Your search keyword '"Chris, Komanapalli"' showing total 2 results

1. The Use of a Miniaturized Circuit and Bloodless Prime To Avoid Cerebral No-Reflow After Neonatal Cardiopulmonary Bypass

Author

Chris Komanapalli, Xiaomang You, Tara Karamlou, Edward J. Hickey, Ross M. Ungerleider, Krista Wehrley, and Tom Person

Subjects

Pulmonary and Respiratory Medicine, medicine.diagnostic_test, business.industry, Ischemia, Inflammation, Hematocrit, Systemic inflammation, medicine.disease, law.invention, Cerebral blood flow, law, Anesthesia, medicine, Cardiopulmonary bypass, Deep hypothermic circulatory arrest, Surgery, medicine.symptom, Cardiology and Cardiovascular Medicine, business, Whole blood

Abstract

Background Our miniaturized bloodless prime circuit for neonatal cardiopulmonary bypass (CPB) has previously been shown to elicit significantly reduced systemic inflammation. We studied the effects of this circuit on cerebral reperfusion because the pathophysiology of "no-reflow" is believed to have an inflammatory component. Methods Twenty neonatal piglets were randomized to CPB with miniaturized circuitry using either blood (group 1) or bloodless (group 2) prime. At 18°C, piglets underwent 60 minutes of either (A) deep hypothermic circulatory arrest (DHCA) or (B) continuous low-flow bypass (DHCLF). Analysis of cerebral blood flow (CBF) was undertaken before and after CPB in addition to quantification of circulating tumor necrosis factor-α (TNFα) and intracerebral TNFα messenger RNA (mRNA). Results The final hematocrit in group 2 was 22% versus 28% ( p p p Conclusions We attribute the hyperemic cerebrovascular response to reduced inflammation through avoiding allogeneic whole blood. The analysis of circulating and intracerebral TNFα in this study suggests that DHCLF in conjunction with a bloodless prime might offer advantages through avoiding ischemia, no-reflow, and in addition, resulting in a significantly reduced cerebral inflammatory response.

Published

2007

2. Hawley H. Seiler Resident Award paper. The use of a miniaturized circuit and bloodless prime to avoid cerebral no-reflow after neonatal cardiopulmonary bypass

Author

Edward, Hickey, Tara, Karamlou, Xiaomang, You, Chris, Komanapalli, Tom, Person, Krista, Wehrley, and Ross, Ungerleider

Subjects

Extracorporeal Circulation, Cardiopulmonary Bypass, Swine, Tumor Necrosis Factor-alpha, Osmolar Concentration, Brain, Arteries, Crystalloid Solutions, Brain Ischemia, Blood, Animals, Newborn, Hypothermia, Induced, Cerebrovascular Circulation, Heart Arrest, Induced, Animals, Gases, RNA, Messenger, Isotonic Solutions

Abstract

Our miniaturized bloodless prime circuit for neonatal cardiopulmonary bypass (CPB) has previously been shown to elicit significantly reduced systemic inflammation. We studied the effects of this circuit on cerebral reperfusion because the pathophysiology of "no-reflow" is believed to have an inflammatory component.Twenty neonatal piglets were randomized to CPB with miniaturized circuitry using either blood (group 1) or bloodless (group 2) prime. At 18 degrees C, piglets underwent 60 minutes of either (A) deep hypothermic circulatory arrest (DHCA) or (B) continuous low-flow bypass (DHCLF). Analysis of cerebral blood flow (CBF) was undertaken before and after CPB in addition to quantification of circulating tumor necrosis factor-alpha (TNFalpha) and intracerebral TNFalpha messenger RNA (mRNA).The final hematocrit in group 2 was 22% versus 28% (p0.05). The CBF fell in every animal in group 1A, but increased in every animal in group 2A (p0.001), despite no overall change in total cardiac output. The use of DHCLF was not associated with pronounced trends in either prime group. Final serum TNFalpha concentrations were significantly higher in group 1B (3166 +/- 843 pg/mL) than group 2B (439 +/- 192 pg/mL; p0.05). Irrespective of the CPB strategy used, the use of a blood prime generated significantly higher levels of intracerebral TNFalpha mRNA.We attribute the hyperemic cerebrovascular response to reduced inflammation through avoiding allogeneic whole blood. The analysis of circulating and intracerebral TNFalpha in this study suggests that DHCLF in conjunction with a bloodless prime might offer advantages through avoiding ischemia, no-reflow, and in addition, resulting in a significantly reduced cerebral inflammatory response.

Published

2005