BACKGROUND: The Pringle maneuver is traditionally used during the hepatectomy to reduce the blood loss. However, there have been no studies about local liver perfusion (LLP) and oxygen extraction ratio (ERO2) following hepatic ischemia and reperfusion. In this study, the changes in hepatic blood flow (HBF), LLP, ERO2 following hepatic ischemia and reperfusion were observed. And the effects of low dose nitroglycerin (NTG) were observed too. METHODS: A total of 14 mongrel dogs were divided into two groups; control group (C, n = 7), NTG administration group (N, n = 7), NTG administration was started 5 minutes before HBF occlusion. After femoral arterial and central venous catheterization, midline abdominal incision was made. Hepatic artery (HA) and portal vein (PV) were exposed to clamp and declamp. And then doppler flowmeter probes were applied on HA and PV to measure their blood flow and a thermal diffusion microprobe was inserted in the liver parenchyme to measure LLP. RESULTS: The HA and PV blood flow, LLP, and ERO2 were not different between two groups. However, HBF more increased compared to the baseline level in N group after reperfusion. In C group, LLP did not recover after reperfusion. The LLP in N group recovered to the baseline level after reperfusion. CONCLUSIONS: In conclusion, it was observed that the HBF increased and LLP recovered to the baseline level after reperfusion by administration of low dose NTG. The use of low dose NTG is safe and effective for hepatectomy.
Animals ; Catheterization, Central Venous ; Central Venous Catheters ; Dogs* ; Flowmeters ; Hepatectomy ; Hepatic Artery ; Ischemia ; Liver* ; Nitroglycerin* ; Oxygen* ; Perfusion* ; Portal Vein ; Reperfusion* ; Thermal Diffusion

BACKGROUND: Pringle maneuver and nitroglycerin (NTG) administration to reduce hemorrhage during hepatectomy may affect renal blood flow (RBF) and renal cortical perfusion (RCP) by reducing blood pressure (BP), perload and others. However, so far there have been no studies on RBF and RCP changes during and after hepatic vascular maneuver in hepatectomy. The purpose of this study was to evaluate the changes in RBF and RCP along with low dose (2 microgram/kg/min) NTG with or without low dose (3 microgram/kg/min) dopamine after the occlusion and reperfusion of hepatic blood flow. METHODS: Eighteen mongrel dogs were divided into three groups according to drug administration after hepatic reperfusion; control group (group C, n = 6), NTG group (group N, n = 6), and NTG with dopamine group (group N-D, n = 6). After femoral arterial and central venous catheterization, a midline abdominal incision was made, and the hepatic artery (HA) and the portal vein (PV) were exposed for clamping and declamping. Thereafter, the right renal artery was exposed, and a doppler probe for measuring RBF was placed around the right renal artery, and a thermal diffusion microprobe was inserted in the renal outer cortex to measure RCP. Hemodynamics, RBF and RCP, were repeatedly measured before and after HA and PV reperfusion. RESULTS: No significant change in heart rate was observed in any group. The BP decreased in all the groups after HA and PV occlusion. In group C, the BP recovered to the baseline level after hepatic reperfusion but not in groups N and N-D. The RBF and RCP decreased in all groups after HA andPV occlusion. The RBF increased compared to baseline in N-D after hepatic reperfusion, and the RCP increased versus baseline in N-D, 10 minutes after hepatic reperfusion. CONCLUSIONS: In conclusion, it was observed that the RBF and RCP increased compared to baseline by administering dopamine during HA and PV reperfusion. Therefore, the prophylactic administration of low dose dopamine during hepatectomy offers an effective method of protecting renal function.
Animals ; Blood Pressure ; Catheterization, Central Venous ; Central Venous Catheters ; Constriction ; Dogs* ; Dopamine* ; Heart Rate ; Hemodynamics ; Hemorrhage ; Hepatectomy ; Hepatic Artery ; Liver* ; Nitroglycerin* ; Perfusion* ; Portal Vein ; Renal Artery ; Renal Circulation* ; Reperfusion* ; Thermal Diffusion

BACKGROUND: The measurement of perfusion is very important to understanding the physiology in the ischemic and reperfused tissue. However, no studies have been reported using a beating heart with a real time-continuous perfusion measurement system (QFlow(TM)400) to check local tissue perfusion so far. In this study, the changes in hemodynamics and local myocardial perfusion (LMP) after coronary reperfusion with nicardipine (a calcium channel blocker) administration were evaluated. METHODS: A total of 10 mongrel dogs were divided into two groups; group I (control group, n = 5), group II (nicardipine group, n = 5). After femoral arterial, pulmonary arterial and left ventricular catheterization, a left thoracotomy was performed. Next, the left anterior descending coronary artery (LAD) was exposed, and a thermal diffusion microprobe was inserted in the myocardium to measure LMP. RESULTS: In group II, blood pressure and systemic vascular resistance after LAD reperfusion were significantly decreased compared to group I. Cardiac output and stroke volume were more rapidly increased in group II, while left ventricular stroke work was decreased in group II. In group I, the LMP after LAD reperfusion did not recover to the baseline level, but the LMP did recover 20 minutes after LAD reperfusion and was increased more compared to the baseline level at 30 minutes after LAD reperfusion in group II. There were no significant differences in dP/dt between the two groups. CONCLUSIONS: We found that the LMP did not recover to the baseline level in the early state of LAD reperfusion; however, nicardipine administration increased the LMP after the early reperfusion period. Cardiac output and stroke volume were also more rapidly increased when nicardipine was administrated.
Animals ; Blood Pressure ; Calcium Channels ; Cardiac Output ; Catheterization ; Catheters ; Coronary Vessels ; Dogs* ; Heart ; Hemodynamics* ; Myocardial Reperfusion* ; Myocardium ; Nicardipine* ; Perfusion* ; Physiology ; Reperfusion ; Stroke ; Stroke Volume ; Thermal Diffusion ; Thoracotomy ; Vascular Resistance

BACKGROUND: Tight control of blood pressure in patients with coronary artery disease is critical, especially in the setting of long-standing hypertension and left ventricular dysfunction. With off-pump coronary artery bypass graft (CABG), hypertension usually occurs after the sternotomy, along with an increase in heart rate and filling pressure. In order to minimize hypertension during this period, nitroglycerin or nicardipine was prophylactically infused. METHODS: Twenty patients scheduled to undergo an off-pump CABG from April to August, 2001, were selected and divided into two groups. Group I (n = 10) received nicardipine and Group II (n = 10) received nitroglycerin. Before the skin incision, nicardipine (0.5 - 1.0ng/kg/min) or nitroglycerin (0.5 - 1.0ng/kg/min) was continuously infused. Mean arterial pressure (MAP), heart rate (HR), mean pulmonary artery pressure (mPAP), pulmonary artery occlusion pressure (PAOP), cardiac index (CI), and the systemic vascular resistance index (SVRI) were repeatedly measured at the stages of preincision, postincision, poststernotomy, pericardium open, and 10 min after reperfusion. RESULTS: Although MAP after the sternotomy was increased compared with preincision, it remained within a normal range. Similarly, HR, mPAP, and PAOP were all within a normal range despite increases. The CI was within a normal range at all stages in both groups, and there were no significant difference between the two groups. In group I, the SVRI was significantly decreased compared with group II when pericardium was opened. CONCLUSIONS: Both nicardipine and nitroglycerin were effective in preventing or attenuating hypertension after sternotomy with the hemodynamic stability.
Arterial Pressure ; Blood Pressure ; Coronary Artery Bypass, Off-Pump* ; Coronary Artery Disease ; Heart ; Heart Rate ; Hemodynamics ; Humans ; Hypertension ; Nicardipine* ; Nitroglycerin* ; Pericardium ; Pulmonary Artery ; Reference Values ; Reperfusion ; Skin ; Sternotomy ; Transplants* ; Vascular Resistance ; Ventricular Dysfunction, Left

BACKGROUND: To reduce massive blood loss during a hepatectomy, many anesthesiologists have used the technique of low central venous pressure maintenance by administration of low dose nitroglycerin (NTG) and/or intravenous fluid reduction. However, so far there have been no studies about local liver perfusion (LLP) changes after hepatic artery (HA) or portal vein (PV) reperfusion in patients receiving nitroglycerin administration. In this study, the changes in hemodynamics and LLP following HA and PV reperfusion along with low dose (2micro gram/kg/min) NTG administration in dogs were observed. METHODS: A total of 20 mongrel dogs were divided into four groups; HA occlusion and reperfusion group (H, n = 5), NTG administration group during the reperfusion on H (H-NTG, n = 5), PV occlusion and reperfusion group (P, n = 5), NTG administration group during the reperfusion on P (P-NTG, n = 5). After femoral and pulmonary arterial catheterization, a midline abdominal incision was made. HA and PV were exposed to clamp and declamp. A thermal diffusion microprobe was inserted in the liver parenchyme to measure LLP. RESULTS: The PV blood flow was not changed after HA occlusion, but HA blood flow increased after PV occlusion. The LLP decreased after HA and PV occlusion. The LLP recovered to the baseline level in group H-NTG after HA reperfusion, but the LLP was more increased compared to the baseline level in group H. In group P, the LLP did not recover after PV reperfusion, but the LLP in group P-NTG recovered to the baseline level after PV reperfusion. CONCLUSIONS: In conclusion, it was observed that the LLP recovered to the baseline level by administration of NTG after PV reperfusion. However, the LLP did not increase after HA reperfusion by administration of low dose NTG.
Animals ; Catheterization ; Catheters ; Central Venous Pressure ; Dogs* ; Hemodynamics* ; Hepatectomy ; Hepatic Artery* ; Humans ; Liver* ; Nitroglycerin* ; Perfusion* ; Portal Vein* ; Reperfusion* ; Thermal Diffusion

In general the appearance of cerebrospinal fluid (CSF) is the most important sign of adequate dura puncture. We experienced an unusual case of spinal failure due to the blockage of a spinal needle hole by a foreign body. After the needle tip penetrated the dura, the stylet was removed, but we could not see a free flow of CSF. We found that a small rubber fragment of the local anesthetic bottle plug was on the spinal needle tip. The reason for this was the aspiration of the local anesthetic with an 18 gauge introductory needle.
Cerebrospinal Fluid ; Foreign Bodies* ; Needles* ; Punctures ; Rubber

BACKGROUND: To visualize adequately the intrathoracic structures, creation of an artificial pneumothorax by carbon dioxide (CO2) insufflation under positive pressures has been advocated during thoracoscopic surgery. We hypothesized that positive-pressure insufflation during thoracoscopy would cause significant hemodynamic and ventilatory compromise. METHODS: Thirty patients underwent general anesthesia with a single lumen endotracheal tube and placement of an arterial line. Noninvasive cardiac output monitoring was done on both the side of the neck and chest. Baseline measurements of hemodynamic indices and arterial blood gas analysis (ABGA) were taken before CO2 insufflation. Data was obtained at 5 minutes after CO2 insufflation. ABGA was taken 5 minutes after CO2 deflation. RESULTS: Insufflation of CO2 resulted in an increase in heart rate (HR), mean arterial pressure (MAP), and systemic vascular resistance index (SVRI). Whereas cardiac index (CI), accelerated contractility index (ACI), PH, and arterial oxygen saturation (SaO2) were decreased. CONCLUSIONS: Positive pressure insufflation of CO2 during thoracoscopy resulted in hemodynamic and arterial blood gas changes. Therefore, we propose that low pressure (< 10 mmHg) insufflation is a safe adjunct to routine thoracoscopic surgical procedures.
Anesthesia, General ; Arterial Pressure ; Blood Gas Analysis ; Carbon Dioxide ; Cardiac Output ; Heart Rate ; Hemodynamics* ; Humans ; Hydrogen-Ion Concentration ; Insufflation* ; Neck ; Oxygen ; Pneumothorax, Artificial ; Thoracoscopy* ; Thorax ; Vascular Access Devices ; Vascular Resistance

Drugs for acute blood pressure control are often required during a cardiovascular operation. Hypertension frequently occurs in an off-pump coronary artery bypass graft. The purpose of this study was to evaluate the effect of nicardipine on hemodynamic change. Twenty adult patients were studied. Anesthesia was induced intravenously with thiopental (4 mg/kg), vecuronium (1 mg/kg), and fentanyl (4microgram/kg), and maintained with 100% O2 and isoflurane 1 1.5 Vol%. When systolic blood pressure rose above 150 mmHg, nicardipine 1 mg was administrated intravenously. Immediately after the nicardipine bolus injection, nicardipine was infused continuously 0.5 4microgram/kg/min. Thereafter, hemodynamic data was recorded. Systolic blood pressure decreased, but cardiac index significantly increased after an intravenous administration of nicardipine and was maintained during the study. There was no incidence of tachycardia. It was concluded that acute blood pressure control using nicardipine could be suitable and safe in patients with an off-pump CABG.
Administration, Intravenous ; Adult ; Anesthesia ; Blood Pressure ; Coronary Artery Bypass, Off-Pump* ; Fentanyl ; Hemodynamics* ; Humans ; Hypertension* ; Incidence ; Isoflurane ; Nicardipine* ; Tachycardia ; Thiopental ; Transplants* ; Vecuronium Bromide

BACKGROUND: We designed this study to examine whether melatonin has a neuroprotective effect against hippocampal neuronal damage following transient global ischemia in a gerbil. Because polyamine is known to participate in the process of ischemic neuronal damage, we examined the influence of melatonin on the polyamine level as well as histology. In particular, we examined the difference between pre- and post-ischemic treatments of melatonin by using the above mentioned parameters. METHODS: Male Mongolian gerbils (60 - 80 g) were used in this study. Transient global ischemia was induced by occlusion of the bilateral common carotid arteries for 3 min with microclips. Melatonin was administered 1 h before or 1 h after occlusion. The animals were dissected 4 days after the occlusion for polyamine measurement by a high performance liquid chromatography (HPLC) and histological evaluation (hematoxylin and eosin staining). A histological examination was performed by a blinded investigator. RESULTS: The hippocampal putrescine (PU) level increased compared to sham-operated animals and the increase of PU was attenuated by melatonin administration (pre- or post-ischemic treatment). Spermidine (SD) and spermine (SM) levels didn't show significant changes after ischemia. Hippocampal neuronal damage in the CA1 region was markedly observed in vehicle-treated animals compared to sham- operated animals. Both pre- and post-ischemic melatonin administration significantly inhibited hippocampal CA1 neuronal damage compared to corresponding vehicle-treated animals (P < 0.01, respectively). CONCLUSIONS: Melatonin attenuates the polyamine response following transient global ischemia and may have putative neuroprotective effects against global ischemia-induced neuronal damage. There is no difference in neuroprotective effects of melatonin between pre- & post-ischemic treatments.
Animals ; Carotid Artery, Common ; Chromatography, Liquid ; Eosine Yellowish-(YS) ; Gerbillinae* ; Humans ; Ischemia* ; Male ; Melatonin* ; Neurons* ; Neuroprotective Agents ; Putrescine ; Research Personnel ; Spermidine ; Spermine

BACKGROUND: A right thoracoscopic thoracic sympathicotomy involves the removal of T2 and T3 sympathetic chains. Since part of the sympathetic fibers to the heart traverse these two ganglia, we examined the hemodynamic changes during a thoracoscopic thoracic sympathicotomy in primary hyperhidrosis. METHODS: Noninvasive cardiac output monitoring was done on the both side of the neck and chest. A physiograph for measuring of continuous blood flow was taken from the right index finger and a thermometer was placed in the right palm. Following endotracheal intubation was done with double lumen endotracheal tube, anesthesia was maintained with isoflurane. Sympathicotomies were done for T2-3 during one lung ventilation. Heart rate (HR), mean arterial pressure (MAP), systemic vascular resistance index (SVRI), cardiac index (CI), accelerated contractility index (ACI), end-diastolic index (EDI), and temperature were recorded at arrival, before sympathicotomy, after sympathicotomy at 1, 2, 3, 4 and 5 minuets. The blood flow of the right index finger was recorded before and after the sympathicotomy. RESULTS: Concurrent with initiation of the sympathicotomy, MAP and SVRI were reduced, but the CI was elevated. It was accompanied with right palmar temperature elevation and an increase in the blood flow of the right index finger. CONCLUSIONS: A thoracoscopic thoracic sympathicotomy reduces MAP and SVRI and elevates CI, palmar temperature, and blood flow. We concluded that the hemodynamic changes during a thoracoscopic thoracic sympathicotomy seems to be the peripheral vasodilatation.
Adrenergic Fibers ; Anesthesia ; Arterial Pressure ; Cardiac Output ; Fingers ; Ganglia ; Heart ; Heart Rate ; Hemodynamics* ; Hyperhidrosis* ; Intubation, Intratracheal ; Isoflurane ; Neck ; One-Lung Ventilation ; Thermometers ; Thorax ; Vascular Resistance ; Vasodilation