OBJECTIVE: Our purpose was to establish a new animal model for human preterm delivery for assessment of the protective effect of drugs against preterm delivery. STUDY DESIGN: C3H/HeN, C3H/HeN, and BALB/c female mice impregnated by C3H/HeN, B6D2F1, and B6D2F1 male mice, respectively, were treated intraperitoneally with Escherichia coli lipopolysaccharide (0 to 100 microgram/kg, single dose or repeated doses at 1- to 6-hour intervals) on days 12 through 17 of pregnancy. On day 15 of pregnancy, the C3H/HeN females that had been impregnated by B6D2F1 males and administered lipopolysaccharide were treated intraperitoneally with indomethacin (1000 microgram/kg), ritodrine hydrochloride (1000 microgram/kg), urinary trypsin inhibitor (25 x 10(4) units/kg), or gabexate mesylate (100 mg/kg); preterm or term delivery was recorded for these mice. RESULTS: C3H/HeN females impregnated by B6D2F1 males revealed the highest (100%) incidence of preterm delivery when the females were treated with 50 microgram/kg lipopolysaccharide twice at a 3-hour interval on day 15 or 17 of pregnancy. Indomethacin and urinary trypsin inhibitor used separately significantly decreased the incidence of preterm delivery, but only urinary trypsin inhibitor, and not any of the other drugs, significantly increased the incidence of term delivery in the mice. CONCLUSION: A new animal model for investigation of preterm delivery was established, and its usefulness for assessment of the protective effect of drugs against preterm delivery was demonstrated.
OBJECTIVE: Our purpose was to establish a new animal model for human preterm delivery for assessment of the protective effect of drugs against preterm delivery. STUDY DESIGN: C3H/HeN, C3H/HeN, and BALB/c female mice impregnated by C3H/HeN, B6D2F1, and B6D2F1 male mice, respectively, were treated intraperitoneally with Escherichia colilipopolysaccharide (0 to 100 microgram/kg, single dose or repeated doses at 1- to 6-hour intervals) on days 12 through 17 of pregnancy. On day 15 of pregnancy, the C3H/HeN females that had been impregnated by B6D2F1 males and administered lipopolysaccharide were treated intraperitoneally with indomethacin (1000 microgram/kg), ritodrine hydrochloride (1000 microgram/kg), urinary trypsin inhibitor (25 x 10(4) units/kg), or gabexate mesylate (100 mg/kg); preterm or term delivery was recorded for these mice. RESULTS: C3H/HeN females impregnated by B6D2F1 males revealed the highest (100%) incidence of preterm delivery when the females were treated with 50 microgram/kg lipopolysaccharide twice at a 3-hour interval on day 15 or 17 of pregnancy. Indomethacin and urinary trypsin inhibitor used separately significantly decreased the incidence of preterm delivery, but only urinary trypsin inhibitor, and not any of the other drugs, significantly increased the incidence of term delivery in the mice. CONCLUSION: A new animal model for investigation of preterm delivery was established, and its usefulness for assessment of the protective effect of drugs against preterm delivery was demonstrated.
Authors: Matthew W Kemp; Masatoshi Saito; Ilias Nitsos; Alan H Jobe; Suhas G Kallapur; John P Newnham Journal: Reprod Sci Date: 2010-10-05 Impact factor: 3.060
Authors: Roberta Migale; Bronwen R Herbert; Yun S Lee; Lynne Sykes; Simon N Waddington; Donald Peebles; Henrik Hagberg; Mark R Johnson; Phillip R Bennett; David A MacIntyre Journal: Am J Pathol Date: 2015-07-26 Impact factor: 4.307
Authors: Sruthi Sundaram; Charles R Ashby; Ryan Pekson; Vaishali Sampat; Ravikumar Sitapara; Lin Mantell; Chih-Hung Chen; Haoting Yen; Khushboo Abhichandani; Swapna Munnangi; Nikhil Khadtare; Ralph A Stephani; Sandra E Reznik Journal: Am J Pathol Date: 2013-06-12 Impact factor: 4.307