The role of renal nerves and prostaglandins in control of renal hemodynamics and plasma renin activity during hypotensive hemorrhage in the dog

The role of renal nerves and prostaglandins in control of renal hemodynamics and plasma renin activity during hypotensive hemorrhage in the dog

The effects of hypotensive hemorrhage (HH) on renal hemodynamics and plasma renin activity (PRA) during prostaglandin (PG) synthesis inhibition were examined in three groups of dogs. In each group of animals arterial blood pressure was lowered by a 30% decrement. In the first group of eight control...

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Veröffentlicht in:The Journal of clinical investigation 1978-03, Vol.61 (3), p.744-750
Hauptverfasser: Henrich, W L, Anderson, R J, Berns, A S, McDonald, K M, Paulsen, P J, Berl, T, Schrier, R W
Format: Artikel
Sprache:eng
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Animals
Blood Pressure
Cardiac Output
Denervation
Dogs
Glomerular Filtration Rate
Hemodynamics
Hypotension - physiopathology
Kidney - blood supply
Kidney - innervation
Kidney - physiopathology
Prostaglandins - physiology
Regional Blood Flow
Renin - blood
Shock, Hemorrhagic - physiopathology
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container_end_page 750
container_issue 3
container_start_page 744
container_title The Journal of clinical investigation
container_volume 61
creator Henrich, W L
Anderson, R J
Berns, A S
McDonald, K M
Paulsen, P J
Berl, T
Schrier, R W
description The effects of hypotensive hemorrhage (HH) on renal hemodynamics and plasma renin activity (PRA) during prostaglandin (PG) synthesis inhibition were examined in three groups of dogs. In each group of animals arterial blood pressure was lowered by a 30% decrement. In the first group of eight control animals, HH was not associated with a significant change in glomerular filtration rate (GFR, 42-36 ml/min, NS); renal blood flow (RBF) declined significantly, from 234 to 171 ml/min, P < 0.05. In the second group of eight animals, pretreated with RO 20-5720 (RO, 2 mg/kg), a competitive inhibitor of PG synthesis, HH was associated with a significant fall in GFR (43-17 ml/min, P < 0.001) and RBF (195-89 ml/min, P < 0.001). In the third group of eight animals, pretreatment with indomethacin (IN, 10 mg/kg), a chemically dissimilar PG inhibitor, HH was also associated with a significant fall in GFR (38-8 ml/min, P < 0.001) and RBF (150-30 ml/min, P < 0.001). Renal denervation attenuated this renal ischemic effect of HH in the presence of PG inhibition. In the RO group, GFR (34 vs. 17 ml/min, P < 0.005) and RBF (145 vs. 89 ml/min, P < 0.025) were significantly greater in denervated vs. innervated kidneys during HH. Similarly, in animals treated with IN, a significantly higher GFR (28 vs. 8 ml/min, P < 0.005) and RBF (101 vs. 30 ml/min, P < 0.005) occurred in denervated as compared to innervated kidneys during HH. With HH, the increase in PRA in the control group (3.34-11.68 ng/ml per h, P < 0.005) was no different than that observed in the RO group (4.96-18.9 ng/ml per h, P < 0.001) or IN group (4.71-17.8 ng/ml per h, P < 0.001). In summary, the present results indicate that renal PG significantly attenuate the effect of HH to decrease GFR and RBF. Furthermore, renal denervation exerts a protective effect against the enhanced renal ischemic effects which occur in the presence of PG inhibition during HH. Finally, PG inhibition does not alter the effect of HH to cause an increase in PRA.
doi_str_mv 10.1172/JCI108988
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In each group of animals arterial blood pressure was lowered by a 30% decrement. In the first group of eight control animals, HH was not associated with a significant change in glomerular filtration rate (GFR, 42-36 ml/min, NS); renal blood flow (RBF) declined significantly, from 234 to 171 ml/min, P < 0.05. In the second group of eight animals, pretreated with RO 20-5720 (RO, 2 mg/kg), a competitive inhibitor of PG synthesis, HH was associated with a significant fall in GFR (43-17 ml/min, P < 0.001) and RBF (195-89 ml/min, P < 0.001). In the third group of eight animals, pretreatment with indomethacin (IN, 10 mg/kg), a chemically dissimilar PG inhibitor, HH was also associated with a significant fall in GFR (38-8 ml/min, P < 0.001) and RBF (150-30 ml/min, P < 0.001). Renal denervation attenuated this renal ischemic effect of HH in the presence of PG inhibition. In the RO group, GFR (34 vs. 17 ml/min, P < 0.005) and RBF (145 vs. 89 ml/min, P < 0.025) were significantly greater in denervated vs. innervated kidneys during HH. Similarly, in animals treated with IN, a significantly higher GFR (28 vs. 8 ml/min, P < 0.005) and RBF (101 vs. 30 ml/min, P < 0.005) occurred in denervated as compared to innervated kidneys during HH. With HH, the increase in PRA in the control group (3.34-11.68 ng/ml per h, P < 0.005) was no different than that observed in the RO group (4.96-18.9 ng/ml per h, P < 0.001) or IN group (4.71-17.8 ng/ml per h, P < 0.001). In summary, the present results indicate that renal PG significantly attenuate the effect of HH to decrease GFR and RBF. Furthermore, renal denervation exerts a protective effect against the enhanced renal ischemic effects which occur in the presence of PG inhibition during HH. 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In each group of animals arterial blood pressure was lowered by a 30% decrement. In the first group of eight control animals, HH was not associated with a significant change in glomerular filtration rate (GFR, 42-36 ml/min, NS); renal blood flow (RBF) declined significantly, from 234 to 171 ml/min, P < 0.05. In the second group of eight animals, pretreated with RO 20-5720 (RO, 2 mg/kg), a competitive inhibitor of PG synthesis, HH was associated with a significant fall in GFR (43-17 ml/min, P < 0.001) and RBF (195-89 ml/min, P < 0.001). In the third group of eight animals, pretreatment with indomethacin (IN, 10 mg/kg), a chemically dissimilar PG inhibitor, HH was also associated with a significant fall in GFR (38-8 ml/min, P < 0.001) and RBF (150-30 ml/min, P < 0.001). Renal denervation attenuated this renal ischemic effect of HH in the presence of PG inhibition. In the RO group, GFR (34 vs. 17 ml/min, P < 0.005) and RBF (145 vs. 89 ml/min, P < 0.025) were significantly greater in denervated vs. innervated kidneys during HH. Similarly, in animals treated with IN, a significantly higher GFR (28 vs. 8 ml/min, P < 0.005) and RBF (101 vs. 30 ml/min, P < 0.005) occurred in denervated as compared to innervated kidneys during HH. With HH, the increase in PRA in the control group (3.34-11.68 ng/ml per h, P < 0.005) was no different than that observed in the RO group (4.96-18.9 ng/ml per h, P < 0.001) or IN group (4.71-17.8 ng/ml per h, P < 0.001). In summary, the present results indicate that renal PG significantly attenuate the effect of HH to decrease GFR and RBF. Furthermore, renal denervation exerts a protective effect against the enhanced renal ischemic effects which occur in the presence of PG inhibition during HH. Finally, PG inhibition does not alter the effect of HH to cause an increase in PRA.]]></description><subject>Animals</subject><subject>Blood Pressure</subject><subject>Cardiac Output</subject><subject>Denervation</subject><subject>Dogs</subject><subject>Glomerular Filtration Rate</subject><subject>Hemodynamics</subject><subject>Hypotension - physiopathology</subject><subject>Kidney - blood supply</subject><subject>Kidney - innervation</subject><subject>Kidney - physiopathology</subject><subject>Prostaglandins - physiology</subject><subject>Regional Blood Flow</subject><subject>Renin - blood</subject><subject>Shock, Hemorrhagic - physiopathology</subject><issn>0021-9738</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>1978</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNpVkT1v2zAQhjmkSR0nQ_cOnAp0cMMPfVBDh8JImwQGsjgzcaJOEguJdEnZgH9F_nLo2nCb6Yi757073kvIJ86-cV6Ku6flI2eqUuqCzBgTfFGVUn0k1zH-ZoxnWZ5dkcsi4zwXM_K67pEGPyD1LQ3oYKAOww4jBdfQTfBxgm5Ib-sitY4a76aE_6N7HH2zdzBac9IMEEc4VBMOZrI7O-1psw3WdbTfb_yELtod_lWG0EOHh8ZT2qPx3Q350MIQ8fYU5-Tl5_16-bBYPf96XP5YLYws1LRQyIyqoCmkUZKrlknkmciKlom6BokCSq6yEk1ZNEYVVVPXeZ0Dgkl5gUbOyfdj3822HrExmL4Fg94EO0LYaw9Wv6842-vO77QsRa6qpP9y0gf_Z4tx0qONBod0KvTbqJVUihUiT-DXI2jSLWPA9jyDM33wS5_9Suzn_5c6k0ez5Bvkppcu</recordid><startdate>19780301</startdate><enddate>19780301</enddate><creator>Henrich, W L</creator><creator>Anderson, R J</creator><creator>Berns, A S</creator><creator>McDonald, K M</creator><creator>Paulsen, P J</creator><creator>Berl, T</creator><creator>Schrier, R W</creator><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>5PM</scope></search><sort><creationdate>19780301</creationdate><title>The role of renal nerves and prostaglandins in control of renal hemodynamics and plasma renin activity during hypotensive hemorrhage in the dog</title><author>Henrich, W L ; Anderson, R J ; Berns, A S ; McDonald, K M ; Paulsen, P J ; Berl, T ; Schrier, R W</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c368t-8e0c89ad63c8318f03e14246f02bba3e2a71847ec76dc869dbb5b5aeac7182ec3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>1978</creationdate><topic>Animals</topic><topic>Blood Pressure</topic><topic>Cardiac Output</topic><topic>Denervation</topic><topic>Dogs</topic><topic>Glomerular Filtration Rate</topic><topic>Hemodynamics</topic><topic>Hypotension - physiopathology</topic><topic>Kidney - blood supply</topic><topic>Kidney - innervation</topic><topic>Kidney - physiopathology</topic><topic>Prostaglandins - physiology</topic><topic>Regional Blood Flow</topic><topic>Renin - blood</topic><topic>Shock, Hemorrhagic - physiopathology</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Henrich, W L</creatorcontrib><creatorcontrib>Anderson, R J</creatorcontrib><creatorcontrib>Berns, A S</creatorcontrib><creatorcontrib>McDonald, K M</creatorcontrib><creatorcontrib>Paulsen, P J</creatorcontrib><creatorcontrib>Berl, T</creatorcontrib><creatorcontrib>Schrier, R W</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>PubMed Central (Full Participant titles)</collection><jtitle>The Journal of clinical investigation</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Henrich, W L</au><au>Anderson, R J</au><au>Berns, A S</au><au>McDonald, K M</au><au>Paulsen, P J</au><au>Berl, T</au><au>Schrier, R W</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>The role of renal nerves and prostaglandins in control of renal hemodynamics and plasma renin activity during hypotensive hemorrhage in the dog</atitle><jtitle>The Journal of clinical investigation</jtitle><addtitle>J Clin Invest</addtitle><date>1978-03-01</date><risdate>1978</risdate><volume>61</volume><issue>3</issue><spage>744</spage><epage>750</epage><pages>744-750</pages><issn>0021-9738</issn><abstract><![CDATA[The effects of hypotensive hemorrhage (HH) on renal hemodynamics and plasma renin activity (PRA) during prostaglandin (PG) synthesis inhibition were examined in three groups of dogs. In each group of animals arterial blood pressure was lowered by a 30% decrement. In the first group of eight control animals, HH was not associated with a significant change in glomerular filtration rate (GFR, 42-36 ml/min, NS); renal blood flow (RBF) declined significantly, from 234 to 171 ml/min, P < 0.05. In the second group of eight animals, pretreated with RO 20-5720 (RO, 2 mg/kg), a competitive inhibitor of PG synthesis, HH was associated with a significant fall in GFR (43-17 ml/min, P < 0.001) and RBF (195-89 ml/min, P < 0.001). In the third group of eight animals, pretreatment with indomethacin (IN, 10 mg/kg), a chemically dissimilar PG inhibitor, HH was also associated with a significant fall in GFR (38-8 ml/min, P < 0.001) and RBF (150-30 ml/min, P < 0.001). Renal denervation attenuated this renal ischemic effect of HH in the presence of PG inhibition. In the RO group, GFR (34 vs. 17 ml/min, P < 0.005) and RBF (145 vs. 89 ml/min, P < 0.025) were significantly greater in denervated vs. innervated kidneys during HH. Similarly, in animals treated with IN, a significantly higher GFR (28 vs. 8 ml/min, P < 0.005) and RBF (101 vs. 30 ml/min, P < 0.005) occurred in denervated as compared to innervated kidneys during HH. With HH, the increase in PRA in the control group (3.34-11.68 ng/ml per h, P < 0.005) was no different than that observed in the RO group (4.96-18.9 ng/ml per h, P < 0.001) or IN group (4.71-17.8 ng/ml per h, P < 0.001). In summary, the present results indicate that renal PG significantly attenuate the effect of HH to decrease GFR and RBF. Furthermore, renal denervation exerts a protective effect against the enhanced renal ischemic effects which occur in the presence of PG inhibition during HH. Finally, PG inhibition does not alter the effect of HH to cause an increase in PRA.]]></abstract><cop>United States</cop><pmid>641152</pmid><doi>10.1172/JCI108988</doi><tpages>7</tpages><oa>free_for_read</oa></addata></record>
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source MEDLINE; EZB-FREE-00999 freely available EZB journals; PubMed Central; Alma/SFX Local Collection
subjects Animals
Blood Pressure
Cardiac Output
Denervation
Dogs
Glomerular Filtration Rate
Hemodynamics
Hypotension - physiopathology
Kidney - blood supply
Kidney - innervation
Kidney - physiopathology
Prostaglandins - physiology
Regional Blood Flow
Renin - blood
Shock, Hemorrhagic - physiopathology
title The role of renal nerves and prostaglandins in control of renal hemodynamics and plasma renin activity during hypotensive hemorrhage in the dog
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