Doses of lidocaine up to 35 mg/kg were sufficient for abdominal liposuction using the tumescent technique and gave no fluid overload or toxic symptoms in eight patients, but with this dose there is still a risk of subjective symptoms in association with the peak level of lidocaine that may appear after discharge.
The effects of adenosine-induced hypotension on cerebral blood flow (CBF), cerebral metabolic rate of oxygen (CMRO2), and cerebral lactate production, together with systemic haemodynamics, were studied in 10 patients undergoing cerebral aneurysm surgery in neurolept anaesthesia with controlled hyperventilation. CBF changes were determined in six of the patients with a retrograde thermodilution technique in the jugular vein. Hypotension was induced with a continuous infusion of adenosine in the superior vena cava. The dose range was 0.06-0.35 mg/kg/min, and this caused a 42% reduction in mean arterial blood pressure (MABP) from 79 +/- 4 to 46 +/- 1 mmHg (10.5 +/- 0.5 to 6.1 +/- 0.1 kPa) through a profound reduction in systemic vascular resistance (SVR), which amounted to 61%. No significant change occurred in CBF. Whole body AV-difference of oxygen was decreased by 37%, and cerebral AV-difference by 28%, corresponding to reductions in whole body oxygen uptake and CMRO2 of 16 and 17%, respectively. Cerebral AV-difference of lactate did not change. In the posthypotensive period MABP was increased by 10%, together with a minor increase in CBF (15%). It is concluded, that adenosine-induced hypotension at MABP levels between 40-50 mmHg (5.3-6.7 kPa) does not affect cerebral oxygenation unfavourably, and may even offer a protective effect by reducing cerebral oxygen demand. The slight CBF increase in the posthypotensive period was probably secondary to an increase in MABP together with a blunted autoregulation, but in no case was this effect considered to be harmful for the patient.
This is the first reported case proving that chronic ergotamine inhalation can cause ergotism affecting peripheral arteries. As the plasma ergotamine level fell only slowly it must be assumed that ergotamine had accumulated in a, so far unknown, body depot with slow release into the blood.
The influence on cerebral blood flow (CBF) and autoregulation of systemic adenosine infusion, at doses that produced a 29 +/- 4% (0.28 +/- 0.06 mg/kg/min) or a 55 +/- 2% (0.49 +/- 0.07 mg/kg/min) reduction of mean arterial blood pressure (MABP), was evaluated in 12 normoventilated fentanyl/N2) anesthetized pigs. CBF was determined as sagittal sinus outflow and recorded continuously by an electromagnetic technique. Autoregulation was evaluated by two formal tests: infusion of angiotensin for elevation of MABP, and reduction of myocardial filling pressure by caval block for graded MABP decrease before, during and after adenosine infusion. CBF as well as cerebral metabolic rate of oxygen were unaffected during both levels of hypotension and were not significantly altered after the hypotension. Signs of impaired autoregulation were found during the angiotensin test as well as during the caval block at light hypotension (92 +/- 3 mmHg, 12.3 +/- 0.4 kPa), while autoregulation was completely abolished at moderate hypotension (59 +/- 2 mmHg, 7.9 +/- 0.3 kPa). After termination of adenosine-induced hypotension, autoregulation was restored in all animals within 60 min. It is concluded that systemically administered adenosine preserves CBF, even at low MABP levels, by a direct cerebral vasodilatory effect. However, the cerebral autoregulatory mechanisms are impaired or abolished in a dose-dependent and reversible manner.
The cerebral and systemic effects of hypotension induced by adenosine (0.61 +/- 0.07 mg.kg-1.min-1) were studied in eight pigs anesthetized with droperidol, phenoperidine and nitrous oxide. Mean arterial blood pressure (MABP) was reduced by 58%, from 17.2 kPa (128 mmHg) to 6.9 kPa (53 mmHg) during a 30-min period. The hypotension was caused by a decrease in systemic vascular resistance (58%) while the cardiac output was unaffected. Cerebral blood flow (CBF), as determined by microsphere distribution, and the cerebral metabolic rate for oxygen (CMRO2) remained unchanged. Cerebral vascular resistance decreased by 61%. There were no signs of cerebral lactate release. After discontinuation of adenosine infusion, the MABP returned to control levels within 5 min. Thirty minutes later the CBF was increased by approximately 60% in comparison to the control, while the CMRO2 was unchanged. It is concluded that adenosine-induced hypotension in pigs is associated with preserved CBF and CMRO2, whereas cerebral hyperperfusion is present in the early post-hypotensive period.
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