15-methylation augments the cardiovascular effects of prostaglandin F2α

E. K. Weir; J. T. Reeves; W. Droegemueller; R. F. Grover

doi:10.1016/0090-6980(75)90141-0

15-methylation augments the cardiovascular effects of prostaglandin F_2α

E. K. Weir, J. T. Reeves, W. Droegemueller, R. F. Grover

Research output: Contribution to journal › Article › peer-review

4 Scopus citations

Abstract

Intramuscular injection of the 15-methyl analogue of prostaglandin F_2α (15-me-PGF_2α) is being used to initiate second trimester abortion. The natural prostaglandin F_2α (PGF_2α) is a known pulmonary pressor agent but there is little information about the cardiovascular effects of the analogue. Consequently, we compared the hemodynamic responses to the two forms in twenty-three anesthetized dogs. Given I.M. or I.V. 15-me-PGF_2α produced a greater and more sustained rise in pulmonary arterial pressure than PG F_2α. Intramuscular 15-me-PGF_2α also elicited a more prolonged increase in pulmonary vascular resistance than prostaglandin F_2α given I.M. or I.V. The methyl analogue (I.M. or I.V.) causes a greater initial fall in systemic arterial oxygen tension and cardiac output, and a greater increase in systemic resistance than I.M. PG F_2α Breathlessness seen during abortion induced by prostaglandin F_2α or its methyl analogue may be caused by acute pulmonary hypertension in addition to bronchoconstriction.

Original language	English (US)
Pages (from-to)	369-376
Number of pages	8
Journal	Prostaglandins
Volume	9
Issue number	3
DOIs	https://doi.org/10.1016/0090-6980(75)90141-0
State	Published - Mar 1975
Externally published	Yes

Bibliographical note

Funding Information:
This work was supported by grants #HL 14985 and HL 05973 from the National Institutes of Health, and a generous grant from the Upjohn Company, Kalamazoo, Michigan. Dr. Weir is the recipient of a Fulbright scolarship. Dr. Grover is the recipient of an NIH Research Career Development Award, #HL 29237. We are grateful for the assistance of R. Glas, B. Kaplan, M. Munroe, D. Smith, E. Toyos, S. Hofmeister and D. Jackson. We would like to thank Dr. G.O. Zerbe for statistical advice. Prostaglandins F2e and methyl F2e were kindly provided by the Upjohn Company.

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title = "15-methylation augments the cardiovascular effects of prostaglandin F2α",

abstract = "Intramuscular injection of the 15-methyl analogue of prostaglandin F2α (15-me-PGF2α) is being used to initiate second trimester abortion. The natural prostaglandin F2α (PGF2α) is a known pulmonary pressor agent but there is little information about the cardiovascular effects of the analogue. Consequently, we compared the hemodynamic responses to the two forms in twenty-three anesthetized dogs. Given I.M. or I.V. 15-me-PGF2α produced a greater and more sustained rise in pulmonary arterial pressure than PG F2α. Intramuscular 15-me-PGF2α also elicited a more prolonged increase in pulmonary vascular resistance than prostaglandin F2α given I.M. or I.V. The methyl analogue (I.M. or I.V.) causes a greater initial fall in systemic arterial oxygen tension and cardiac output, and a greater increase in systemic resistance than I.M. PG F2α Breathlessness seen during abortion induced by prostaglandin F2α or its methyl analogue may be caused by acute pulmonary hypertension in addition to bronchoconstriction.",

author = "Weir, {E. K.} and Reeves, {J. T.} and W. Droegemueller and Grover, {R. F.}",

note = "Funding Information: This work was supported by grants #HL 14985 and HL 05973 from the National Institutes of Health, and a generous grant from the Upjohn Company, Kalamazoo, Michigan. Dr. Weir is the recipient of a Fulbright scolarship. Dr. Grover is the recipient of an NIH Research Career Development Award, #HL 29237. We are grateful for the assistance of R. Glas, B. Kaplan, M. Munroe, D. Smith, E. Toyos, S. Hofmeister and D. Jackson. We would like to thank Dr. G.O. Zerbe for statistical advice. Prostaglandins F2e and methyl F2e were kindly provided by the Upjohn Company.",

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N2 - Intramuscular injection of the 15-methyl analogue of prostaglandin F2α (15-me-PGF2α) is being used to initiate second trimester abortion. The natural prostaglandin F2α (PGF2α) is a known pulmonary pressor agent but there is little information about the cardiovascular effects of the analogue. Consequently, we compared the hemodynamic responses to the two forms in twenty-three anesthetized dogs. Given I.M. or I.V. 15-me-PGF2α produced a greater and more sustained rise in pulmonary arterial pressure than PG F2α. Intramuscular 15-me-PGF2α also elicited a more prolonged increase in pulmonary vascular resistance than prostaglandin F2α given I.M. or I.V. The methyl analogue (I.M. or I.V.) causes a greater initial fall in systemic arterial oxygen tension and cardiac output, and a greater increase in systemic resistance than I.M. PG F2α Breathlessness seen during abortion induced by prostaglandin F2α or its methyl analogue may be caused by acute pulmonary hypertension in addition to bronchoconstriction.

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