Impact of Pump Flow Rate During Selective Cerebral Perfusion on Cerebral Hemodynamics and Metabolism

Background Although hypothermic selective cerebral perfusion (SCP) is widely used for cerebral protection during aortic surgery, little is known about the ideal pump-flow management during this procedure. This study explored cerebral hemodynamics and metabolism at two different flow rates. Methods F...

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Veröffentlicht in:	The Annals of thoracic surgery 2010-12, Vol.90 (6), p.1975-1984
Hauptverfasser:	Haldenwang, Peter L., MD, Strauch, Justus T., MD, Amann, Igor, Klein, Tobias, Sterner-Kock, Anja, PhD, Christ, Hildegard, Wahlers, Thorsten, MD
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Sprache:	eng
Schlagworte:	Animals Aorta, Thoracic - surgery Brain - metabolism Cardiopulmonary Bypass - methods Cardiothoracic Surgery Cerebrovascular Circulation - physiology Disease Models, Animal Female Hypothermia, Induced - methods Intracranial Pressure - physiology Intraoperative Care - methods Oxygen Consumption Perfusion - methods Regional Blood Flow - physiology Stroke - prevention & control Surgery Swine Vascular Resistance - physiology Vascular Surgical Procedures - methods
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container_end_page	1984
container_issue	6
container_start_page	1975
container_title	The Annals of thoracic surgery
container_volume	90
creator	Haldenwang, Peter L., MD Strauch, Justus T., MD Amann, Igor Klein, Tobias Sterner-Kock, Anja, PhD Christ, Hildegard Wahlers, Thorsten, MD
description	Background Although hypothermic selective cerebral perfusion (SCP) is widely used for cerebral protection during aortic surgery, little is known about the ideal pump-flow management during this procedure. This study explored cerebral hemodynamics and metabolism at two different flow rates. Methods Fourteen pigs (33 to 38 kg) were cooled on cardiopulmonary bypass to 25°C. After 10 minutes of hypothermic circulatory arrest, the animals were randomly assigned to 60 minutes of SCP at two different pump flow rates: 8 mL · kg −1 · min −1 (n = 7) and 18 mL · kg −1 · min −1 (n = 7). Microspheres were injected at baseline, coolest temperature, and at 5, 15, 25, and 60 minutes of SCP to calculate cerebral blood flow, cerebral vascular resistance, metabolic rate, and intracranial pressure. Results Cerebral blood flow decreased during cooling to 41% of the baseline value (from 57 ± 10 to 23 ± 4 mL · min −1 · 100 g −1 ). It recovered during the initial 15 minutes of SCP, showing a significantly higher increase ( p = 0.017) at high-flow versus low-flow perfusion (139 ± 41 versus 75 ± 22 mL · min −1 · 100 g −1 ). After 60 minutes of SCP the cerebral blood flow almost returned to baseline values in the low-flow group (43 ± 25 mL · min −1 · 100 g −1 ), but showed an unexpected decrease (30 ± 7 mL · min −1 · 100 g −1 ) in the high-flow group. The highest regional cerebral blood flow was seen in the cortex (66 ± 12 mL · min −1 · 100 g −1 ), followed by the cerebellum (63 ± 12 mL · min −1 · 100 g −1 ), the pons (51 ± 17 mL · min −1 · 100 g −1 ), and the hippocampus (36 ± 9 mL · min −1 · 100 g −1 ). Intracranial pressure increased from 11 ± 3 to 13 ± 5 mm Hg during cooling on cardiopulmonary bypass. During low-flow SCP, it stayed stable at baseline values, whereas high-flow perfusion resulted in significantly higher intracranial pressures (17 ± 3 mm Hg; p = 0.001). Changes in cerebral vascular resistance and metabolic rate showed no significant differences between the groups. Conclusions High-flow SCP provides no benefit during long-term SCP at 25°C. Higher cerebral blood flow during the initial SCP period leads to cerebral edema, with no profit in metabolic rate.
doi_str_mv	10.1016/j.athoracsur.2010.06.111
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This study explored cerebral hemodynamics and metabolism at two different flow rates. Methods Fourteen pigs (33 to 38 kg) were cooled on cardiopulmonary bypass to 25°C. After 10 minutes of hypothermic circulatory arrest, the animals were randomly assigned to 60 minutes of SCP at two different pump flow rates: 8 mL · kg −1 · min −1 (n = 7) and 18 mL · kg −1 · min −1 (n = 7). Microspheres were injected at baseline, coolest temperature, and at 5, 15, 25, and 60 minutes of SCP to calculate cerebral blood flow, cerebral vascular resistance, metabolic rate, and intracranial pressure. Results Cerebral blood flow decreased during cooling to 41% of the baseline value (from 57 ± 10 to 23 ± 4 mL · min −1 · 100 g −1 ). It recovered during the initial 15 minutes of SCP, showing a significantly higher increase ( p = 0.017) at high-flow versus low-flow perfusion (139 ± 41 versus 75 ± 22 mL · min −1 · 100 g −1 ). After 60 minutes of SCP the cerebral blood flow almost returned to baseline values in the low-flow group (43 ± 25 mL · min −1 · 100 g −1 ), but showed an unexpected decrease (30 ± 7 mL · min −1 · 100 g −1 ) in the high-flow group. The highest regional cerebral blood flow was seen in the cortex (66 ± 12 mL · min −1 · 100 g −1 ), followed by the cerebellum (63 ± 12 mL · min −1 · 100 g −1 ), the pons (51 ± 17 mL · min −1 · 100 g −1 ), and the hippocampus (36 ± 9 mL · min −1 · 100 g −1 ). Intracranial pressure increased from 11 ± 3 to 13 ± 5 mm Hg during cooling on cardiopulmonary bypass. During low-flow SCP, it stayed stable at baseline values, whereas high-flow perfusion resulted in significantly higher intracranial pressures (17 ± 3 mm Hg; p = 0.001). Changes in cerebral vascular resistance and metabolic rate showed no significant differences between the groups. Conclusions High-flow SCP provides no benefit during long-term SCP at 25°C. Higher cerebral blood flow during the initial SCP period leads to cerebral edema, with no profit in metabolic rate.</description><identifier>ISSN: 0003-4975</identifier><identifier>EISSN: 1552-6259</identifier><identifier>DOI: 10.1016/j.athoracsur.2010.06.111</identifier><identifier>PMID: 21095348</identifier><language>eng</language><publisher>Netherlands: Elsevier Inc</publisher><subject>Animals ; Aorta, Thoracic - surgery ; Brain - metabolism ; Cardiopulmonary Bypass - methods ; Cardiothoracic Surgery ; Cerebrovascular Circulation - physiology ; Disease Models, Animal ; Female ; Hypothermia, Induced - methods ; Intracranial Pressure - physiology ; Intraoperative Care - methods ; Oxygen Consumption ; Perfusion - methods ; Regional Blood Flow - physiology ; Stroke - prevention & control ; Surgery ; Swine ; Vascular Resistance - physiology ; Vascular Surgical Procedures - methods</subject><ispartof>The Annals of thoracic surgery, 2010-12, Vol.90 (6), p.1975-1984</ispartof><rights>The Society of Thoracic Surgeons</rights><rights>2010 The Society of Thoracic Surgeons</rights><rights>Copyright © 2010 The Society of Thoracic Surgeons. Published by Elsevier Inc. All rights reserved.</rights><lds50>peer_reviewed</lds50><woscitedreferencessubscribed>false</woscitedreferencessubscribed><citedby>FETCH-LOGICAL-c526t-c00bee9da608b350d6a544a5057f7aa9e478c7b8da68d8a0224b87ebd241f1633</citedby><cites>FETCH-LOGICAL-c526t-c00bee9da608b350d6a544a5057f7aa9e478c7b8da68d8a0224b87ebd241f1633</cites></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>314,776,780,27901,27902</link.rule.ids><backlink>$$Uhttps://www.ncbi.nlm.nih.gov/pubmed/21095348$$D View this record in MEDLINE/PubMed$$Hfree_for_read</backlink></links><search><creatorcontrib>Haldenwang, Peter L., MD</creatorcontrib><creatorcontrib>Strauch, Justus T., MD</creatorcontrib><creatorcontrib>Amann, Igor</creatorcontrib><creatorcontrib>Klein, Tobias</creatorcontrib><creatorcontrib>Sterner-Kock, Anja, PhD</creatorcontrib><creatorcontrib>Christ, Hildegard</creatorcontrib><creatorcontrib>Wahlers, Thorsten, MD</creatorcontrib><title>Impact of Pump Flow Rate During Selective Cerebral Perfusion on Cerebral Hemodynamics and Metabolism</title><title>The Annals of thoracic surgery</title><addtitle>Ann Thorac Surg</addtitle><description>Background Although hypothermic selective cerebral perfusion (SCP) is widely used for cerebral protection during aortic surgery, little is known about the ideal pump-flow management during this procedure. This study explored cerebral hemodynamics and metabolism at two different flow rates. Methods Fourteen pigs (33 to 38 kg) were cooled on cardiopulmonary bypass to 25°C. After 10 minutes of hypothermic circulatory arrest, the animals were randomly assigned to 60 minutes of SCP at two different pump flow rates: 8 mL · kg −1 · min −1 (n = 7) and 18 mL · kg −1 · min −1 (n = 7). Microspheres were injected at baseline, coolest temperature, and at 5, 15, 25, and 60 minutes of SCP to calculate cerebral blood flow, cerebral vascular resistance, metabolic rate, and intracranial pressure. Results Cerebral blood flow decreased during cooling to 41% of the baseline value (from 57 ± 10 to 23 ± 4 mL · min −1 · 100 g −1 ). It recovered during the initial 15 minutes of SCP, showing a significantly higher increase ( p = 0.017) at high-flow versus low-flow perfusion (139 ± 41 versus 75 ± 22 mL · min −1 · 100 g −1 ). After 60 minutes of SCP the cerebral blood flow almost returned to baseline values in the low-flow group (43 ± 25 mL · min −1 · 100 g −1 ), but showed an unexpected decrease (30 ± 7 mL · min −1 · 100 g −1 ) in the high-flow group. The highest regional cerebral blood flow was seen in the cortex (66 ± 12 mL · min −1 · 100 g −1 ), followed by the cerebellum (63 ± 12 mL · min −1 · 100 g −1 ), the pons (51 ± 17 mL · min −1 · 100 g −1 ), and the hippocampus (36 ± 9 mL · min −1 · 100 g −1 ). Intracranial pressure increased from 11 ± 3 to 13 ± 5 mm Hg during cooling on cardiopulmonary bypass. During low-flow SCP, it stayed stable at baseline values, whereas high-flow perfusion resulted in significantly higher intracranial pressures (17 ± 3 mm Hg; p = 0.001). Changes in cerebral vascular resistance and metabolic rate showed no significant differences between the groups. Conclusions High-flow SCP provides no benefit during long-term SCP at 25°C. Higher cerebral blood flow during the initial SCP period leads to cerebral edema, with no profit in metabolic rate.</description><subject>Animals</subject><subject>Aorta, Thoracic - surgery</subject><subject>Brain - metabolism</subject><subject>Cardiopulmonary Bypass - methods</subject><subject>Cardiothoracic Surgery</subject><subject>Cerebrovascular Circulation - physiology</subject><subject>Disease Models, Animal</subject><subject>Female</subject><subject>Hypothermia, Induced - methods</subject><subject>Intracranial Pressure - physiology</subject><subject>Intraoperative Care - methods</subject><subject>Oxygen Consumption</subject><subject>Perfusion - methods</subject><subject>Regional Blood Flow - physiology</subject><subject>Stroke - prevention & control</subject><subject>Surgery</subject><subject>Swine</subject><subject>Vascular Resistance - physiology</subject><subject>Vascular Surgical Procedures - methods</subject><issn>0003-4975</issn><issn>1552-6259</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2010</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNqNklFrFDEQx4Mo9qx-BcmbT3tOskk2-yLoaW2hYrEKvoVsMqs5dzfXZLdy394cVyv4ojAQZvKbGfj_hxDKYM2AqZfbtZ2_x2RdXtKaQymDWjPGHpAVk5JXisv2IVkBQF2JtpEn5EnO25Ly8v2YnHAGrayFXhF_Me6sm2ns6dUy7ujZEH_ST3ZG-nZJYfpGr3FAN4dbpBtM2CU70CtM_ZJDnGiJ--o5jtHvJzsGl6mdPP2As-3iEPL4lDzq7ZDx2d17Sr6cvfu8Oa8uP76_2Ly-rJzkaq4cQIfYeqtAd7UEr6wUwkqQTd9Y26JotGs6XQDttQXORacb7DwXrGeqrk_Ji-PcXYo3C-bZjCE7HAY7YVyyaaVQRYL636RmnPFGMl5IfSRdijkn7M0uhdGmvWFgDmaYrfljhjmYYUCZYkZpfX63ZOlG9PeNv9UvwJsjgEWU24DJZBdwcuhDKqIbH8P_bHn11xA3hCk4O_zAPeZtXNJURDfMZG7AXB-O4nATDIAJ3X6tfwE10rVL</recordid><startdate>201012</startdate><enddate>201012</enddate><creator>Haldenwang, Peter L., MD</creator><creator>Strauch, Justus T., MD</creator><creator>Amann, Igor</creator><creator>Klein, Tobias</creator><creator>Sterner-Kock, Anja, PhD</creator><creator>Christ, Hildegard</creator><creator>Wahlers, Thorsten, MD</creator><general>Elsevier Inc</general><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7X8</scope><scope>7TK</scope></search><sort><creationdate>201012</creationdate><title>Impact of Pump Flow Rate During Selective Cerebral Perfusion on Cerebral Hemodynamics and Metabolism</title><author>Haldenwang, Peter L., MD ; Strauch, Justus T., MD ; Amann, Igor ; Klein, Tobias ; Sterner-Kock, Anja, PhD ; Christ, Hildegard ; Wahlers, Thorsten, MD</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c526t-c00bee9da608b350d6a544a5057f7aa9e478c7b8da68d8a0224b87ebd241f1633</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2010</creationdate><topic>Animals</topic><topic>Aorta, Thoracic - surgery</topic><topic>Brain - metabolism</topic><topic>Cardiopulmonary Bypass - methods</topic><topic>Cardiothoracic Surgery</topic><topic>Cerebrovascular Circulation - physiology</topic><topic>Disease Models, Animal</topic><topic>Female</topic><topic>Hypothermia, Induced - methods</topic><topic>Intracranial Pressure - physiology</topic><topic>Intraoperative Care - methods</topic><topic>Oxygen Consumption</topic><topic>Perfusion - methods</topic><topic>Regional Blood Flow - physiology</topic><topic>Stroke - prevention & control</topic><topic>Surgery</topic><topic>Swine</topic><topic>Vascular Resistance - physiology</topic><topic>Vascular Surgical Procedures - methods</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Haldenwang, Peter L., MD</creatorcontrib><creatorcontrib>Strauch, Justus T., MD</creatorcontrib><creatorcontrib>Amann, Igor</creatorcontrib><creatorcontrib>Klein, Tobias</creatorcontrib><creatorcontrib>Sterner-Kock, Anja, PhD</creatorcontrib><creatorcontrib>Christ, Hildegard</creatorcontrib><creatorcontrib>Wahlers, Thorsten, MD</creatorcontrib><collection>Medline</collection><collection>MEDLINE</collection><collection>MEDLINE (Ovid)</collection><collection>MEDLINE</collection><collection>MEDLINE</collection><collection>PubMed</collection><collection>CrossRef</collection><collection>MEDLINE - Academic</collection><collection>Neurosciences Abstracts</collection><jtitle>The Annals of thoracic surgery</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Haldenwang, Peter L., MD</au><au>Strauch, Justus T., MD</au><au>Amann, Igor</au><au>Klein, Tobias</au><au>Sterner-Kock, Anja, PhD</au><au>Christ, Hildegard</au><au>Wahlers, Thorsten, MD</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Impact of Pump Flow Rate During Selective Cerebral Perfusion on Cerebral Hemodynamics and Metabolism</atitle><jtitle>The Annals of thoracic surgery</jtitle><addtitle>Ann Thorac Surg</addtitle><date>2010-12</date><risdate>2010</risdate><volume>90</volume><issue>6</issue><spage>1975</spage><epage>1984</epage><pages>1975-1984</pages><issn>0003-4975</issn><eissn>1552-6259</eissn><abstract>Background Although hypothermic selective cerebral perfusion (SCP) is widely used for cerebral protection during aortic surgery, little is known about the ideal pump-flow management during this procedure. This study explored cerebral hemodynamics and metabolism at two different flow rates. Methods Fourteen pigs (33 to 38 kg) were cooled on cardiopulmonary bypass to 25°C. After 10 minutes of hypothermic circulatory arrest, the animals were randomly assigned to 60 minutes of SCP at two different pump flow rates: 8 mL · kg −1 · min −1 (n = 7) and 18 mL · kg −1 · min −1 (n = 7). Microspheres were injected at baseline, coolest temperature, and at 5, 15, 25, and 60 minutes of SCP to calculate cerebral blood flow, cerebral vascular resistance, metabolic rate, and intracranial pressure. Results Cerebral blood flow decreased during cooling to 41% of the baseline value (from 57 ± 10 to 23 ± 4 mL · min −1 · 100 g −1 ). It recovered during the initial 15 minutes of SCP, showing a significantly higher increase ( p = 0.017) at high-flow versus low-flow perfusion (139 ± 41 versus 75 ± 22 mL · min −1 · 100 g −1 ). After 60 minutes of SCP the cerebral blood flow almost returned to baseline values in the low-flow group (43 ± 25 mL · min −1 · 100 g −1 ), but showed an unexpected decrease (30 ± 7 mL · min −1 · 100 g −1 ) in the high-flow group. The highest regional cerebral blood flow was seen in the cortex (66 ± 12 mL · min −1 · 100 g −1 ), followed by the cerebellum (63 ± 12 mL · min −1 · 100 g −1 ), the pons (51 ± 17 mL · min −1 · 100 g −1 ), and the hippocampus (36 ± 9 mL · min −1 · 100 g −1 ). Intracranial pressure increased from 11 ± 3 to 13 ± 5 mm Hg during cooling on cardiopulmonary bypass. During low-flow SCP, it stayed stable at baseline values, whereas high-flow perfusion resulted in significantly higher intracranial pressures (17 ± 3 mm Hg; p = 0.001). Changes in cerebral vascular resistance and metabolic rate showed no significant differences between the groups. Conclusions High-flow SCP provides no benefit during long-term SCP at 25°C. Higher cerebral blood flow during the initial SCP period leads to cerebral edema, with no profit in metabolic rate.</abstract><cop>Netherlands</cop><pub>Elsevier Inc</pub><pmid>21095348</pmid><doi>10.1016/j.athoracsur.2010.06.111</doi><tpages>10</tpages></addata></record>
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subjects	Animals Aorta, Thoracic - surgery Brain - metabolism Cardiopulmonary Bypass - methods Cardiothoracic Surgery Cerebrovascular Circulation - physiology Disease Models, Animal Female Hypothermia, Induced - methods Intracranial Pressure - physiology Intraoperative Care - methods Oxygen Consumption Perfusion - methods Regional Blood Flow - physiology Stroke - prevention & control Surgery Swine Vascular Resistance - physiology Vascular Surgical Procedures - methods
title	Impact of Pump Flow Rate During Selective Cerebral Perfusion on Cerebral Hemodynamics and Metabolism
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