or vascular disease were studied. Procedure--Arterial rings with or without endothelium were exposed to endothelium-dependent vasodilator drugs in the presence or absence of a pharmacologic inhibitor of the enzyme nitric oxide synthase. Results--Vasodilator effects of 3 endothelium-dependent vasorelaxant agents were significantly greater in endothelium-intact vessels than in endothelium-denuded vessels. Moreover a nitric oxide synthase inhibitor reduced vasodilator responses to endothelium-dependent vasodilators in endothelium-intact arteries, but had no discernable effects in endothelium-denuded arteries. Conclusions--These findings indicate the presence of endothelium-derived relaxing factor/nitric oxide in blood vessels of horses, and identify vascular endothelium as an endogenous modulator of vasomotor tone in the digital arteries of this species.
显示更多 [+] 显示较少 [-]Effects of tumor necrosis factor on in vitro digital arterial responses in horses
1994
Baxter, G.
Endotoxin given in vivo has been shown to inhibit endothelial dependent relaxation, and augment adrenergic (norepinephrine) contractions in isolated palmar digital arteries of horses. A study, using tumor necrosis factor (TNF) in vitro, was performed to determine the possible cause of these vascular alterations. Palmar digital arteries were surgically removed from 6 horses under general anesthesia, cut into 4-mm vascular rings (4 segments/horse), suspended in tissue baths, and attached to force displacement transducers for measurement of vascular tension. Four in vitro treatment groups were evaluated: group 1, control; group 2, TNF (5,100 pg of TNF/ml); group 3, 10x TNF (10 times previous TNF concentration); group 4, TNF plus L-arginine (5,100 pg of TNF/ml and 10(-6) M L-arginine). The appropriate drug(s) was/were added to each tissue bath 10 minutes before dose-response tests were performed for acetylcholine, bradykinin, norepinephrine, and 5-hydroxytryptamine (serotonin). Concentrations needed to induce 50% maximal relaxation or contraction (EC50) and maximal percentage relaxation or contraction were determined. Arteries exposed to TNF (group 2) had significantly (P = 0.04) decreased maximal relaxation to acetylcholine and increased maximal contraction to norepinephrine, compared with control arteries, but values did not differ from those for arteries of groups 3 and 4. Maximal relaxation to bradykinin or contraction to serotonin were not different between treatment groups. Mean EC50 values for bradykinin, norepinephrine, and serotonin did not differ among the 4 treatment groups. Mean EC50 values for arterial segments' response to acetylcholine in group 4 were significantly (P = 0.04) increased, compared with control segments, but did not differ from those for segments of groups 2 and 3. The decreased endothelial dependent relaxation to acetylcholine and enhanced maximal contraction to norepinephrine were similar to vascular alterations caused by endotoxin, indicating that TNF may be responsible for endotoxin-induced vascular changes in vitro and in vivo in horses.
显示更多 [+] 显示较少 [-]Osteoarthritic pain model influences functional outcomes and spinal neuropeptidomics: A pilot study in female rats
2019
Gervais, J. A. | Otis, C. | Lussier, B. | Guillot, M. | Martel-Pelletier, J. | Pelletier, J. P. | Beaudry, F. | Troncy, E.
Osteoarthritis, the leading cause of chronic joint pain, is studied through different animal models, but none of them is ideal in terms of reliability and translational value. In this pilot study of female rats, 3 surgical models of osteoarthritic pain, i.e., destabilization of the medial meniscus (DMM), cranial cruciate ligament transection (CCLT), and the combination of both surgical models (COMBO) and 1 chemical model [intra-articular injection of monosodium iodoacetate (MIA)] were compared for their impact on functional pain outcomes [static weight-bearing (SWB) and punctate tactile paw withdrawal threshold (PWT)] and spinal neuropeptides [substance P (SP), calcitonin gene-related peptide (CGRP), bradykinin (BK), and somatostatin (SST)]. Six rats were assigned to each model group and a sham group. Both the chemical model (MIA) and surgical COMBO model induced functional alterations in SWB and PWT, with the changes being more persistent in the surgical combination group. Both models also produced an increase in levels of pro-nociceptive and anti-nociceptive neuropeptides at different timepoints. Pain comparison with the MIA model showed the advantage of a surgical model, especially the combination of the DMM and CCLT models, whereas each surgical model alone only led to temporary functional alterations and no change in neuropeptidomics.
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