Obesity Clinical Trial
Official title:
APB Study: Apixaban Pharmacokinetics in Bariatric Patients
The Center for Bariatric Surgery is interested in conducting a pharmacokinetic study of apixaban (an oral anticoagulant with FDA approval for use of venous thrombo embolism (VTE) prophylaxis and treatment) in the obese adult population to determine if bariatric surgery influences apixaban exposure. More interesting would be to see how the dose may need to change pre- vs. post-bariatric surgery (this will be important for physicians as more and more patients undergo this procedure worldwide and many may require anticoagulation in their future healthcare). Physicians and surgeons are very interested in oral anticoagulants for this special patient population. To date, there is no approved dosing for the obese patient (especially when considering surgical intervention such as bariatric surgery). Primary outcome variable. To determine the durability or change in pharmacokinetics and pharmacodynamics of apixaban in patients with a body mass index (BMI) of 35 kg/m2 or greater following one of two bariatric surgical procedures (pre-operative versus post-operative vertical sleeve gastrectomy or Roux-en-Y gastric bypass patients). Secondary outcome variables. 1. To compare/contrast the pharmacokinetics and pharmacodynamics of apixaban in bariatric surgical patients who have undergone RYGB vs. VSG. 2. To determine how the pharmacokinetics of the drug may differ when there is significant post-operative surgical weight loss (>40% estimated excess body weight) 12 to 18 months following surgery versus those patients who have suboptimal weight loss following bariatric surgery (< 40% of estimated excess body weight).
Obesity is now the leading health problem of the 21st century. Weight reduction by conservative methods including diet and exercise has had poor success rates. There has been a substantial increase in the use of bariatric surgery to provide sustained weight loss and thus a reduction in the medical comorbidities that are associated with obesity. However, because these procedures may alter the anatomical and physiological aspects of the gastrointestinal system, there is a possibility of altered pharmacokinetics to medications particularly when taken orally. Furthermore, patients typically lose anywhere from 50 to 75% of their estimated excess body mass approximately one to two years following surgery. This successful therapeutic outcome of the surgery may be causing long term changes in the pharmacokinetics that are independent of any direct anatomical or physiologic changes induced by the procedure. Physicians and surgeons are very interested in oral anticoagulants for this special patient population. To date, there is no approved dosing for the obese patient (especially when considering surgical intervention such as bariatric surgery). VTE is one of the top two causes of morbidity and mortality in the bariatric surgical patient. In the ninth edition of the Antithrombotic Therapy and Prevention of Thrombosis guideline published by the American College of Chest Physicians (1), it is reported that virtually all bariatric surgical patients have at least a moderate risk of VTE, with many patients at high risk. (2) The approach to VTE prophylaxis used by most bariatric surgeons today is a combination of non-invasive and pharmacologic techniques, including sequential compression devices, anti-embolic stockings, anticoagulation, and early ambulation. Traditionally VTE prophylaxis has been accomplished with subcutaneous injection however with the introduction of new oral anticoagulant medications many practitioners are using these anticoagulants without demonstration of effectiveness in this population. The Johns Hopkins Center for Bariatric Surgery is interested in conducting a pharmacokinetic study of apixaban (an oral anticoagulant with FDA approval for use of VTE prophylaxis and treatment) in the obese adult population to determine if bariatric surgery influences apixaban exposure. More interesting would be to see how the dose may need to change pre- vs. post-bariatric surgery (this will be important for physicians as more and more patients undergo this procedure worldwide and many may require anticoagulation in their future healthcare). Specific Aim 1: To determine the pharmacokinetics of apixaban in obese patients scheduled to have bariatric surgery with a body mass index (BMI) of 35 kg/m2 or greater. Hypothesis 1a: Obese patients prior to bariatric surgical intervention, compared to normal weight historical controls, will have a decrease in both Cmax and area under the curve (AUC) when given a single dose of 5 mg of apixaban. Specific Aim 2: To determine the pharmacokinetics of apixaban in the bariatric surgical patient who has undergone Roux-en Y gastric bypass (RYGB) or Vertical Sleeve Gastrectomy (VSG) at 1, 6, 12 and 18 months post-op. Hypothesis 2a: Patients who have recently undergone RYGB surgery (1 month post-op) will have a decrease in both the Cmax and AUC, relative to pre-op values, when given a single dose of 5 mg of apixaban. Hypothesis 2b: Patients who have recently undergone VSG surgery (1 month post-op) will have a decrease in both the Cmax and AUC, relative to pre-op values, when given a single dose of 5 mg of apixaban. The magnitude of the decrease in Cmax and AUC will be less than that seen in RYGB patients. Rationale: Anatomic alteration of the GI tract will immediately reduce absorption in all post-operative bariatric patients. In RYGB patients, the attenuated small bowel and altered bile acid composition will lead to decreased absorption of the drug, whereas in sleeve gastrectomy patients prolonged gastric emptying may affect pharmacokinetics. These findings will be important when considering the use of apixaban as an oral anticoagulation option for perioperative VTE prophylaxis in the bariatric population, both in the acute hospital setting and after discharge in patients requiring extended VTE prophylaxis or treatment. Hypothesis 2c: After undergoing bariatric surgery, patients at 6, 12, and 18 months post-op will have an increase in Cmax and AUC, relative to pre-op values, when given a single dose of 5 mg of apixaban. Hypothesis 2d: After undergoing RYGB, patients at 6, 12, and 18 months post-op will have a greater increase in both Cmax and AUC, relative to pre-op values, than VSG patients relative to pre-op values when given a single dose of 5 mg of apixaban. Rationale: Patients who are 6 to 18 months post-bariatric surgery generally have a 30-40% decrease in excess body weight. This decrease in body weight reduces volume of distribution of drug, potentially affecting Cmax. Results of the published Phase 1 apixaban study found that exposure to a dose of apixaban was inversely related to body weight. Therefore, the investigators should expect higher plasma levels of apixaban in patients who are 6 to 18 months post-bariatric surgery when compared to pre-op values. Findings of the Phase I study (3,4) An open-label, parallel-group, non-randomized, single-dose study in healthy male and female subjects was conducted to assess the effects of body weight on the pharmacokinetics of a single 10 mg dose of apixaban. Following screening, patients were enrolled in one of three groups: low body weight (≤50kg, N=18), normal body weight (65-85kg, N=18) or high body weight (≥120kg, N=19). Compared to normal body weight: - There was a 27% increase in Cmax and 20% increase in AUC in patients with low body weight - There was a 31% decrease in Cmax and 23% decrease in AUC in patients with high body weight The effect of RYGB vs. sleeve gastrectomy on long-term pharmacokinetics is difficult to predict because of the opposing effects of greater weight loss with reduced absorption in the RYGB patient. These findings will be important when considering apixaban as an oral medication for long-term post-op bariatric patients who may require anticoagulation for stroke, myocardial infarction, atrial fibrillation or orthopedic procedures such as hip or knee replacements. (5, 6) Specific Aim 3: To measure the effect of apixaban on Factor Xa activity (chromogenic anti-Xa activity assay) in bariatric surgical patients pre-operatively then at 1, 6, 12 and 18 months post-operatively. Hypothesis 3a: In spite of the changes in pharmacokinetics, the pharmacodynamics response (measured with a chromogenic anti-Xa activity assay) will not differ by more than 10% in comparing pre-surgical response to that at 1, 6, 12 and 18 months after surgery. Rationale: The changes in pharmacokinetics should not lead to a different concentration-response relationship in the chromogenic anti- Xa activity of individual patients following dosing with apixaban 5 mg. Were there to be a significant change in pharmacodynamics, other factors due to the altered anatomy or substantial weight loss would need to be invoked to explain that altered relationship. ;
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