Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0038454 (stroke)
147,016 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A noninvasive radionuclide study of the paradoxical pulse in pericardial effusion is described. The study shows complementary changes of the right and left ventricular ejection fractions in a patient with paradoxical pulse, supporting the theory that the inspiratory reduction of the left ventricular stroke volume is an immediate and direct result of the inspiratory increase of the right ventricular filling. The technique may be sensitive to detect early paradoxical pulse and cardiac tamponade.
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PMID:Varying ejection fractions of both ventricles in paradoxical pulses: demonstration by radionuclide study. 73 30

Thrombolytic (tissue plasminogen activator) and antithrombotic treatment (heparin and aspirin) were given to a 47-year-old man with an acute type II aortic dissection presenting as an acute anterior myocardial infarction. During treatment he developed cardiac tamponade and an ischaemic stroke. Transoesophageal echocardiography (but not computed tomographies of the chest) revealed the correct diagnosis. After surgical repair (Bentall procedure) there was a complete recovery.
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PMID:Thrombolytic therapy and acute aortic dissection. 144 58

A 20 year old male motorist with multiple injuries, including bilateral lung laceration, developed cardiac tamponade 12 hours after injury. X-ray showed characteristic findings of pneumopericardium with air all around the cardiac silhouette, which was diminished in size. A chest tube was inserted intrapericardially through a subxiphoid incision. Blood pressure increased immediately, and central venous pressure became normal. Cardiac left ventricular stroke work increased by 86% to normal value. The drain was removed after three days. Another patient was a 15 year old male cyclist who had been overrun by a trailer. Left-sided emergency thoracotomy was performed during laparotomy for liver and vena cava injury, in the course of which procedures there was a sudden decrease in blood pressure with marked elevation of the central venous pressure. The pericardium was incised. Air hissed out, leading to normalisation of arterial and venous pressures. Both patients recovered. Pneumopericardium without symptoms may be treated by observation. Tension pneumopericardium is rare and is best treated by open drainage.
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PMID:[Traumatic pneumopericardium with cardiac tamponade]. 152 29

Early diagnosis of postoperative cardiac tamponade is impeded by its clinical similarity to left ventricular failure. Moreover, the hemodynamic changes necessary to diagnose cardiac tamponade are detected by conventional monitoring technique only after clinical compromise. Early signs of cardiac tamponade and left ventricular failure were studied with emphasis on right ventricular function in anesthetized dogs. One group (n = 20) had cardiac tamponade produced by incrementally increasing pericardial pressure (2 to 20 mm Hg), and another group (n = 20) had acute left ventricular failure produced by successive ligation of the anterior descending coronary artery at the lower, middle, and upper thirds. Besides standard hemodynamic measurements, right ventricular function was examined with a rapid-response thermodilution catheter. During cardiac tamponade, cardiac output, right ventricular ejection fraction, right ventricular stroke volume, and right ventricular end-diastolic volume were significantly decreased from baseline values after a pericardial pressure of 8 mm Hg or more (p less than 0.05). Right atrial and pulmonary arterial pressures were not significantly elevated until 14 and 20 mm Hg of pericardial pressure, respectively. Although cardiac function in the left ventricular failure group was reduced after each ligation, right ventricular ejection fraction remained unchanged. This study suggests that right ventricular indices may facilitate earlier diagnosis of cardiac tamponade with greater accuracy.
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PMID:Usefulness of right ventricular indices in early diagnosis of cardiac tamponade. 161 Feb 53

Cardiac tamponade can be a major complication after implantation of the Novacor left ventricular assist system (LVAS). Between 1987 and 1989, 14 patients received an LVAS as a bridge to cardiac transplantation: 3 developed early tamponade (33 +/- 12 hr postoperatively) and 5 were diagnosed with a late tamponade (9.4 +/- 3.2 days postoperatively). One patient had both early and late tamponade. Early tamponade was more common in those with increased perioperative blood loss (5,270 +/- 1,942 ml vs. 1,420 +/- 1,160 ml in other patients, p less than 0.05). Early tamponade was suggested by reduction in mean arterial pressure (74 +/- 1 to 64 +/- 3 mmHg), LVAS output (5 +/- 0.5 to 2.7 +/- 0.7 L/min), LVAS stroke volume (55 +/- 4 to 23 +/- 5 ml), and an increase in central venous pressure (13 +/- 1 to 21 +/- 1 mmHg, p less than 0.05 for all values). Late tamponade was associated with a marked rise in central venous pressure (14 +/- 1 to 22 +/- 2 mmHg, p less than 0.05), with only a mild decrease in LVAS output (4.9 +/- 1 to 3.8 +/- 0.9 L/min) and stroke volume (49 +/- 8 to 36 +/- 3 ml), without a significant change in mean arterial pressure. Two of these five late episodes occurred in patients who were anticoagulated with heparin (PTT 52 and 100 sec), and in one other with warfarin (PT 27 sec, PTT 55 sec); two patients were not on any anticoagulants. Surgical drainage of pericardial effusions, and especially of clotted blood found frequently posterior to the left ventricle in the space created by the LVAS decompressed left ventricle, resulted in an immediate return of all hemodynamic measurements to normal in both early and late tamponade.
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PMID:Early and late tamponade with the Novacor left ventricular assist system. 225 48

Despite recent reports describing survival after cardiac rupture, the effectiveness of circulatory support while awaiting definitive surgical treatment is controversial. To assess the efficacy of volume expansion and pharmacologic support in cardiac tamponade due to cardiac rupture, a model of hemorrhagic cardiac tamponade was developed and treatment with rapid saline infusion and dobutamine was compared with rapid saline infusion alone in 15 closed chest dogs. A right ventricular wound of reproducible size was produced by deflating an aortic valvuloplasty balloon that had previously been passed by way of the internal jugular vein into the pericardial space and through a stab wound in the right ventricular free wall. Hemodynamic values were compared at baseline, during tamponade and after a rapid infusion (1 liter at 100 ml/min) of either saline solution alone or saline solution plus dobutamine (20 micrograms/kg per min). Atrial and pericardial pressures increased significantly in both groups. Mean arterial pressure, cardiac output and stroke volume increased with combined saline and dobutamine infusion to values similar to those at baseline (91 +/- 19%, 114 +/- 43% and 94 +/- 37% of baseline, respectively). In contrast, saline infusion alone caused a small increase in cardiac output but failed to significantly increase mean arterial pressure or stroke volume (76.8 +/- 14.2%, 55 +/- 18% and 51 +/- 17% of baseline, respectively). Combined rapid infusion of saline solution and dobutamine infusion has a more beneficial hemodynamic effect and may be more effective than rapid saline infusion alone in resuscitating patients with hemorrhagic cardiac tamponade due to cardiac rupture.
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PMID:Hemodynamic efficacy of rapid saline infusion and dobutamine versus saline infusion alone in a model of cardiac rupture. 225 61

To evaluate the effects of high-frequency jet ventilation (HFJV) (f = 60, 120 breaths/min) and conventional mechanical ventilation (CMV) (f = 10, 20) during equivalent conditions of cardiac tamponade, stroke index (SI), intrapericardial pressure (IPP), airway pressure (P(aw)), and cardiac pressures were measured in anesthetized, paralyzed, chest-closed dogs with the same levels of PaCO2. Cardiac tamponade was produced by infusing normal saline into the intrapericardial space to increase IPP to either 8 mm Hg (group 1, n = 8) or 12 mm Hg (group 2, n = 8). Stroke index in group 1 was 7.3 +/- 0.8 during CMV (f = 10), 8.1 +/- 0.7 during CMV (f = 20), 10.9 +/- 1.4 during HFJV (f = 60), and 10.7 +/- 1.2 (mL.beat-1.m-2) during HFJV (f = 120). Stroke index in group 2 was 4.1 +/- 0.7, 5.1 +/- 0.5, 7.2 +/- 0.5, and 6.7 +/- 0.5 (mL.beat-1.m-2), respectively. In both IPP groups, stroke index values during HFJV were significantly higher than during CMV; however, there were no significant differences in mean left and right atrial transmural pressures between HFJV and CMV. Peak IPP, mean P(aw), and peak P(aw) during HFJV were significantly lower than those during CMV. The results indicate that HFJV with lower mean and peak Paw, and with lower mean and peak IPP, can result in higher cardiac output than CMV in cardiac tamponade. Thus, HFJV may be superior to CMV in the clinical management of cardiac tamponade.
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PMID:Efficacy of high-frequency jet ventilation in cardiac tamponade. 231 80

Whether cardiac tamponade causes myocardial ischemia and whether volume resuscitation can improve coronary perfusion pressure and myocardial blood flow were studied by hemodynamic responses to three blood infusions of 15 ml/kg in dogs with left ventricular hypovolemia produced by cardiac tamponade (N = 10) or hemorrhage (N = 10). Coronary perfusion pressure decreased to 37 +/- 2 mm Hg with tamponade and 39 +/- 1 mm Hg with hemorrhage, causing significant blood flow decreases in both ventricles. Myocardial oxygen extraction increased significantly in both groups without affecting lactate extraction. Volume resuscitation after hemorrhage progressively restored hemodynamic variables to baseline values. Volume resuscitation after tamponade did not increase stroke volume, whereas it increased coronary sinus pressure to 19.2 +/- 1.0 mm Hg (p less than 0.05). Coronary perfusion pressure increased to 53 +/- 5 mm Hg following the first infusion (p less than 0.05), but exhibited no further improvement. Tamponade did not produce myocardial ischemia. Coronary perfusion pressure and blood flow were not restored to baseline values with volume resuscitation since coronary sinus pressure rose incrementally with each volume infusion.
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PMID:Efficacy of intravascular volume resuscitation in dogs with acute cardiac tamponade. 337 80

It has been postulated that in cardiac tamponade, the hemodynamic effects of compression of the right heart chambers and great veins are more important than are the effects of left heart compression. In 10 anesthetized dogs with surgically compartmented pericardium, the hemodynamic effects of right atrial and right ventricular compression were compared with the hemodynamic effects of left atrial and left ventricular compression. The effects of right heart compression, left heart compression, and then effects of combined right and left heart compression, were compared at three levels of intrapericardial pressure: 10, 15 and 20 mm Hg. Aortic mean pressure decreased significantly at each level of intrapericardial pressure with right-sided tamponade but not with left-sided tamponade. Left atrial mean pressures decreased significantly with right-sided tamponade and increased with left-sided and combined tamponade. Right atrial mean pressures increased significantly with right-sided and combined tamponade, but not with left-sided tamponade. Heart rate increased significantly with each of the three varieties of tamponade. Cardiac output and stroke volume, which decreased with each variety of tamponade, were significantly lower during right-sided than during left-sided tamponade. Combined tamponade lowered stroke volume more than did right-sided tamponade, and lowered cardiac output more at 15 and 20 mm Hg intrapericardial pressure. It is concluded that, in this preparation, right-sided cardiac compression has more important hemodynamic effects than does left-sided compression. However, left-sided tamponade still makes a significant contribution to the total hemodynamic picture of cardiac tamponade.
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PMID:Cardiac tamponade: a comparison of right versus left heart compression. 337 3

In clinical cardiac tamponade, open-catheter intrapericardial pressure (IPP) may be used to estimate left ventricular transmural filling pressure (TMFP). However, it has been suggested recently that right atrial pressure (RAP) is superior to IPP in assessing true extracardiac pressure during pericardial drainage. In 10 patients with subacute cardiac tamponade, pulmonary wedge pressure (PWP), RAP, and IPP were measured along with indexes of systolic function. To test the relative merits of IPP and RAP in assessing true pericardial pressure, three TMFP estimates were analyzed: TMFP1 = (PWP - IPP); TMFP2 = (PWP - 1/3 RAP - 2/3 IPP); and TMFP3 = (PWP - RAP). An accurate TMFP presumably should increase during pericardiocentesis and correlate with left ventricular stroke work. In addition, to test the role of preload variation in pulsus paradoxus, respiratory variation in TMFP was analyzed. In the initial tamponade state, RAP and IPP were essentially equal, so all three TMFP estimates gave equivalent results. For instance, TMFP1 averaged 4 +/- 2 mm Hg but fell to 0.2 +/- 1.3 mm Hg during inspiration (p less than .001 vs expiration) and showed beat-by-beat correlation with pulse arterial pressure. After intermediate pericardiocentesis (280 +/- 160 ml), the IPP of 6 +/- 3 mm Hg fell significantly below the RAP of 10 +/- 3 mm Hg (p less than .001), but with a 570 +/- 320 ml residual effusion suggesting continued IPP measurement accuracy. By complete pericardiocentesis (810 +/- 430 ml) there was a significant increase in TMFP1 to 8 +/- 4 mm Hg (p less than .05 vs tamponade) but not in the TMFP3 of 1 +/- 3 mm Hg. Encompassing tamponade and pericardiocentesis data, left ventricular stroke work index showed positive correlation with TMFP1 (r = .59) and TMFP2 (r = .52) but not with TMFP3. Thus cardiac tamponade often may be diagnosed with a TMFP averaging well above zero, and diastolic equalization of PWP, RAP, and IPP may be a predominantly inspiratory finding ("inspiratory tracking"). This supports the role of preload variation in the genesis of pulsus paradoxus. On the other hand, true pericardial pressure may fall substantially below RAP in the course of pericardial drainage. This may be reconciled with the concept that normal pericardial pressure nearly equals RAP by hypothesizing an increased pericardial capacity in subacute tamponade so that pericardiocentesis produces a state analogous to removal of normal pericardial constraint.
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PMID:Ventricular performance related to transmural filling pressure in clinical cardiac tamponade. 356 11


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