AIMTo introduce a new device and catheter to be determining cardiac output through cor sinistrum with thermodilution.

METHODSOwn control was introduced in eight dogs. A pulmonary thermodilution catheter was used through the cor dextrum of the dogs; The new-design catheter was used through artery, and there were two situs to fix:its ahead in left atrium and the ahead near to aortic root. Determine cardiac output (CO) under four circumstances: controlled respiration, apnoea, in controlled hypotension, after controlled hypotension.

RESULTSThere was no significant difference among the parameters (CO and cardiac index) of all circumstances. The CO determined by the pulmonary thermodilution catheter and those by the new-design catheter in two situs were positive correlation, and the gamma were 0.986, 0.989; likewise, the cardiac index (CI) was positive correlation, and the gamma were 0.983, 0.985. The CO and CI by the new-design catheter between two situs were positive, and the gamma were 0.992, 0.988.

CONCLUSIONThe parameters by the new-design catheter and those by the pulmonary thermodilution catheter were concordant. In comparison with the pulmonary thermodilution catheter, the new-design catheter had simple device and could be easily operated.

Animals ; Cardiac Output ; physiology ; Catheterization, Swan-Ganz ; instrumentation ; Dogs ; Thermodilution ; methods

Congenital pulmonary vein stenosis is a rare cardiac malformation with a poor prognosis and is not easy to diagnose, because symptoms emerge in infants accompanying progressively worsening pulmonary hypertension. A nine-month-old infant visited our hospital due to recurrent respiratory infections and hemoptysis. He was diagnosed with congenital pulmonary vein stenosis by cardiac catheterization. Cardiac catheterization findings revealed that two pulmonary veins were stenotic and one pulmonary vein was occluded. Pulmonary artery catheterization showed the evidence of severe pulmonary hypertension with a mean pulmonary artery pressure of 55 mmHg and a pulmonary artery wedge pressure of 30 mmHg. Due to the aggravation of pulmonary hypertension symptoms, we performed sutureless pericardial marsupialization to reduce the obstruction and the restenosis, but he died a week. In cases of infants with recurrent hemoptysis, we should rule out congenital pulmonary vein stenosis.
Cardiac Catheterization ; Cardiac Catheters ; Catheterization, Swan-Ganz ; Constriction, Pathologic* ; Hemoptysis* ; Humans ; Hypertension, Pulmonary ; Infant* ; Prognosis ; Pulmonary Artery ; Pulmonary Veins* ; Pulmonary Wedge Pressure ; Respiratory Tract Infections

BACKGROUND: In the management of liver transplantation, massive blood loss, interruption of venous retum to the heart, sudden infusion of acidic, cold and hyperkalemic blood from the graft, and uses of inotropic and vasoactive agents make cardiac output (CO) change unpredictably. We tried to find convenient method to estimate the change of CO by mixed venous oxygen saturation (SvO2) which can be monitored by pulmonary artery catheterization with fiberoptic oximeter using a spectrophotometer, By adapting the equation of oxygen transport and oxygen consumption(VO2), the equation CO=V/O2(Hbx0.134)x1/(SaO2-SvO2) can be obtained. If we assume the VO2 and hemoglobin concentration is constant and hypoxemia is excluded, CO might be proportional to I/(100-Sv O2). METHOD: For the management of orthotopic liver transplantations in 5 mongrel dogs, we continuously monitored Sv O2 with fiberoptic pulmonary catheter and intermittently measured the CO by thermodilution method according to operative phases. The Pearsons correlation coefficients between CO and mean arterial pressure, CO and S vO. and CO and 1/(100 SvO2) were measured in each dog. RESULT: The correlation coefficients between CO and 1/(100 SvO2) are raging from 0.74 to 0.98 with a corrected mean of 0.847 and significant in all dogs (p<0.05), and the correlation coefficients between CO and SvO2 are ranging from 0.67 to 0.96 with a corrected means of 0.786 and significant in 4 of 5 dogs. CONCLUSIONS: For the management of liver transplantation, the continuous monitoring of mixed venous oxygen saturation by a fiberoptic pulmonary catheter is helpful to detect changes of cardiac output.
Animals ; Anoxia ; Arterial Pressure ; Cardiac Output* ; Catheterization, Swan-Ganz ; Catheters ; Dogs* ; Heart ; Liver Transplantation* ; Liver* ; Oxygen* ; Rage ; Thermodilution ; Transplants

The purposes of central venous catheterization (CVC) are as followings, central venous pressure monitoring, pulmonary artery catheterization and monitoring, transvenous cardiac pacing, temporary hemodialysis, drug administration, rapid infusion of fluids, aspiration of air embolism. Various complications may occur during CVC, such as hematoma, pneumothorax, hemothorax, hydrothorax, chylothorax, nerve and artery injury, air embolism, thromboembolism, arrhythmia, heart block, cardiac tamponade, and tracheal puncture. In Korea, several complications have been reported after CVC, such as pneumothorax, hemothorax, hemomediastinum, cardiac tamponade and tracheal puncture. However, there has been no report about the knotting of J-guide wire during the CVC. We report a case of J-guide wire knotting during central venous catheterization.
Arrhythmias, Cardiac ; Arteries ; Cardiac Tamponade ; Catheterization, Central Venous* ; Catheterization, Swan-Ganz ; Central Venous Catheters* ; Central Venous Pressure ; Chylothorax ; Embolism, Air ; Heart Block ; Hematoma ; Hemothorax ; Hydrothorax ; Korea ; Pneumothorax ; Punctures ; Renal Dialysis ; Thromboembolism

Blunt trauma of the chest and abdomen frequently result in cardiac injury. We experienced a 47 year-old male patient of myocardial contusion with aortic insufficiency after blunt chest trauma. On the secondd day after admission, the patient developed sudden hypoxemia and wide pulse pressure. A pulmonary arterial catheter was inserted and initial cardiac output and pulmonary capillary wedge pressure was 3.56 L/min/m(2) and 32 mmHg, respectively. There was akinesia of the anterior septum, anterior wall, inferior wall and inferior septum with aortic regurgitation(I/IV), and the ejection fraction was 25% on echocardiogram. Myocardial contusion with valvular injury was suspected. Dobutamine infusion was started and after five days the pulmonary capillary wedge pressure was decreased to 14 mmHg. The ejection fraction was increased to 69% in spite of decreasing dobutamine but aortic regurgitation(II/VI) remained. Therefore echocardiogram and pulmonary artery catheterization will be helpful to diagnose suspected cardiac contusion and for better outcome.
Abdomen ; Anoxia ; Blood Pressure ; Cardiac Output ; Catheterization, Swan-Ganz ; Catheters ; Contusions ; Dobutamine ; Heart ; Humans ; Male ; Middle Aged ; Pulmonary Wedge Pressure ; Thorax*

BACKGROUNDFor patients undergoing off-pump coronary artery bypass grafting (OPCABG), it is important to establish a hemodynamic monitoring system to obtain powerful parameters for better intraoperative treatment. This study aimed to observe the clinical feasibility of arterial pressure-based cardiac output (APCO) for cardiac output (CO) monitoring and to evaluate the correlation between APCO and pulmonary artery catheter (PAC) for CO measurement for patients undergoing OPCABG intraoperatively.

METHODSFifty patients of American Society of Anaesthesiologists (ASA) classification II-III, undergoing elective OPCABG at Beijing Anzhen Hospital were randomly enrolled into this study. All patients were assigned to CO monitoring by PAC and APCO simultaneously. Patients with pacemaker, severe valvular heart disease, left ventricular ejection fraction (EF) < 40%, cardiac arrhythmias, peripheral vascular disease, application of intra-aortic balloon pump (IABP) and emergent diversion to cardiac pulmonary bypass were excluded. The radial artery waveform was analyzed to estimate the stroke volume (SV) and heart rate (HR) continuously. CO was calculated as SV ' HR; other derived parameters were cardiac index (CI), stroke volume index (SVI), systemic vascular resistance (SVR), and systemic vascular resistance index (SVRI). PAC was placed via right internal jugular vein and the correct position was confirmed by PAC waveforms. Continuous cardiac output (CCO), CI and other hemodynamic parameters were monitored at following 5 time points: immediate after anesthesia induction (baseline value), anastomosis of left internal mammary artery to left anterior descending artery (LAD), anastomosis of left circumflex (LCX), anastomosis of posterior descending artery (PDA) and immediate after sternal closure.

RESULTSIn the 50 patients, preoperative echocardiography measured left ventricular EF was (52.8 ± 11.5)%, and 35 patients (70%) showed regional wall motion abnormalities. The correlation coefficient of CO monitored by APCO and PAC were 0.70, 0.59, 0.78, 0.74 and 0.85 at each time point. The bias range of CI monitored from both APCO and PAC were (0.39 ± 0.06) L×min(-1)×m(-2), (0.48 ± 0.12) L×min(-1)×m(-2), (0.26 ± 0.06) L×min(-1)×m(-2), (0.27 ± 0.06) L×min(-1)×m(-2), (0.30 ± 0.05) L×min(-1)×m(-2) at each time point. The results of SVR by two hemodynamic monitoring techniques had good correlation during OPCABG. The variation trends of SVR were opposite comparing with the results of CO. SVR collected from PAC obtained the highest value of (1220.0 ± 254.0) dyn×s×cm(-5) at PDA anastomosis, but the highest value obtained from APCO was (1206.0 ± 226.5) dyn×s×cm(-5) in LCX anastomosis.

CONCLUSIONSAPCO is feasible in hemodynamic monitoring for patients undergoing OPCABG. The results of hemodynamic monitoring derived from APCO and PAC are closely correlated. Its characterizations of timely, accurate and continuous display of hemodynamic parameters are also obviously demonstrated in the present study.

Aged ; Arterial Pressure ; physiology ; Cardiac Output ; physiology ; Catheterization, Swan-Ganz ; methods ; Coronary Artery Bypass ; methods ; Female ; Hemodynamics ; Humans ; Male ; Middle Aged ; Monitoring, Intraoperative ; methods

OBJECTIVETo investigate the clinical value of global end-diastolic volume (GEDV) and intrathoracic blood volume (ITBV) in perioperative monitoring of the cardiac preload in patients undergoing orthotopic liver transplantations (OLT).

METHODSEight ASA III or IV patients aged 42-50 years undergoing OLT without venovenous bypass under general anesthesia were enrolled in this study. Before the induction, a thermodilution femoral artery catheter was inserted into the femoral artery under local anesthesia and connected to a PiCCOplus system to monitor ITBV and GEDV. A CCO catheter was inserted into the right internal jugular vein to monitor the pulmonary artery obstruction pressure (PAOP), central venous press (CVP) and stroke volume (SVPAC). Anesthesia was induced with a combination of midazolam (0.1 mg/kg), propofol (1 mg/kg) and fentanyl (3 microg/kg). Pipecuronium (0.1 mg/kg) was given to facilitate naso-endotracheal intubation. Before anesthesia (T0) and at 10 min before the anhepatic phase (T1), 10 min after anhepatic phase (T2), 10 min after neohepatic phase (T3) and at the end of surgery (T4), all the TPTD and CCO parameters were measured by injecting 10 ml cold saline solution (below 8 degrees celsius;) via the distal port of the central venous catheter.

RESULTSITBV and GEDV at T2 were significantly lower than those at T0, T1, T3 and T4 (P<0.05). SVPAC at T2 was dramatically decreased compared with that at T0 and T1 (P<0.05). The changes in the pressure preload parameters of the pulmonary artery catheter (PAOP and CVP) did not correlate to the changes in SVPAC, whereas the changes in the volume preload parameters (ITBV and GEDV) of the TPTD was significantly correlated to the changes in SVPAC (P<0.01). PAOP and CVP did not correlate to the changes in ITBV and GEDV.

CONCLUSIONITBV and GEDV are more reliable than PAOP and CVP in perioperative monitoring of the cardiac preload in patients undergoing OLT.

Adult ; Blood Volume ; Cardiac Output ; Catheterization, Swan-Ganz ; Central Venous Pressure ; Female ; Humans ; Liver Transplantation ; methods ; Male ; Middle Aged ; Monitoring, Intraoperative ; Stroke Volume ; Thermodilution

Hemodynamic monitoring is an essential element in the management of perioperative patients. In addition, anesthesiologists routinely used blood pressure (invasive or non invasive), heart rate, urinary output and central venous pressure as monitoring modalities. Esophageal doppler monitoring, as a minimally invasive hemodynamic assessment tool, has a good correlation with pulmonary artery catheterization in measuring cardiac output. We experienced a case of concealed retroperitoneal hemorrhage in a patient who underwent a laparoscopic subtotal gastrectomy. When surgeons tried to close trocar sites, the patient's blood pressure dropped rapidly. At laparoscopy, we could not find gross bleeding. However, we could detect hypovolemia by esophageal doppler monitoring (CardioQ, Deltex(TM), UK). The procedure was converted to open laparotomy. Thereafter, we could find retroperitoneal hemorrhage, and vascular repair was done successfully. The patient recovered without any other complications.
Blood Pressure ; Cardiac Output ; Catheterization, Swan-Ganz ; Central Venous Pressure ; Gastrectomy ; Heart Rate ; Hemodynamics ; Hemorrhage ; Humans ; Hypovolemia ; Laparoscopy ; Laparotomy ; Surgical Instruments

To evaluate effects of IPV (Intrapulmonary Percussive Ventilation) on cardiopulmonary hemodynamics and oxygenation, we compared IPV with conventional IPPV (Intermittent Positive Pressure Ventilation} in eight mongrel dogs. After Swan-Ganz catheterization and femoral arterial cannulation, we applied IPPU and IPV for 30 minutes respectively at random order. There were no significant differences in cardiac output (CO), heart rate (HR), mean arterial pressure (MAP), vascular resistance (VR), pulmonary capillary wedge pressure (PCWP), rate pressure product (RPP), coronary perfusion pressure (CPP) and oxygenation-reflecting parameters such as AaDO2, oxygen flux and oxygen consumption (VO2) between IPPV and IPV. A slight increase of diastolic pulmonary arterial pressure (PAP) resulted in increase of pulmonary perfusion pressure (PPP). IPV increases left and right ventricular stroke work index which might be related to slight metabolic acidosis and a little deficient ventilation during IPV. We can conclude that IPV is safe and good in cardiopulmonary hemodynamics and tissue oxygena-tion in dogs, but its better to be cautious in ventilation during IPV.
Acidosis ; Animals ; Arterial Pressure ; Cardiac Output ; Catheterization ; Catheterization, Swan-Ganz ; Dogs* ; Heart Rate ; Hemodynamics* ; Intermittent Positive-Pressure Ventilation ; Oxygen Consumption ; Oxygen* ; Perfusion ; Pulmonary Wedge Pressure ; Stroke ; Vascular Resistance ; Ventilation*

PURPOSE: To investigate the accuracy, precision and validity of fever detection of tympanic membrane (TM), temporal artery (TA) and axillary temperature (AT) compared with pulmonary artery temperature (PA). METHODS: Repeated-measures design was conducted for one year on 83 adult cardiac care unit patients with pulmonary artery catheters after open heart surgery. Sequential temperature measurements were taken three times at 20-minute intervals. Accuracy, precision, repeatability, and validity of fever detection were analyzed. RESULTS: Mean pulmonary artery temperature was 37.04degrees C (SD 0.70degrees C). The mean (SD) offsets from PA, with the mean reflecting accuracy and SD reflecting precision, were -1.31degrees C (0.75degrees C) for TA, -0.20degrees C (0.24degrees C) for TM, and -0.97degrees C (0.64degrees C) for AT. Percentage of pairs with differences within +/-0.5degrees C was 9.6% for TA, 19.7% for AT, and 91.6% for TM. Repeated measurements with all three methods had mean SD values within 0.04degrees C. Sensitivity, specificity, and positive and negative predictive values of tympanic measurements were 0.76, 1.0, and 1.0, and 0.90, respectively. CONCLUSION: Results show that TM best reflects PA, and is most consistent, accurate, and precise. AT tends to underestimate PA, and TA is least accurate and precise. Therefore tympanic membrane measurement is a reliable alternative to other non-invasive methods of measuring temperatures.
Aged ; Axilla/physiology ; Body Mass Index ; *Body Temperature ; Cardiac Care Facilities ; Catheterization, Swan-Ganz ; Female ; Fever/*diagnosis ; Heart Diseases/surgery ; Humans ; Male ; Middle Aged ; Pulmonary Artery/physiology ; Temporal Arteries/physiology ; Thermometers ; Tympanic Membrane/physiology