Your search keyword '"Embolism, Air complications"' showing total 9 results

1. Cerebral air emboli differentially alter outcome after cardiopulmonary bypass in rats compared with normal circulation.

Author

Jungwirth B, Kellermann K, Blobner M, Schmehl W, Kochs EF, and Mackensen GB

Subjects

Anesthetics, Inhalation administration & dosage, Anesthetics, Inhalation pharmacology, Animals, Cognition, Disease Models, Animal, Dose-Response Relationship, Drug, Male, Motor Activity, Nervous System Diseases etiology, Neuroprotective Agents administration & dosage, Neuroprotective Agents pharmacology, Nitrogen administration & dosage, Postoperative Complications, Rats, Rats, Sprague-Dawley, Survival Analysis, Touch, Xenon administration & dosage, Xenon pharmacology, Cardiopulmonary Bypass, Coronary Circulation, Embolism, Air complications, Intracranial Embolism complications, Pulmonary Circulation

Abstract

Background: Cerebral air emboli (CAE) are thought to contribute to adverse cerebral outcomes following cardiac surgery with cardiopulmonary bypass (CPB). This study was designed to investigate the effect of escalating volumes of CAE on survival and neurologic and histologic outcomes. In addition, the effect of xenon administration during CAE on these outcomes was determined., Methods: With institutional review board approval, four groups were studied (n = 15). In two CPB-CAE groups, rats were subjected to 90 min CPB with 10 repetitively administered CAE. Rats in two sham-CAE groups were also exposed to CAE but not to CPB. Rats were randomly assigned to sequential dose cohorts receiving CAE ranging from 0.2 to 10 microl in a dose-escalating fashion. Groups were further subdivided into xenon (56%) and nitrogen groups. Rats with severe neurologic damage were killed; others were neurologically tested until postoperative day 7, when infarct volumes were determined. Survival and neurologic and histologic outcomes were tested with logistic regression analyses (P < 0.05)., Results: This study demonstrates a dose-dependent relation between CAE volumes and survival, neurologic outcome, and histologic outcome. For all outcomes, CPB adversely affected the dose-effect curves compared with sham-CAE groups (P < 0.05). Xenon demonstrated no impact on either outcome., Conclusions: This study describes the successful incorporation of CAE in a rodent CPB model and allows identifying suitable CAE volumes for subsequent studies. CAE exhibit a differential effect on outcome in rats undergoing CPB versus those not exposed to CPB. Perioperative administration of xenon remained without any effect on outcome.

Published

2007

2. Air embolism during radical cystectomy with ileal conduit urinary diversion.

Author

Nowitz A and Artru AA

Subjects

Aged, Carcinoma, Transitional Cell surgery, Echocardiography, Transesophageal, Embolism, Air complications, Embolism, Air therapy, Humans, Intraoperative Complications therapy, Male, Respiratory Distress Syndrome etiology, Respiratory Distress Syndrome therapy, Urinary Bladder Neoplasms surgery, Cystectomy, Embolism, Air etiology, Intraoperative Complications etiology, Urinary Diversion

Published

2002

3. Incidence of venous air embolism during craniectomy for craniosynostosis repair.

Author

Faberowski LW, Black S, and Mickle JP

Subjects

Child, Embolism, Air complications, Humans, Hypotension complications, Incidence, Monitoring, Intraoperative, Ultrasonography, Craniosynostoses surgery, Embolism, Air diagnostic imaging, Intraoperative Complications diagnostic imaging

Abstract

Background: Investigations to determine the incidence of venous air embolism in children undergoing craniectomy for craniosynostosis repair have been limited, although venous air embolism has been suspected as the cause of hemodynamic instability and sometimes death. A precordial Doppler ultrasonic probe is an accepted method for detection of venous air embolism and is readily available at most institutions., Methods: A prospective study was conducted using a precordial Doppler ultrasonic probe in children undergoing craniectomy for craniosynostosis repair. The Doppler signal was continuously monitored intraoperatively for characteristic changes of venous air embolism. A recording was made of the precordial Doppler probe pulses, which was later reviewed by a neuroanesthesiologist, blinded to the intraoperative events. This information was correlated with the intraoperative events and episodes of venous air embolism were graded., Results: Twenty-three patients were enrolled in the study during the 2-yr study period. Nineteen patients (82.6%) demonstrated 64 episodes of venous air embolism; six patients (31.6%) had hypotension associated with venous air embolism. Thirty-two episodes of hypotension were demonstrated in eight patients (34.7%). None of the patients developed cardiovascular collapse., Conclusion: The incidence of venous air embolism in our study of 23 children undergoing craniectomy for craniosynostosis was 82.6%. Though most episodes of venous air embolism during craniosynostosis repair are without hemodynamic consequences, the preemptive placement of a precordial Doppler ultrasonic probe is a noninvasive, economic, and safe method for the detection of venous air embolism. Prompt recognition may allow for the early initiation of therapy, thereby decreasing morbidity and mortality rates related to venous air embolism.

Published

2000

4. Brain injury after cerebral arterial air embolism in the rabbit as determined by triphenyltetrazolium staining.

Author

Hindman BJ, Dexter F, Subieta A, Smith T, and Cutkomp J

Subjects

Animals, Evoked Potentials, Somatosensory, Rabbits, Staining and Labeling, Brain Diseases etiology, Embolism, Air complications, Intracranial Embolism and Thrombosis complications, Tetrazolium Salts metabolism

Abstract

Background: Microscopic cerebral arterial air embolism (CAAE) occurs commonly during cardiac surgery and causes acute and chronic nonfocal neurologic dysfunction. Nevertheless, most neuroimaging studies do not detect brain injury after cardiac surgery. Using a rabbit model, the authors hypothesized they could detect and quantitate severe brain injury and infarction 24 h after microscopic CAAE using the vital stain triphenyltetrazolium chloride., Methods: Experiments were conducted in methohexital anesthetized New Zealand white rabbits. Surgical shams (n = 5) underwent surgery but had no neurologic insult. Positive controls (n = 3) received 200 microl/kg of intracarotid air. Other animals were randomized to receive either 50 microl/kg intracarotid air, which produces microscopic CAAE (n = 18), or 300 microl intracarotid saline (control, n = 18). Outcomes included somatosensory evoked potential amplitude at 90 min, neurologic impairment score at 4 and 24 h (0 [normal] to 99 [coma]), and percentage of nonstaining brain at 24 h using color-discrimination image analysis. Severely injured or infarcted brain does not stain with triphenyltetrazolium chloride., Results: Surgical shams had little neurologic impairment and a small amount of nonstaining brain at 24 h (5.2 +/- 2.4%; mean +/- SD). Positive controls had profound neurologic impairment and large amounts of nonstaining brain (40-97%). Ninety-minute somatosensory evoked potential amplitude was less in animals receiving 50 microl/kg air versus saline: 38 +/- 28% versus 102 +/- 32%, respectively, P < 1 x 10(-7). Neurologic impairment scores were greater in animals receiving 50 microl/kg air versus saline: at 4 h, 43 +/- 16 versus 23 +/- 9, P < 1 x 10(-7); at 24 h, 24 +/- 12 versus 15 +/- 8, P = 0.013. Nevertheless, there was no difference between 50 microl/kg air and saline in nonstaining brain: 5.5 +/- 2.9% versus 6.8 +/- 5.4%, P = 0.83., Conclusions: Neurologic injury after CAAE is dose-dependent. Although microscopic CAAE causes somatosensory evoked potential abnormalities and neurologic dysfunction, severe cerebral injury or infarction is not present at 24 h. The author's findings are consistent with clinical imaging studies that suggest microscopic CAAE causes neurologic dysfunction even though overt infarction is absent.

Published

1999

5. Scuds, scads, and other air-borne hazards.

Author

Mangano CM

Subjects

Animals, Embolism, Air complications, Intracranial Embolism and Thrombosis complications, Rabbits, Embolism, Air drug therapy, Intracranial Embolism and Thrombosis drug therapy

Published

1997

6. Sudden cardiac arrest during epidural anesthesia: venous air embolism?

Author

Williams EL, Templehoff R, Modica PA, and Jellish WS

Subjects

Humans, Veins, Anesthesia, Epidural adverse effects, Embolism, Air complications, Heart Arrest etiology

Published

1991

7. Venous air embolism, a possible cause of acute pulmonary edema.

Author

Ishak BA, Seleny FL, and Noah ZL

Subjects

Acute Disease, Adolescent, Blood Gas Analysis, Brain Neoplasms surgery, Female, Humans, Meningioma surgery, Positive-Pressure Respiration, Pulmonary Edema therapy, Embolism, Air complications, Pulmonary Edema etiology

Published

1976

8. Pulmonary interstitial edema after multiple venous air emboli.

Author

Perschau RA, Munson ES, and Chapin JC

Subjects

Adult, Blood Gas Analysis, Blood Pressure, Brain Neoplasms surgery, Craniotomy adverse effects, Humans, Male, Neurilemmoma surgery, Pulmonary Circulation, Radiography, Embolism, Air complications, Postoperative Complications diagnostic imaging, Pulmonary Edema diagnostic imaging

Published

1976

9. Pulmonary edema following air embolism.

Author

Still JA Jr, Lederman DS, and Renn WH

Subjects

Adult, Catheterization adverse effects, Humans, Pulmonary Edema diagnostic imaging, Radiography, Veins, Embolism, Air complications, Pulmonary Edema etiology, Pulmonary Embolism complications

Published

1974