标题: Hypertension with tourniquet use 高血压和止血带的应用 [打印本页] 作者: shenxiu2 时间: 2009-12-12 17:18 标题: Hypertension with tourniquet use 高血压和止血带的应用 本帖最后由 shenxiu2 于 2009-12-12 17:51 编辑
Arterial hypertension associated with the use of a tourniquet with either general or regional anaesthesia
H. Valli1,2, P. H. Rosenberg1, J. Kytta1 M. Nurminen1
1Department of Anaesthesia, Todo Hospital, Department or Anaesthesia, Surgical Hospital, Helsinki University Central Hospital and Department of Public Health Science, University of Helsinki, Helsinki, Finland
Correspondence to 2Department of Anaesthesia, Surgical Hospital, Helsinki
University
Central
Hospital, Kasarmikatu 11, SF-00130 Helsinki 13, Finland
Copyright 1987 Acta Anaesthesiologica Scandinavica Fonden KEYWORDS
Anesthesia • general • anesthesia • hemodynamics • anesthesia • regional • tourniquet ABSTRACT
A hypertensive patient with left cardiac enlargement developed marked hypertension under general anaesthesia, during which time a tourniquet was applied around his thigh. When the tourniquet was released, severe hypotension ensued which responded to therapy. The patient, however, died 16 h later of a myocardial infarction. Because of this incident, the anaesthetic and haemodynamic data of 699 patients who underwent limb surgery with a pneumatic tourniquet inflated for at least an hour were retrospectively examined using multivariate analysis.
A 30% increase in systolic and/or diastolic arterial blood pressure occurred in 27% of the total patient material and in 67%, of those who had had a general anaesthetic. There was a higher frequency of the occurrence of "tourniquet hypertension" with older age, longer operations and the operation site being the lower rather than the upper limb. Tourniquet hypertension rarely occurred in patients with spinal anaesthesia (2.7%) and brachial plexus blockade (2.5%), while those with intravenous regional anaesthesia had a higher incidence (19%) of hypertension.
Received 19 September 1985, accepted for publication 25 November 1985---Wiley interscience.
Regional Anesthesia and Pain Medicine:
Original Article: PDF Only
Hemodynamic Changes Associated with Tourniquet Use under Epidural Anesthesia for Total Knee Arthroplasty
KAHN, RICHARD L. M.D.; SHARROCK, NIGEL E. M.B., CH.B.; MARINO, VICTOR M.D.; URQUHART, BARBARA R.N., B.S.N.
Abstract
Background and Objectives. Epidural anesthesia is administered commonly for total knee arthroplasty, a procedure using a thigh tourniquet. Tourniquet use has been associated with intraoperative hypertension and with occasional circulatory collapse after deflation. The purpose of this study was to define the hemodynamic changes in this setting.
Methods.
We prospectively studied 373 consecutive patients having a total knee arthroplasty performed under epidural anesthesia, with continuous electrocardiogram and radial artery pressure monitoring. Results were analyzed using Student's t-test, correlation coefficients, analysis of variance, or chi-square analysis. Alpha was set at 0.01.
Results.
There was a 4 +/- 11 mmHg rise in mean arterial pressure throughout the period of tourniquet application (p < 0.001); no clinically significant hypertension occurred. After tourniquet deflation, there was a 19.2 +/- 12% reduction in mean arterial pressure, occurring within one minute. The magnitude of mean arterial pressure reduction failed to correlate with any clinical parameter other than vasopressor use. There was a small subset of patients who had a fall in heart rate and a more profound degree of hypotension after tourniquet deflation, but these patients could not be identified before tourniquet release.
Conclusions.
In this setting, tourniquet-induced hypertension is rare. However, hypotension after deflation is common, occurs rapidly, and correlates poorly with clinical parameters.
(C)1992 American Society of Regional Anesthesia and Pain Medicine.作者: shenxiu2 时间: 2009-12-12 17:20 本帖最后由 shenxiu2 于 2009-12-13 14:23 编辑
Preoperative Clonidine Blunts Hyperadrenergic and Hyperdynamic Responses to Prolonged Tourniquet Pressure During General Anesthesia Marco P. Zalunardo, MD*, Daniel Serafino, MD*, Patricia Szelloe, MD*, Fabia Weisser, MD*, Andreas Zollinger, MD , Burkhardt Seifert, PhD , and Thomas Pasch, MD*
*Institute of Anesthesiology, University Hospital, Zürich, Switzerland; Institute of Anesthesiology, Triemli City Hospital, Zürich, Switzerland; Department of Biostatistics, University of Zürich, Zürich, Switzerland
Address correspondence and reprint requests to Marco P. Zalunardo, MD, Institute of Anesthesiology, University Hospital Zürich, Rämistrasse 100, CH - 8091 Zürich, Switzerland. Address e-mail to [email protected].
Abstract
Although the mechanism of tourniquet-induced hypertension is still unclear, plasma norepinephrine concentrations continuously increase in parallel to arterial blood pressure during tourniquet inflation. Clonidine attenuates hyperadrenergic and hyperdynamic responses. We investigated the effects of clonidine on prolonged tourniquet inflation.
Twenty-nine patients scheduled for elective orthopedic surgery were randomly assigned to receive IV clonidine (3 µg/kg; n = 14) or placebo (n = 15) before tourniquet inflation of the lower limbs under general anesthesia in a double-blinded manner. Arterial blood pressure, heart rate, epinephrine, and norepinephrine plasma concentrations were measured before tourniquet inflation, 60 min after tourniquet inflation, just before tourniquet deflation, and 20 min after tourniquet deflation. Mean arterial blood pressure and norepinephrine plasma-concentrations were significantly lower in the Clonidine group compared with Control after 60 min tourniquet inflation (P = 0.016; P = 0.006). Immediately before deflation of the tourniquet, the difference for mean arterial pressure between groups was even more pronounced (P = 0.005). Twenty minutes after deflation mean arterial blood pressure in the Control group was still increased and significantly higher compared with the Clonidine group (P = 0.002).
In conclusion, preoperative IV clonidine blunts hyperadrenergic and hyperdynamic responses resulting from prolonged tourniquet inflation under general anesthesia in ASA class I–II patients.
IMPLICATIONS: Tourniquet inflation is associated with a continuous increase in arterial blood pressure and sympathetic outflow. This study shows that IV clonidine effectively blunts increases of both arterial blood pressure and plasma norepinephrine concentrations.
Introduction
Tourniquet inflation has become a standard procedure in orthopedic and plastic surgery of upper and lower limbs. Bleeding is significantly reduced and the surgical conditions for preparation are excellent using this technique. However, tourniquet inflation is also associated with severe pain, augmented sympathetic outflow, and a continuous increase in systemic arterial blood pressure (1–5). The onset of tourniquet hypertension is delayed and its treatment is difficult and often ineffective, even with increased doses of anesthetics and antihypertensive drugs (6). Although the mechanism of tourniquet hypertension is unknown, the autonomic nervous system is involved and plasma-catecholamine concentrations are increased (3,7). Clonidine attenuates hyperadrenergic responses and therefore may be of therapeutic and prophylactic value for tourniquet hypertension (8,9). The purpose of this study was to investigate the effects of preoperative IV clonidine on arterial blood pressure and plasma-catecholamine concentrations during prolonged tourniquet inflation of the lower limbs under general anesthesia.
Methods
The study was randomized, double-blinded and placebo-controlled. After obtaining Ethics Committee approval and written informed consent, 40 ASA class I and II patients were enrolled. All patients were randomly assigned to either receive IV clonidine or plain saline infusion. Inclusion criteria were ASA class I–II and elective orthopedic surgery with tourniquet inflation of the lower limbs. Exclusion criteria were as follows: history of cardiac arrhythmias or cardiovascular disease, including hypertension; atrioventricular block; congestive heart failure; cardiac medication; expected tourniquet time shorter than 60 min or longer than 150 min. After enrollment 11 patients with a tourniquet time shorter than 60 min or longer than 150 min were excluded.
All patients received oral midazolam 7.5 mg 45–60 min before induction of anesthesia. Patients in the IV Clonidine group (n = 14) received 3 µg/kg clonidine in a 10-min saline infusion (100 mL) immediately before induction of anesthesia. Patients in the Control group (n = 15) received plain saline infusion (100 mL). The infusions were prepared and blinded in advance by an anesthesia nurse according to the random list. Anesthesia was induced with fentanyl 1–2 µg/kg and thiopental 5 mg/kg. Pancuronium or atracurium was used for muscle paralysis. Mean arterial blood pressure before induction of anesthesia was measured noninvasively. After anesthesia induction a 14-gauge cannula was inserted in a large cubital vein for taking blood samples, and a radial artery catheter was inserted for invasive blood pressure measurements. Anesthesia was maintained with isoflurane and N2O in 30% oxygen. Muscle paralysis was maintained with pancuronium or atracurium. Tidal volume was adjusted to keep the end-tidal CO2-concentration between 4.5% and 5%. If mean arterial blood pressure exceeded 130 mm Hg despite increased doses of isoflurane and fentanyl up to an intraoperative total dose of 3 µg/kg an additional bolus of clonidine 30 µg would be given.
All variables (mean arterial blood pressure, heart rate, norepinephrine, epinephrine, end-tidal CO2-concentration, and end-tidal isoflurane concentration) were measured at the following three time points:
A. Baseline measurement under general anesthesia before surgery and tourniquet inflation.
B. During surgery at 60 min tourniquet time.
C. Immediately before tourniquet deflation.
To determine plasma-catecholamine concentrations the 10-mL EDTA tubes were placed on ice immediately after venous sampling, then centrifuged promptly at +4°C to separate the plasma, and finally stored at -70°C until analyzed with high-performance liquid chromatography (10). Monitoring consisted of electrocardiogram, measurement of radial artery blood pressure, end-tidal CO2-concentration, end-tidal isoflurane concentration, and oxygen saturation, obtained by pulse oximetry (VICOM-SM SMU 612, PPG-Hellige, Freiburg, Germany).
Randomization and statistical analysis were made using StatView for Windows v. 5.0 (SAS Institute Inc., Cary, NC) and SPSS 10.0 for Windows (SPSS Inc., Chicago, IL). Data are presented as mean ± SD. The distribution of female to male patients was compared using Fisher’s exact test. Continuous data were compared using the Mann-Whitney U-test. P < 0.05 was considered statistically significant. Bonferroni correction was made for multiple comparisons at relevant time points (B and C). To assess whether the effect of clonidine found in the univariate analysis was an independent one or might have been mediated by demographic or baseline values, repeated-measures analysis of variance with within-factor time (points B and C), between-factor group (clonidine versus control), and one covariate were performed. For the analysis of a possible effect of gender, a repeated-measures analysis of variance with two between factors was performed. For these analyses, norepinephrine plasma-concentrations were log-transformed to reach an approximately normal distribution.
Results
Both groups of patients were similar with regard to demographic characteristics and tourniquet time (Table 1).
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Table 1. Demographic Data, Tourniquet Time and Preanesthetic Blood Pressure
The values for all variables (mean arterial blood pressure, heart rate, norepinephrine, epinephrine, and end-tidal isoflurane concentration) were similar at time point A (baseline measurements) in both groups (Fig. 1). Mean arterial blood pressure and norepinephrine plasma concentrations were significantly smaller in the Clonidine group compared with Control after 60 min tourniquet inflation (P = 0.016; P = 0.006; Fig. 1, B) and immediately before deflation (P = 0.005; P = 0.016; Fig. 1, C). Heart rate, epinephrine plasma concentration, and end-tidal isoflurane concentration were similar in both groups at time points B and C.
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Figure 1. All variables at the following time points: A, preoperative baseline measurement after infusion of saline or clonidine, after induction of anesthesia and before tourniquet inflation; B, 60 min after tourniquet inflation; and C, just before tourniquet deflation. MAP = mean arterial blood pressure; HR = heart rate; E = epinephrine plasma concentration; NE = norepinephrine plasma concentration; Etiso = end-tidal isoflurane concentration. Values are expressed as mean ± SD. *significant differences (P < 0.017) in variables between Clonidine and Control after Bonferroni correction.
Under general anesthesia 20 min after deflation of the tourniquet mean arterial blood pressure in the Control group was still increased and significantly higher compared with the Clonidine group (84 ± 11 versus 71 ± 8 mm Hg; P = 0.002).
Multivariate Analysis
For all repeated-measures analysis of variance performed, the effect of clonidine remained significant independently of covariate analyzed (P < 0.01 for mean arterial blood pressure and P < 0.023 for norepinephrine plasma-concentrations). The baseline value of norepinephrine plasma concentration had a significant effect on values at time points B and C (P = 0.02 for group, P = 0.045 for baseline value). No other effects were significant. Furthermore, neither preanesthetic values nor baseline values of mean arterial blood pressure had any influence on values of mean arterial blood pressure at time points B and C.
Intra- and postoperatively, maximum mean arterial blood pressure was 109 mm Hg. No serious cardiovascular events occurred and neither inotropic nor chronotropic medication had to be administered.
Discussion
Perioperative hypertension may be associated with serious cardiac complications (11–13). Furthermore, the level of hypertension is correlated with the occurrence of postoperative silent myocardial ischemia (13). The intraoperative hypertension induced by prolonged tourniquet inflation of the lower limbs is often unresponsive to increased doses of anesthetics and antihypertensive drugs (6). The results of this study clearly indicate that preoperative IV clonidine blunts both tourniquet hypertension and increases in norepinephrine plasma concentrations. These variables were significantly decreased in the Clonidine group after 60 minutes of tourniquet inflation and before deflation of the tourniquet. After deflation mean arterial blood pressure in the Control group was still significantly higher.
The precise mechanism of tourniquet hypertension is unknown. However, a few hypotheses have been discussed. Satsumae et al. (14) recently argued that tourniquet hypertension might be related to N-methyl-D-aspartic acid (NMDA) receptor activation by peripheral noxious stimuli from the extremities and that ketamine, as NMDA receptor antagonist, might attenuate tourniquet hypertension. They showed that systolic arterial blood pressure was significantly reduced during tourniquet inflation in the two ketamine-treated groups compared with the control group. Although the study results seem to support their hypothesis, tourniquet time was significantly longer in the control group (101 min versus 86 min; P < 0.02). In fact, the tourniquet-induced increase in arterial blood pressure is continuous (15); this has been confirmed again in our study (Fig. 1). Systolic arterial pressure possibly would have been lower in the control group if tourniquet time was as short as in the ketamine groups. Plasma catecholamines were not measured. The effect of ketamine on increased sympathetic outflow might have been of interest in this study setting.
Heropoulos et al. (7) evaluated the effects of enalaprilat, an angiotensin-converting enzyme inhibitor, on hemodynamic and hormonal responses to prolonged tourniquet inflation. They could not demonstrate a blunting effect on increases in arterial blood pressure or norepinephrine plasma concentrations.
Another hypothesis on tourniquet-induced hypertension regards the correlation with autonomic nervous system changes, which was also the working hypothesis of this study. On the basis of power spectral heart rate analysis, Tetzlaff et al. (3) showed that tourniquet hypertension is correlated with the activation of the sympathetic nervous system. Heropoulos et al. (7) demonstrated that tourniquet hypertension is associated with an increase in plasma catecholamines. Clonidine reduces the presynaptic norepinephrine release, decreases the "set point" around which blood pressure is regulated, and has a substantial analgesic and sedative action (16,17). Clonidine blunts responses to various qualities and quantities of perioperative stress (8,9,16,17); this has also become a subject of molecular research (18,19). In awake patients the addition of clonidine to the local anesthetic solution in IV regional anesthesia prevents tourniquet pain (20,21) However, this study provides new evidence that preoperative IV clonidine blunts both the increase in sympathetic outflow and the arterial hypertension induced by tourniquet inflation under general anesthesia.
We measured the end-tidal isoflurane concentration to compare the level of sedation between the groups. Although the end-tidal isoflurane concentrations were similar in both groups at all time points (Fig. 1) this may be a limitation of our study design. Bispectral index (BIS) or auditory evoked potential index appear to give more information. However, the sensitivity and specificity of these methods are not 100 percent (22–24) and BIS does not consistently correlate with the level of sedation, especially during isoflurane anesthesia (25). In Figure 1 it is noticeable that the mean values of end-tidal isoflurane concentration were lower in the Clonidine Treated group throughout the whole study period, although the difference did not reach statistical significance. This may be explained by the finding that clonidine, aside from or perhaps by its effects on arterial blood pressure or norepinephrine plasma concentrations, reduces isoflurane requirements (26).
In summary, preoperative IV clonidine significantly blunts hyperadrenergic and hyperdynamic responses to prolonged tourniquet inflation of the lower limbs under general anesthesia in ASA class I and II patients. On the basis of the results of this study, further investigations are needed to show whether perioperative outcome in patients with arterial hypertension or cardiovascular disease is improved by clonidine treatment.作者: shenxiu2 时间: 2009-12-12 21:22 本帖最后由 shenxiu2 于 2009-12-12 21:26 编辑
Anesth Analg 2002;94:615-61
Preoperative Clonidine Blunts Hyperadrenergic and Hyperdynamic Responses to Prolonged Tourniquet Pressure During General Anesthesia
术前可乐定可以抑制全麻中长时间使用止血带时引起的肾上腺素过激反应
虽然止血带引起的高血压的机制不详,但是在止血带吹张时,血内去甲肾上腺素的浓度却与血压平行上升。可乐定抑制肾上腺素过激反应。我们审查了可乐定对长时间使用止血带的效果。
得到的结论是:术前静注可乐定可以抑制ASA I 和II组全麻中长时间使用止血带时引起的肾上腺素过激反应。