The OAT Trail: The Obesity Anti-Coagulation Thromboprophylaxis Trial. (The OAT-RCT)
A Prospective, Randomised Controlled Trial Comparing Weight-based Tinzaparin Versus Weight-based Enoxaparin for Peri-operative Thromboprophylaxis in Patients Undergoing Bariatric Surgery: Evaluation of Anti-Xa Levels and Clinical Outcomes.
Blood clots in the legs or lungs (called venous thromboembolism or VTE) are one of the most serious complications after weight loss surgery. Most blood clots occur after patients go home from hospital, within the first 30 days after surgery. To prevent blood clots, all patients having weight loss surgery receive a daily blood-thinning injection for 21 days after their operation.
Two blood-thinning injections are currently used at St Vincent's University Hospital for this purpose: enoxaparin (Clexane®) and tinzaparin (Innohep®). Both belong to a group of medicines called low molecular weight heparins (LMWHs). Patients with obesity process these medicines differently to the general population, and previous studies from our hospital have shown that fewer than 53% of patients achieve adequate blood-thinning levels with either injection when measured by a blood test called an anti-Xa level.
Patients will be randomly assigned (like a coin toss) to receive either tinzaparin or enoxaparin for 21 days after their surgery. Both injections are already in routine use at this hospital. A single extra blood sample will be taken on the second day after surgery to measure the anti-Xa level, which tells us whether the injection is providing adequate protection against blood clots. This blood sample will be taken at the same time as routine post-operative blood tests so that no additional blood draws are required.
The study will also look at rates of blood clots and bleeding events within 30 days of surgery, and will ask patients to complete a short questionnaire at their six-week follow-up appointment about their experience with the injection.
Panoramica dello studio
Stato
Intervento / Trattamento
Descrizione dettagliata
Venous thromboembolism (VTE) is a leading cause of morbidity and mortality following bariatric surgery, with a reported incidence of symptomatic DVT of 0.4-3% and PE of 0.3-2%. Over 80% of VTE events occur after hospital discharge, within 30 days of surgery. Obesity is an independent risk factor for VTE through venous stasis, a chronic pro-inflammatory and hypercoagulable state, adipokine dysregulation, and endothelial dysfunction. The pneumoperitoneum and reverse Trendelenburg positioning required for laparoscopic bariatric surgery further amplify venous stasis and thrombotic risk intraoperatively.
Low molecular weight heparin (LMWH) is the cornerstone of pharmacological VTE prophylaxis in bariatric surgery. LMWH exerts its anticoagulant effect via antithrombin-mediated Factor Xa inhibition, and pharmacodynamic adequacy can be assessed by measurement of anti-Xa activity. The American Society for Metabolic and Bariatric Surgery (ASMBS) 2021 position statement recommends a target prophylactic anti-Xa range of 0.2-0.4 IU/mL, measured at 4 hours after the third consecutive dose. The pharmacokinetics of LMWH are significantly altered in patients with severe obesity due to increased volume of distribution, altered renal clearance, elevated Factor Xa activity, and aberrant subcutaneous absorption, reducing the predictability of standard dosing regimens in this population.
Our research group at St Vincent's University Hospital (SVUH) has completed two prospective observational pilot studies. The first (Ethics Ref: RS22-017; n=20) examined weight-stratified enoxaparin dosing and found that 52.2% of patients achieved prophylactic anti-Xa levels. The second (Ethics Ref: RS25-035; n=51) examined weight-based tinzaparin (50 anti-Xa IU/kg once daily) and found that 47.1% achieved prophylactic anti-Xa levels - the first study of tinzaparin pharmacokinetics in a bariatric surgery population. A systematic review and meta-analysis conducted by the research team estimated a pooled prophylactic anti-Xa rate of 0.68 for weight-stratified enoxaparin dosing in the published literature. These data directly informed the design and power calculation of this RCT.
To our knowledge, no adequately powered randomised controlled trial has directly compared anti-Xa activity between tinzaparin and enoxaparin in a bariatric surgery population. The OAT-RCT is designed to address this gap using prospective anti-Xa level monitoring as its primary endpoint.
Design: Single-centre, prospective, parallel-group, open-label, randomised controlled superiority trial at SVUH, Dublin, Ireland.
Randomisation: Participants will be randomised 1:1 to Arm A (weight-based tinzaparin 50 anti-Xa IU/kg once daily) or Arm B (weight-stratified enoxaparin: 40 mg twice daily for weight ≤150 kg; 60 mg twice daily for weight >150 kg) for 21 days post-operatively, commencing on post-operative day 1. Randomisation will be performed using the web-based Sealed Envelope system (www.sealedenvelope.com) with computer-generated block randomisation (block sizes 4 and 6).
Primary endpoint: Proportion of patients achieving a prophylactic anti-Xa level (0.2-0.4 IU/mL) measured at 4 hours (±30 minutes) after the third consecutive LMWH dose on post-operative day 2.
Secondary endpoints: Incidence of clinically significant bleeding events within 30 days (ISTH criteria); incidence of confirmed VTE events (DVT/PE) within 30 days; proportion achieving sub-prophylactic (<0.2 IU/mL) and supra-prophylactic (>0.4 IU/mL) anti-Xa levels; correlations between anti-Xa level and BMI, total body weight, and procedure type; adverse drug reactions; patient-reported treatment satisfaction using the TSQM-9 questionnaire at 6 weeks.
Sample size: 180 participants (90 per arm), based on a formal power calculation using G*Power (z-test: difference between two independent proportions, two-tailed; p1=0.68, p2=0.47; α=0.05; power=0.80; 86 per arm, inflated to 90 per arm to allow for 5% dropout).
Statistical analysis: Primary analysis by intention-to-treat. Chi-squared or Fisher's exact test for the primary endpoint, with between-group difference reported with 95% confidence intervals. Pre-specified subgroup analyses by BMI category, sex, and procedure type. Interim analysis at 50% enrolment reviewed by an independent Data Safety Monitoring Board, with Haybittle-Peto stopping rule (p<0.001).
Ethics: Ethical approval granted by the SVHG Research Ethics Committee (Ref: RS26-029). The study will be conducted in accordance with the Declaration of Helsinki and ICH GCP guidelines.
Tipo di studio
Iscrizione (Stimato)
Fase
- Non applicabile
Contatti e Sedi
Contatto studio
- Nome: Helen M Heneghan, PhD, FRCSI
- Numero di telefono: 0035312214000
- Email: helen.heneghan@ucd.ie
Backup dei contatti dello studio
- Nome: Czara A Kennedy, BMBS, MSc, MRCI
- Numero di telefono: 00353861933967
- Email: czara.kennedy@ucd.ie
Luoghi di studio
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Dublin, Irlanda
- St Vincent's University Hospital
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Contatto:
- Czara A Kennedy, BMBS, MRCSI, MSc
- Numero di telefono: 0035312214000
- Email: czkennedy@svhg.ie
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Contatto:
- Naomi J Fearon, MD, FRCSI
- Numero di telefono: 0035312214000
- Email: naomifearon@svhg.ie
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Criteri di partecipazione
Criteri di ammissibilità
Età idonea allo studio
- Adulto
- Adulto più anziano
Accetta volontari sani
Descrizione
Inclusion Criteria:
- Age ≥18 years
- BMI ≥40 kg/m², or BMI ≥35 kg/m² with at least one obesity-related comorbidity (type 2 diabetes, hypertension, obstructive sleep apnoea, dyslipidaemia, or metabolic dysfunction-associated steatotic liver disease (MASLD))
- Scheduled to undergo laparoscopic bariatric surgery (sleeve gastrectomy or gastric bypass) at St Vincent's University Hospital, Dublin, Ireland
- Capacity to provide written informed consent
Exclusion Criteria:
- Current therapeutic anticoagulation for any indication Known allergy or hypersensitivity to tinzaparin, enoxaparin, heparin, or any heparin-derived product, including documented heparin-induced thrombocytopaenia (HIT) Any other contraindication to LMWH therapy Severe renal impairment (eGFR <30 mL/min/1.73m²) Known haematological disorder or coagulopathy Pregnancy, breastfeeding, or planning pregnancy during the study period Active major bleeding or high bleeding risk at the discretion of the treating clinician Inability to provide written informed consent Participation in another interventional clinical study within 30 days prior to enrolment
Piano di studio
Come è strutturato lo studio?
Dettagli di progettazione
- Scopo principale: Scienza basilare
- Assegnazione: Randomizzato
- Modello interventistico: Assegnazione parallela
- Mascheramento: Separare
Armi e interventi
Gruppo di partecipanti / Arm |
Intervento / Trattamento |
|---|---|
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Sperimentale: Weight-based Tinzaparin
Tinzaparin (Innohep®, LEO Pharma) administered subcutaneously once daily at a dose of 50 anti-Xa IU/kg total body weight, commencing on post-operative day 1 and continuing for 21 days.
Administered via subcutaneous injection into the abdominal wall.
Anti-Xa level measured at 4 hours (±30 minutes) after the third consecutive dose on post-operative day 2.
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A single venous blood sample (~5 mL, citrated tube) drawn at 4 hours (±30 minutes) after the third consecutive LMWH dose on post-operative day 2, concurrent with routine post-operative bloods.
Anti-Xa activity measured using a CE-marked in vitro diagnostic assay at the SVUH Haematology Laboratory.
Results are not available in real time and do not influence clinical management.
Target prophylactic range: 0.2-0.4
IU/mL per ASMBS 2021 guidance.
Altri nomi:
Tinzaparin sodium administered subcutaneously once daily at 50 anti-Xa IU/kg total body weight for 21 days post-operatively, commencing on post-operative day 1.
Used for pharmacological VTE prophylaxis following laparoscopic bariatric surgery.
Altri nomi:
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Comparatore attivo: Weight-stratified Enoxaparin
Enoxaparin (Clexane®, Sanofi) administered subcutaneously twice daily, commencing on post-operative day 1 and continuing for 21 days.
Dose: 40 mg twice daily for patients weighing ≤150 kg; 60 mg twice daily for patients weighing >150 kg.
Administered via subcutaneous injection into the abdominal wall.
Anti-Xa level measured at 4 hours (±30 minutes) after the third consecutive dose on post-operative day 2.
|
A single venous blood sample (~5 mL, citrated tube) drawn at 4 hours (±30 minutes) after the third consecutive LMWH dose on post-operative day 2, concurrent with routine post-operative bloods.
Anti-Xa activity measured using a CE-marked in vitro diagnostic assay at the SVUH Haematology Laboratory.
Results are not available in real time and do not influence clinical management.
Target prophylactic range: 0.2-0.4
IU/mL per ASMBS 2021 guidance.
Altri nomi:
Enoxaparin sodium administered subcutaneously twice daily (40 mg for weight ≤150 kg; 60 mg for weight >150 kg) for 21 days post-operatively, commencing on post-operative day 1.
Used for pharmacological VTE prophylaxis following laparoscopic bariatric surgery.
Altri nomi:
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Cosa sta misurando lo studio?
Misure di risultato primarie
Misura del risultato |
Misura Descrizione |
Lasso di tempo |
|---|---|---|
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Proportion of participants achieving prophylactic anti-Xa levels
Lasso di tempo: Post-operative day 2 (4 hours after third LMWH dose)
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Proportion of participants achieving a prophylactic anti-Xa level of 0.2-0.4
IU/mL, measured at 4 hours (±30 minutes) after the third consecutive LMWH dose on post-operative day 2, as specified by the ASMBS 2021 position statement.
Measured using a CE-marked chromogenic anti-Xa assay at the SVUH Haematology Laboratory.
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Post-operative day 2 (4 hours after third LMWH dose)
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Misure di risultato secondarie
Misura del risultato |
Misura Descrizione |
Lasso di tempo |
|---|---|---|
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Incidence of clinically significant bleeding events
Lasso di tempo: 30 days post-operatively
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Incidence of minor and major bleeding events within 30 days of surgery, classified according to International Society on Thrombosis and Haemostasis (ISTH) criteria.
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30 days post-operatively
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Incidence of venous thromboembolism
Lasso di tempo: 30 days post-operatively
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Incidence of confirmed VTE events including deep vein thrombosis (DVT) and/or pulmonary embolism (PE) within 30 days of surgery, diagnosed by standard clinical imaging (duplex ultrasound or CT pulmonary angiography).
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30 days post-operatively
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Proportion achieving sub-prophylactic anti-Xa levels
Lasso di tempo: Post-operative day 2 (4 hours after third LMWH dose)
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Proportion of participants in each arm achieving a sub-prophylactic anti-Xa level of less than 0.2 IU/mL, measured at 4 hours (±30 minutes) after the third consecutive LMWH dose on post-operative day 2.
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Post-operative day 2 (4 hours after third LMWH dose)
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Proportion achieving supra-prophylactic anti-Xa levels
Lasso di tempo: Post-operative day 2 (4 hours after third LMWH dose)
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Proportion of participants in each arm achieving a supra-prophylactic anti-Xa level of greater than 0.4 IU/mL, measured at 4 hours (±30 minutes) after the third consecutive LMWH dose on post-operative day 2.
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Post-operative day 2 (4 hours after third LMWH dose)
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Correlation between anti-Xa level and body habitus
Lasso di tempo: Post-operative day 2
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Pearson or Spearman correlation coefficients between anti-Xa level and BMI, total body weight, and procedure type (sleeve gastrectomy versus Roux-en-Y gastric bypass).
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Post-operative day 2
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Adverse drug reactions
Lasso di tempo: 30 days post-operatively
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Incidence and nature of adverse drug reactions attributable to either LMWH, including injection site reactions (pain, bruising, erythema, haematoma), heparin-induced thrombocytopaenia, and other drug-related adverse events.
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30 days post-operatively
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Patient-reported treatment adherence and injection site tolerability
Lasso di tempo: 6 weeks post-operatively
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Self-reported adherence (missed doses and reasons) and injection site tolerability assessed via supplementary questionnaire items at the 6-week post-operative clinic visit.
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6 weeks post-operatively
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Patient-reported treatment satisfaction
Lasso di tempo: 6 weeks post-operatively
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Treatment satisfaction assessed using the validated Treatment Satisfaction Questionnaire for Medication (9-item version; TSQM-9), generating scores across three domains: Effectiveness, Convenience, and Global Satisfaction. Each domain is scored on a scale of 0 to 100, where higher scores indicate greater treatment satisfaction. Completed at the standard 6-week post-operative clinic visit. [Time Frame: 6 weeks post-operatively] |
6 weeks post-operatively
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Collaboratori e investigatori
Sponsor
Investigatori
- Investigatore principale: Helen M Heneghan, PhD, FRCSI, University College Dublin
Pubblicazioni e link utili
Pubblicazioni generali
- Chan AW, Tetzlaff JM, Gotzsche PC, Altman DG, Mann H, Berlin JA, Dickersin K, Hrobjartsson A, Schulz KF, Parulekar WR, Krleza-Jeric K, Laupacis A, Moher D. SPIRIT 2013 explanation and elaboration: guidance for protocols of clinical trials. BMJ. 2013 Jan 8;346:e7586. doi: 10.1136/bmj.e7586.
- Mechanick JI, Apovian C, Brethauer S, Timothy Garvey W, Joffe AM, Kim J, Kushner RF, Lindquist R, Pessah-Pollack R, Seger J, Urman RD, Adams S, Cleek JB, Correa R, Figaro MK, Flanders K, Grams J, Hurley DL, Kothari S, Seger MV, Still CD. Clinical Practice Guidelines for the Perioperative Nutrition, Metabolic, and Nonsurgical Support of Patients Undergoing Bariatric Procedures - 2019 Update: Cosponsored by American Association of Clinical Endocrinologists/American College of Endocrinology, The Obesity Society, American Society for Metabolic and Bariatric Surgery, Obesity Medicine Association, and American Society of Anesthesiologists. Obesity (Silver Spring). 2020 Apr;28(4):O1-O58. doi: 10.1002/oby.22719.
- World Medical Association. World Medical Association Declaration of Helsinki: ethical principles for medical research involving human subjects. JAMA. 2013 Nov 27;310(20):2191-4. doi: 10.1001/jama.2013.281053. No abstract available.
- Schulz KF, Altman DG, Moher D; CONSORT Group. CONSORT 2010 statement: updated guidelines for reporting parallel group randomised trials. BMJ. 2010 Mar 23;340:c332. doi: 10.1136/bmj.c332.
- Winegar DA, Sherif B, Pate V, DeMaria EJ. Venous thromboembolism after bariatric surgery performed by Bariatric Surgery Center of Excellence Participants: analysis of the Bariatric Outcomes Longitudinal Database. Surg Obes Relat Dis. 2011 Mar-Apr;7(2):181-8. doi: 10.1016/j.soard.2010.12.008. Epub 2010 Dec 29.
- Atkinson MJ, Sinha A, Hass SL, Colman SS, Kumar RN, Brod M, Rowland CR. Validation of a general measure of treatment satisfaction, the Treatment Satisfaction Questionnaire for Medication (TSQM), using a national panel study of chronic disease. Health Qual Life Outcomes. 2004 Feb 26;2:12. doi: 10.1186/1477-7525-2-12.
- Schulz KF, Grimes DA. Allocation concealment in randomised trials: defending against deciphering. Lancet. 2002 Feb 16;359(9306):614-8. doi: 10.1016/S0140-6736(02)07750-4.
- Nutescu EA, Spinler SA, Wittkowsky A, Dager WE. Low-molecular-weight heparins in renal impairment and obesity: available evidence and clinical practice recommendations across medical and surgical settings. Ann Pharmacother. 2009 Jun;43(6):1064-83. doi: 10.1345/aph.1L194. Epub 2009 May 19.
- Aminian A, Vosburg RW, Altieri MS, Hinojosa MW, Khorgami Z; American Society for Metabolic and Bariatric Surgery Clinical Issues Committee. The American Society for Metabolic and Bariatric Surgery (ASMBS) updated position statement on perioperative venous thromboembolism prophylaxis in bariatric surgery. Surg Obes Relat Dis. 2022 Feb;18(2):165-174. doi: 10.1016/j.soard.2021.10.023. Epub 2021 Nov 10. No abstract available.
- Garcia DA, Baglin TP, Weitz JI, Samama MM. Parenteral anticoagulants: Antithrombotic Therapy and Prevention of Thrombosis, 9th ed: American College of Chest Physicians Evidence-Based Clinical Practice Guidelines. Chest. 2012 Feb;141(2 Suppl):e24S-e43S. doi: 10.1378/chest.11-2291.
- Borch KH, Braekkan SK, Mathiesen EB, Njolstad I, Wilsgaard T, Stormer J, Hansen JB. Abdominal obesity is essential for the risk of venous thromboembolism in the metabolic syndrome: the Tromso study. J Thromb Haemost. 2009 May;7(5):739-45. doi: 10.1111/j.1538-7836.2008.03234.x. Epub 2008 Nov 24.
- Ageno W, Becattini C, Brighton T, Selby R, Kamphuisen PW. Cardiovascular risk factors and venous thromboembolism: a meta-analysis. Circulation. 2008 Jan 1;117(1):93-102. doi: 10.1161/CIRCULATIONAHA.107.709204. Epub 2007 Dec 17.
- Birkmeyer NJ, Share D, Baser O, Carlin AM, Finks JF, Pesta CM, Genaw JA, Birkmeyer JD; Michigan Bariatric Surgery Collaborative. Preoperative placement of inferior vena cava filters and outcomes after gastric bypass surgery. Ann Surg. 2010 Aug;252(2):313-8. doi: 10.1097/SLA.0b013e3181e61e4f.
- Bray GA, Fruhbeck G, Ryan DH, Wilding JP. Management of obesity. Lancet. 2016 May 7;387(10031):1947-56. doi: 10.1016/S0140-6736(16)00271-3. Epub 2016 Feb 10.
- Adams TD, Davidson LE, Litwin SE, Kim J, Kolotkin RL, Nanjee MN, Gutierrez JM, Frogley SJ, Ibele AR, Brinton EA, Hopkins PN, McKinlay R, Simper SC, Hunt SC. Weight and Metabolic Outcomes 12 Years after Gastric Bypass. N Engl J Med. 2017 Sep 21;377(12):1143-1155. doi: 10.1056/NEJMoa1700459.
- Angrisani L, Santonicola A, Iovino P, Vitiello A, Higa K, Himpens J, Buchwald H, Scopinaro N. IFSO Worldwide Survey 2016: Primary, Endoluminal, and Revisional Procedures. Obes Surg. 2018 Dec;28(12):3783-3794. doi: 10.1007/s11695-018-3450-2.
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Maggiori informazioni
Termini relativi a questo studio
Parole chiave
Termini MeSH pertinenti aggiuntivi
- Malattie vascolari
- Malattia cardiovascolare
- Disturbi della nutrizione
- Ipernutrizione
- Peso corporeo
- Embolia e Trombosi
- Tromboembolia
- Condizioni patologiche, segni e sintomi
- Malattie nutrizionali e metaboliche
- Segni e sintomi
- Sovrappeso
- Obesità
- Tromboembolia venosa
- Carboidrati
- Eparina, peso-molecolare
- Eparina
- Glicosaminoglicani
- Polisaccaridi
- Tinzaparina
- Enoxaparina
Altri numeri di identificazione dello studio
- RS26-029
Piano per i dati dei singoli partecipanti (IPD)
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