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Tocolytic

April 14, 2024

Tocolytics (also called anti-contraction medications or labor suppressants) are medications used to suppress premature labor (from Greek τόκος tókos, "childbirth", and λύσις lúsis, "loosening"). Preterm birth accounts for 70% of neonatal deaths.[1] Therefore, tocolytic therapy is provided when delivery would result in premature birth, postponing delivery long enough for the administration of glucocorticoids, which accelerate fetal lung maturity but may require one to two days to take effect.

Tocolytic
SpecialtyOB/GYN
[edit on Wikidata]

Commonly used tocolytic medications include β2 agonists, calcium channel blockers, NSAIDs, and magnesium sulfate. These can assist in delaying preterm delivery by suppressing uterine muscle contractions and their use is intended to reduce fetal morbidity and mortality associated with preterm birth.[2] The suppression of contractions is often only partial and tocolytics can only be relied on to delay birth for a matter of days. Depending on the tocolytic used, the pregnant woman or fetus may require monitoring (e.g., blood pressure monitoring when nifedipine is used as it reduces blood pressure; cardiotocography to assess fetal well-being). In any case, the risk of preterm labor alone justifies hospitalization.

Indications edit

Tocolytics are used in preterm labor, which refers to when a baby is born too early before 37 weeks of pregnancy. As preterm birth represents one of the leading causes of neonatal morbidity and mortality, the goal is to prevent neonatal morbidity and mortality through delaying delivery and increasing gestational age by gaining more time for other management strategies like corticosteroids therapy that may help with fetus lung maturity.[3][4] Tocolytics are considered for women with confirmed preterm labor between 24 and 34 weeks of gestation age and used in conjunction with other therapies that may include corticosteroids administration, fetus neuroprotection, and safe transfer to facilities.[5]

Types of agents edit

There is no clear first-line tocolytic agent.[6][7] Current evidence suggests that first line treatment with β2 agonists, calcium channel blockers, or NSAIDs to prolong pregnancy for up to 48 hours is the best course of action to allow time for glucocorticoid administration.[1]

Various types of agents are used, with varying success rates and side effects. Some medications are not specifically approved by the U.S. Food and Drug Administration (FDA) for use in stopping uterine contractions in preterm labor, instead being used off-label.[citation needed]

According to a 2022 Cochrane review, the most effective tocolytics for delaying preterm birth by 48 hours, and 7 days were the nitric oxide donors, calcium channel blockers, oxytocin receptor antagonists and combinations of tocolytics.[8]

Drug Mechanism of action Description Possible
contraindications 		Maternal side effects Fetal and neonatal side effects
Terbutaline (Brethine) β2 agonist Off-label use, FDA has advised that injectable terbutaline should only be used in urgent situations, and that the oral form of the drug should never be used[9] Cardiac tachyarrhythmias, poorly controlled diabetes mellitus, hyperthyroidism, prolonged tocolysis(>48 to 72 hours)[1] Tachycardia, palpitations, hypotension, dyspnea, chest pain, hypokalemia, hyperglycemia, lipolysis, pulmonary edema, myocardial ischemia[10] Fetal tachycardia, hyperinsulinemia, hypoglycemia, myocardial and septal hypertrophy, myocardial ischemia[11]
Ritodrine (Yutopar) β2 agonist No longer FDA approved[12] Poorly controlled thyroid disease, hypertension, and diabetes[13] Metabolic hyperglycemia, hyperinsulinemia, hypokalemia, antidiuresis, altered thyroid function, physiologic tremor, palpitations, nervousness, nausea or vomiting, fever, hallucinations[14] Neonatal tachycardia, hypoglycemia, hypocalcemia, hyperbilirubinemia, hypotension, intraventricular hemorrhage[14]
Fenoterol β2 agonist Not approved for tocolysis by FDA Diabetes, tachyarrhythmia, hypertrophic obstructive cardiomyopathy, hypersensitivity to fenoterol[15] Palpitations, tachycardia, and chest pain[16] Tachycardia,[17] impaired carbohydrate tolerance, hyperinsulinaemia[18]
Salbutamol (INN) or albuterol (USAN) β2 agonist Shown to be less effective than nifedipine for tocolysis regarding neonatal outcome[19] Diabetes, ischemic cardiopathy, cardiac arrhythmia, placenta praevia, hyperthyroidism, hypersensitivity to salbutamol (albuterol) [20][21] Headache, palpitations, tachycardia, tremor, sweating, and shortness of breath[22] Fetal tachycardia, hypoglycemia, hyperinsulinaemia[22]
Hexoprenaline (Gynipral) β2 agonist Not FDA approved Hyperthyroidism, cardiovascular diseases, glaucoma, placental abruption, vaginal bleeding, inflammatory diseases of internal genitalia, 1st trimester of pregnancy, breastfeeding[23][24] Vertigo, anxiety, tremor, hyperhidrosis, tachycardia, hypotension, hyperglycemia, edema Hypoglycemia, bronchospasm, anaphylactic shock[24]
Nifedipine (Procardia, Adalat) Ca2+ channel blocker Is one of the most commonly used tocolytic agents.[25] Hypotension, preload-dependent cardiac disease.[26] It should not be used concomitantly with magnesium sulfate[27] Flushing, headache, dizziness, nausea, transient hypotension. Administration of calcium channel blockers should be used with care in patients with renal disease and hypotension. Concomitant use of calcium channel blockers and magnesium sulfate may result in cardiovascular collapse[28] Calcium channel blockers have the fewest neonatal adverse effects[5]
Atosiban Oxytocin receptor antagonist Safer than both nifedipine and beta agonists; As effective as nifedipine and more effective than beta agonists.[29] Fewer side effects than β2 agonists.[30] Although not FDA approved in the US, atosiban was developed specifically to delay preterm labor.[31] No current contraindications No maternal adverse effects[32] No adverse effects to the baseline fetal heart rate. No significant difference in neonatal side effect compared to other treatments[32]
Indomethacin NSAID Shown to effectively delay premature birth, studies show that it is safer and more effective for pregnant women that are <= 32 weeks of gestation [33] Late pregnancy (ductus arteriosus), significant renal or hepatic impairment[34] Nausea, heartburn[35] Constriction of ductus arteriosus, pulmonary hypertension, reversible decrease in renal function with oligohydramnios, intraventricular hemorrhage, hyperbilirubinemia, necrotizing enterocolitis[36]
Sulindac NSAID Studies show that it has similar efficacy to that of indomethacin and has a milder effect on the fetal ductus arteriousus [37] Coagulation disorders or thrombocytopenia, NSAID-sensitive asthma, other sensitivity to NSAID[38] GI complications such as nausea, vomiting and stomach pain due to COX inhibition[39] NSAIDs have been shown to be associated with constriction of the ductus arteriousus and oligohydramnios[34]
Magnesium sulfate[40] Myosin light chain inhibitor Probably effective in delaying preterm birth by 48 hours.[8] It is used for its neuro-protective effects since it is shown to decrease the risk of cerebral palsy in infants.[41] Absolute contraindication: myasthenia gravis.[42] Use as a tocolytic agent may result in death of the fetus or infant.[40] Flushing, lethargy, headache, muscle weakness, diplopia, dry mouth, pulmonary edema, cardiac arrest[42] Lethargy, hypotonia, respiratory depression, demineralization with prolonged use[42]
Ethanol GABAA receptor PAM Shown to be ineffective: no better than placebo.[22]Source revision needed Was a frequently used tocolytic in the mid-20th century, but later double-blind studies[43] found it was not effective. Pregnancy: no amount of ethanol is safe to the fetus[44] Intoxication, withdrawal[22] Fetal alcohol syndrome: ethanol is a teratogen and can harm fetus[44]

Calcium-channel blockers (such as nifedipine) and oxytocin antagonists (such as atosiban) may delay delivery by 2 to 7 days, depending on how quickly the medication is administered.[45] NSAIDs (such as indomethacin) and calcium channel blockers (such as nifedipine) are the most likely to delay delivery for 48 hours, with the least amount of maternal and neonatal side effects.[46] Otherwise, tocolysis is rarely successful beyond 24 to 48 hours because current medications do not alter the fundamentals of labor activation.[47] However, postponing premature delivery by 48 hours appears sufficient to allow pregnant women to be transferred to a center specialized for management of preterm deliveries, and thus administer corticosteroids for the possibility to reduce neonatal organ immaturity.[46]

The efficacy of β-adrenergic agonists, atosiban, and indomethacin is a decreased odds ratio (OR) of delivery within 24 hours of 0.54 (95% confidence interval (CI): 0.32-0.91) and 0.47 within 48 hours (OR 0.47, 95% CI: 0.30-0.75).[6]

Antibiotics were thought to delay delivery, but no studies have shown any evidence that using antibiotics during preterm labor effectively delays delivery or reduces neonatal morbidity.[41] Antibiotics are used in people with premature rupture of membranes, but this is not characterized as tocolysis.[48]

Contraindications to tocolytics edit

In addition to drug-specific contraindications,[41] several general factors may contraindicate delaying childbirth with the use of tocolytic medications.

Future direction of tocolytics edit

Most tocolytics are currently being used off-label. The future direction of the development of tocolytics agents should be directed toward better efficacy in intentionally prolonging pregnancy. This will potentially result in less maternal, fetal, and neonatal adverse effects when delaying preterm childbirth. A few tocolytic alternatives worth pursuing include Barusiban, a last generation of oxytocin receptor antagonists, as well as COX-2 inhibitors.[50] More studies on the use of multiple tocolytics must be directed to research overall health outcomes rather than solely pregnancy prolongation.[51]

See also edit

References edit

  1. ^ a b c American College of Obstetricians Gynecologists' Committee on Practice Bulletins—Obstetrics (2016). "Practice Bulletin No. 171: Management of Preterm Labor". Obstetrics & Gynecology. 128 (4): e155–e164. doi:10.1097/AOG.0000000000001711. ISSN 0029-7844. PMID 27661654. S2CID 5537988.
  2. ^ Mayer, Christopher; Apodaca-Ramos, Irasema (2021), "Tocolysis", StatPearls, Treasure Island (FL): StatPearls Publishing, PMID 32965883, retrieved 29 July 2021
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April 14, 2024
tocolytic, also, called, anti, contraction, medications, labor, suppressants, medications, used, suppress, premature, labor, from, greek, τόκος, tókos, childbirth, λύσις, lúsis, loosening, preterm, birth, accounts, neonatal, deaths, therefore, tocolytic, thera. Tocolytics also called anti contraction medications or labor suppressants are medications used to suppress premature labor from Greek tokos tokos childbirth and lysis lusis loosening Preterm birth accounts for 70 of neonatal deaths 1 Therefore tocolytic therapy is provided when delivery would result in premature birth postponing delivery long enough for the administration of glucocorticoids which accelerate fetal lung maturity but may require one to two days to take effect TocolyticSpecialtyOB GYN edit on Wikidata Commonly used tocolytic medications include b2 agonists calcium channel blockers NSAIDs and magnesium sulfate These can assist in delaying preterm delivery by suppressing uterine muscle contractions and their use is intended to reduce fetal morbidity and mortality associated with preterm birth 2 The suppression of contractions is often only partial and tocolytics can only be relied on to delay birth for a matter of days Depending on the tocolytic used the pregnant woman or fetus may require monitoring e g blood pressure monitoring when nifedipine is used as it reduces blood pressure cardiotocography to assess fetal well being In any case the risk of preterm labor alone justifies hospitalization Contents 1 Indications 2 Types of agents 3 Contraindications to tocolytics 4 Future direction of tocolytics 5 See also 6 ReferencesIndications editTocolytics are used in preterm labor which refers to when a baby is born too early before 37 weeks of pregnancy As preterm birth represents one of the leading causes of neonatal morbidity and mortality the goal is to prevent neonatal morbidity and mortality through delaying delivery and increasing gestational age by gaining more time for other management strategies like corticosteroids therapy that may help with fetus lung maturity 3 4 Tocolytics are considered for women with confirmed preterm labor between 24 and 34 weeks of gestation age and used in conjunction with other therapies that may include corticosteroids administration fetus neuroprotection and safe transfer to facilities 5 Types of agents editThere is no clear first line tocolytic agent 6 7 Current evidence suggests that first line treatment with b2 agonists calcium channel blockers or NSAIDs to prolong pregnancy for up to 48 hours is the best course of action to allow time for glucocorticoid administration 1 Various types of agents are used with varying success rates and side effects Some medications are not specifically approved by the U S Food and Drug Administration FDA for use in stopping uterine contractions in preterm labor instead being used off label citation needed According to a 2022 Cochrane review the most effective tocolytics for delaying preterm birth by 48 hours and 7 days were the nitric oxide donors calcium channel blockers oxytocin receptor antagonists and combinations of tocolytics 8 Drug Mechanism of action Description Possiblecontraindications Maternal side effects Fetal and neonatal side effectsTerbutaline Brethine b2 agonist Off label use FDA has advised that injectable terbutaline should only be used in urgent situations and that the oral form of the drug should never be used 9 Cardiac tachyarrhythmias poorly controlled diabetes mellitus hyperthyroidism prolonged tocolysis gt 48 to 72 hours 1 Tachycardia palpitations hypotension dyspnea chest pain hypokalemia hyperglycemia lipolysis pulmonary edema myocardial ischemia 10 Fetal tachycardia hyperinsulinemia hypoglycemia myocardial and septal hypertrophy myocardial ischemia 11 Ritodrine Yutopar b2 agonist No longer FDA approved 12 Poorly controlled thyroid disease hypertension and diabetes 13 Metabolic hyperglycemia hyperinsulinemia hypokalemia antidiuresis altered thyroid function physiologic tremor palpitations nervousness nausea or vomiting fever hallucinations 14 Neonatal tachycardia hypoglycemia hypocalcemia hyperbilirubinemia hypotension intraventricular hemorrhage 14 Fenoterol b2 agonist Not approved for tocolysis by FDA Diabetes tachyarrhythmia hypertrophic obstructive cardiomyopathy hypersensitivity to fenoterol 15 Palpitations tachycardia and chest pain 16 Tachycardia 17 impaired carbohydrate tolerance hyperinsulinaemia 18 Salbutamol INN or albuterol USAN b2 agonist Shown to be less effective than nifedipine for tocolysis regarding neonatal outcome 19 Diabetes ischemic cardiopathy cardiac arrhythmia placenta praevia hyperthyroidism hypersensitivity to salbutamol albuterol 20 21 Headache palpitations tachycardia tremor sweating and shortness of breath 22 Fetal tachycardia hypoglycemia hyperinsulinaemia 22 Hexoprenaline Gynipral b2 agonist Not FDA approved Hyperthyroidism cardiovascular diseases glaucoma placental abruption vaginal bleeding inflammatory diseases of internal genitalia 1st trimester of pregnancy breastfeeding 23 24 Vertigo anxiety tremor hyperhidrosis tachycardia hypotension hyperglycemia edema Hypoglycemia bronchospasm anaphylactic shock 24 Nifedipine Procardia Adalat Ca2 channel blocker Is one of the most commonly used tocolytic agents 25 Hypotension preload dependent cardiac disease 26 It should not be used concomitantly with magnesium sulfate 27 Flushing headache dizziness nausea transient hypotension Administration of calcium channel blockers should be used with care in patients with renal disease and hypotension Concomitant use of calcium channel blockers and magnesium sulfate may result in cardiovascular collapse 28 Calcium channel blockers have the fewest neonatal adverse effects 5 Atosiban Oxytocin receptor antagonist Safer than both nifedipine and beta agonists As effective as nifedipine and more effective than beta agonists 29 Fewer side effects than b2 agonists 30 Although not FDA approved in the US atosiban was developed specifically to delay preterm labor 31 No current contraindications No maternal adverse effects 32 No adverse effects to the baseline fetal heart rate No significant difference in neonatal side effect compared to other treatments 32 Indomethacin NSAID Shown to effectively delay premature birth studies show that it is safer and more effective for pregnant women that are lt 32 weeks of gestation 33 Late pregnancy ductus arteriosus significant renal or hepatic impairment 34 Nausea heartburn 35 Constriction of ductus arteriosus pulmonary hypertension reversible decrease in renal function with oligohydramnios intraventricular hemorrhage hyperbilirubinemia necrotizing enterocolitis 36 Sulindac NSAID Studies show that it has similar efficacy to that of indomethacin and has a milder effect on the fetal ductus arteriousus 37 Coagulation disorders or thrombocytopenia NSAID sensitive asthma other sensitivity to NSAID 38 GI complications such as nausea vomiting and stomach pain due to COX inhibition 39 NSAIDs have been shown to be associated with constriction of the ductus arteriousus and oligohydramnios 34 Magnesium sulfate 40 Myosin light chain inhibitor Probably effective in delaying preterm birth by 48 hours 8 It is used for its neuro protective effects since it is shown to decrease the risk of cerebral palsy in infants 41 Absolute contraindication myasthenia gravis 42 Use as a tocolytic agent may result in death of the fetus or infant 40 Flushing lethargy headache muscle weakness diplopia dry mouth pulmonary edema cardiac arrest 42 Lethargy hypotonia respiratory depression demineralization with prolonged use 42 Ethanol GABAA receptor PAM Shown to be ineffective no better than placebo 22 Source revision needed Was a frequently used tocolytic in the mid 20th century but later double blind studies 43 found it was not effective Pregnancy no amount of ethanol is safe to the fetus 44 Intoxication withdrawal 22 Fetal alcohol syndrome ethanol is a teratogen and can harm fetus 44 Calcium channel blockers such as nifedipine and oxytocin antagonists such as atosiban may delay delivery by 2 to 7 days depending on how quickly the medication is administered 45 NSAIDs such as indomethacin and calcium channel blockers such as nifedipine are the most likely to delay delivery for 48 hours with the least amount of maternal and neonatal side effects 46 Otherwise tocolysis is rarely successful beyond 24 to 48 hours because current medications do not alter the fundamentals of labor activation 47 However postponing premature delivery by 48 hours appears sufficient to allow pregnant women to be transferred to a center specialized for management of preterm deliveries and thus administer corticosteroids for the possibility to reduce neonatal organ immaturity 46 The efficacy of b adrenergic agonists atosiban and indomethacin is a decreased odds ratio OR of delivery within 24 hours of 0 54 95 confidence interval CI 0 32 0 91 and 0 47 within 48 hours OR 0 47 95 CI 0 30 0 75 6 Antibiotics were thought to delay delivery but no studies have shown any evidence that using antibiotics during preterm labor effectively delays delivery or reduces neonatal morbidity 41 Antibiotics are used in people with premature rupture of membranes but this is not characterized as tocolysis 48 Contraindications to tocolytics editIn addition to drug specific contraindications 41 several general factors may contraindicate delaying childbirth with the use of tocolytic medications Fetus is older than 34 weeks gestation 49 Fetus weighs less than 2 5 kg or has intrauterine growth restriction IUGR 49 or placental insufficiency 49 Lethal congenital or chromosomal abnormalities 49 Cervical dilation is greater than 4 centimeters 49 Chorioamnionitis or intrauterine infection is present 49 Pregnant woman has severe pregnancy induced hypertension 49 severe eclampsia 49 preeclampsia 41 active vaginal bleeding 49 placental abruption a cardiac disease 49 or another condition which indicates that the pregnancy should not continue 49 Maternal hemodynamic instability with bleeding 41 Intrauterine fetal demise lethal fetal anomaly or non reassuring fetal status 41 Future direction of tocolytics editMost tocolytics are currently being used off label The future direction of the development of tocolytics agents should be directed toward better efficacy in intentionally prolonging pregnancy This will potentially result in less maternal fetal and neonatal adverse effects when delaying preterm childbirth A few tocolytic alternatives worth pursuing include Barusiban a last generation of oxytocin receptor antagonists as well as COX 2 inhibitors 50 More studies on the use of multiple tocolytics must be directed to research overall health outcomes rather than solely pregnancy prolongation 51 See also editLabor inductionReferences edit a b c American College of Obstetricians Gynecologists Committee on Practice Bulletins Obstetrics 2016 Practice Bulletin No 171 Management of Preterm Labor Obstetrics amp Gynecology 128 4 e155 e164 doi 10 1097 AOG 0000000000001711 ISSN 0029 7844 PMID 27661654 S2CID 5537988 Mayer Christopher Apodaca Ramos Irasema 2021 Tocolysis StatPearls Treasure Island FL StatPearls Publishing PMID 32965883 retrieved 29 July 2021 Ouzounian Joseph G Goodwin T Murphy Paulson Richard J Montoro Martin N Muderspach Laila I Roy Subir 2010 Management of Common Problems in Obstetrics and Gynecology Blackwell Publishing Ltd pp 9 11 ISBN 9781444323030 Harrison Margo S Goldenberg Robert L 2016 Global burden of prematurity Seminars in Fetal amp Neonatal Medicine 21 2 74 79 doi 10 1016 j siny 2015 12 007 ISSN 1878 0946 PMID 26740166 a b Hanley Margaret Sayres Lauren Reiff Emily S Wood Amber Grotegut Chad A Kuller Jeffrey A 2019 Tocolysis A Review of the Literature Obstetrical amp Gynecological Survey 74 1 50 55 doi 10 1097 OGX 0000000000000635 ISSN 1533 9866 PMID 30648727 S2CID 58563849 a b Tan TC Devendra K Tan LK Tan HK May 2006 Tocolytic treatment for the management of preterm labour a systematic review Singapore Med J 47 5 361 6 PMID 16645683 de Heus R Mol BW Erwich JJ et al 2009 Adverse drug reactions to tocolytic treatment for preterm labour prospective cohort study BMJ 338 b744 doi 10 1136 bmj b744 PMC 2654772 PMID 19264820 a b Wilson Amie Hodgetts Morton Victoria A Marson Ella J Markland Alexandra D Larkai Eva Papadopoulou Argyro Coomarasamy Arri Tobias Aurelio Chou Doris Oladapo Olufemi T Price Malcolm J Morris Katie Gallos Ioannis D 10 August 2022 Tocolytics for delaying preterm birth a network meta analysis 0924 Cochrane Database of Systematic Reviews 2022 8 CD014978 doi 10 1002 14651858 CD014978 pub2 PMC 9364967 PMID 35947046 Why do doctors still use terbutaline to delay preterm labor despite its major health risks Retrieved on October 20th 2020 Gyetvai K Hannah M E Hodnett E D Ohlsson A 1999 Tocolytics for preterm labor A systematic review Obstetrics and Gynecology 94 5 Pt 2 869 877 doi 10 1016 s0029 7844 99 00329 4 PMID 10546776 Gaudet Laura M Singh Kavita Weeks Laura Skidmore Becky Tsertsvadze Alexander Ansari Mohammed T 2012 Effectiveness of Terbutaline Pump for the Prevention of Preterm Birth A Systematic Review and Meta Analysis PLOS ONE 7 2 e31679 Bibcode 2012PLoSO 731679G doi 10 1371 journal pone 0031679 ISSN 1932 6203 PMC 3283660 PMID 22363704 Drugs FDA FDA Approved Drugs www accessdata fda gov Pool Beverly A Von Der 1998 Preterm Labor Diagnosis and Treatment American Family Physician 57 10 2457 2464 ISSN 0002 838X PMID 9614414 a b Modak Raj K 2013 Anesthesiology Keywords Review Lippincott Williams amp Wilkins ISBN 978 1 4511 7782 4 Fenoterol drug information DrugsUpdate India www drugsupdate com Retrieved 2 August 2021 Neilson James P West Helen M Dowswell Therese 5 February 2014 Betamimetics for inhibiting preterm labour The Cochrane Database of Systematic Reviews 2 CD004352 doi 10 1002 14651858 CD004352 pub3 ISSN 1469 493X PMC 10603219 PMID 24500892 Verdurmen Kim M J Hulsenboom Alexandra D J van Laar Judith O E H Oei S Guid 2017 Effect of tocolytic drugs on fetal heart rate variability a systematic review The Journal of Maternal Fetal amp Neonatal Medicine 30 20 2387 2394 doi 10 1080 14767058 2016 1249844 ISSN 1476 4954 PMID 27756155 S2CID 6900277 Drugs during pregnancy and lactation treatment options and risk assessment Christof Schaefer P W J Peters Richard K Miller Third ed London UK 2015 ISBN 978 0 12 407901 4 OCLC 892869035 a href Template Cite book html title Template Cite book cite book a CS1 maint location missing publisher link CS1 maint others link Tsatsaris V 2001 Tocolysis with nifedipine or beta adrenergic agonists a meta analysis1 Obstetrics amp Gynecology 97 5 840 847 doi 10 1016 S0029 7844 00 01212 6 PMID 11336775 Johnson Donavon B Merrell Brigham J Bounds Connor G 2021 Albuterol StatPearls Treasure Island FL StatPearls Publishing PMID 29489143 retrieved 2 August 2021 Spirlet Marina de Treluyer Jean Marc Chevret Sylvie Rey Elisabeth Tournaire Michel Cabrol Dominique Pons Gerard 2004 Fundamental amp Clinical Pharmacology Oxford UK Blackwell Science Ltd pp 207 217 a b c d Lamont Ronald F Jorgensen Jan S 2019 Safety and Efficacy of Tocolytics for the Treatment of Spontaneous Preterm Labour Current Pharmaceutical Design 25 5 577 592 doi 10 2174 1381612825666190329124214 ISSN 1873 4286 PMID 30931850 S2CID 89620227 Gynipral hexoprenaline Full Prescribing Information Russian State Register of Medicinal Products in Russian Nycomed Austria GmbH St Peter Strasse 25 A 4020 Linz Austria Retrieved 19 March 2016 a b Gynipral hexoprenaline Tablets 0 5 mg Solution for Intravenous Infusion 5 mg mL 0 0005 RLS RLS Russian Register of Medical Products in Russian Retrieved 19 March 2016 Welcome to the Women s The Royal Women s Hospital Victoria Australia Nifedipine Monograph for Professionals Drugs com 2015 Archived from the original on 25 December 2015 Koontz Stephanie L Friedman Steven A Schwartz Martin L 2004 Symptomatic hypocalcemia after tocolytic therapy with magnesium sulfate and nifedipine American Journal of Obstetrics and Gynecology 190 6 1773 1776 doi 10 1016 j ajog 2004 02 050 ISSN 0002 9378 PMID 15284796 Davis W B Wells S R Kuller J A Thorp J M March 1997 Analysis of the risks associated with calcium channel blockade implications for the obstetrician gynecologist Obstetrical amp Gynecological Survey 52 3 198 201 doi 10 1097 00006254 199703000 00023 ISSN 0029 7828 PMID 9061722 Lyndrup Jens Lamont Ronald F 2007 The choice of a tocolytic for the treatment of preterm labor a critical evaluation of nifedipine versus atosiban Expert Opinion on Investigational Drugs 16 6 843 853 doi 10 1517 13543784 16 6 843 ISSN 1354 3784 PMID 17501696 S2CID 1012738 Flenady Vicki Reinebrant Hanna E Liley Helen G Tambimuttu Eashan G Papatsonis Dimitri NM 2014 Cochrane Pregnancy and Childbirth Group ed Oxytocin receptor antagonists for inhibiting preterm labour Cochrane Database of Systematic Reviews 6 CD004452 doi 10 1002 14651858 CD004452 pub3 PMID 24903678 Neilson J P 2007 Oxytocin Receptor Antagonists for Inhibiting Preterm Labour Obstetrics amp Gynecology 110 1 180 181 doi 10 1097 01 AOG 0000269669 34758 4e ISSN 0029 7844 PMID 17601917 S2CID 35984198 a b Tsatsaris Vassilis Carbonne Bruno Cabrol Dominique 2004 Atosiban for Preterm Labour Drugs 64 4 375 382 doi 10 2165 00003495 200464040 00003 ISSN 0012 6667 PMID 14969573 S2CID 946463 Macones George A Robinson Charlah A 1997 Is there justification for using indomethacin in preterm labor An analysis of neonatal risks and benefits American Journal of Obstetrics and Gynecology 177 4 819 824 doi 10 1016 S0002 9378 97 70275 8 PMID 9369826 a b Loudon Jenifer A Z Groom Kate M Bennett Philip R 2003 Prostaglandin inhibitors in preterm labour Best Practice amp Research Clinical Obstetrics amp Gynaecology 17 5 731 744 doi 10 1016 s1521 6934 03 00047 6 ISSN 1521 6934 PMID 12972011 Indomethacin Side Effects Common Severe Long Term Drugs com Retrieved 30 July 2021 Management of high risk pregnancy a practical approach S S Trivedi Manju MD Puri Swati Agrawal Second ed New Delhi 2016 ISBN 978 93 5250 046 8 OCLC 946116669 a href Template Cite book html title Template Cite book cite book a CS1 maint location missing publisher link CS1 maint others link Rasanen Juha Jouppila Pentti 1995 Fetal cardiac function and ductus arteriosus during indomethacin and sulindac therapy for threatened preterm labor A randomized study American Journal of Obstetrics and Gynecology 173 1 20 25 doi 10 1016 0002 9378 95 90163 9 ISSN 0002 9378 PMID 7631682 Stevenson Donald D 2004 Aspirin and NSAID sensitivity Immunology and Allergy Clinics of North America 24 3 491 505 vii doi 10 1016 j iac 2004 03 001 ISSN 0889 8561 PMID 15242723 Castellsague Jordi Riera Guardia Nuria Calingaert Brian Varas Lorenzo Cristina Fourrier Reglat Annie Nicotra Federica Sturkenboom Miriam Perez Gutthann Susana Safety of Non Steroidal Anti Inflammatory Drugs SOS Project 1 December 2012 Individual NSAIDs and upper gastrointestinal complications a systematic review and meta analysis of observational studies the SOS project Drug Safety 35 12 1127 1146 doi 10 2165 11633470 000000000 00000 ISSN 1179 1942 PMC 3714137 PMID 23137151 a b Crowther CA Brown J McKinlay CJ Middleton P 2014 Magnesium sulphate for preventing preterm birth in threatened preterm labour The Cochrane Database of Systematic Reviews 8 CD001060 doi 10 1002 14651858 CD001060 pub2 PMC 10838393 PMID 25126773 a b c d e f Rundell Kristen Panchal Bethany 2017 Preterm Labor Prevention and Management American Family Physician 95 6 366 372 ISSN 0002 838X PMID 28318214 a b c William G Sayres Jr 2010 Preterm Labor American Family Physician 81 4 477 484 ISSN 0002 838X PMID 20148502 Castren O Gummerus M Saarikoski S 1975 Treatment of imminent premature labour Acta Obstet Gynecol Scand 54 2 95 100 doi 10 3109 00016347509156739 PMID 1094787 S2CID 22685586 a b Committee opinion no 496 At risk drinking and alcohol dependence obstetric and gynecologic implications Obstetrics and Gynecology 118 2 Pt 1 383 388 2011 doi 10 1097 AOG 0b013e31822c9906 ISSN 1873 233X PMID 21775870 S2CID 205474115 Iams JD Romero R Culhane JF Goldenberg RL 2008 Primary secondary and tertiary interventions to reduce the morbidity and mortality of preterm birth The Lancet 371 9607 164 175 doi 10 1016 S0140 6736 08 60108 7 PMID 18191687 S2CID 8204299 a b Haas David M Caldwell Deborah M Kirkpatrick Page McIntosh Jennifer J Welton Nicky J 2012 Tocolytic therapy for preterm delivery systematic review and network meta analysis The BMJ 345 e6226 doi 10 1136 bmj e6226 ISSN 0959 8138 PMC 4688428 PMID 23048010 Simhan HN Caritis SN 2007 Prevention of Preterm Delivery New England Journal of Medicine 357 5 477 487 doi 10 1056 NEJMra050435 PMID 17671256 Kenyon Sara Boulvain Michel Neilson James P 2 December 2013 Antibiotics for preterm rupture of membranes The Cochrane Database of Systematic Reviews 12 CD001058 doi 10 1002 14651858 CD001058 pub3 ISSN 1469 493X PMID 24297389 a b c d e f g h i j k Wong D L Perry S E Hockenberry M J Lowdermilk D L 2002 Maternal Child Nursing Care Mosby ISBN 978 0 323 01399 4 Hubinont C Debieve F 2011 Prevention of Preterm Labour 2011 Update on Tocolysis Journal of Pregnancy 2011 941057 doi 10 1155 2011 941057 ISSN 2090 2727 PMC 3228310 PMID 22175022 Cole Stephen Smith Roger Giles Warwick 2004 Tocolysis current controversies future directions Current Opinion in Investigational Drugs 5 4 424 429 ISSN 1472 4472 PMID 15134284 Retrieved from https en wikipedia org w index php title Tocolytic amp oldid 1208842914, wikipedia, wiki, book, books, library,

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