A First Report of HCTZ and Dicyclomine Induced Uncharacteristic Contraction Alkalosis.

Background: Contraction alkalosis is characterized by low serum sodium and chloride and high serum carbon dioxide and bicarbonate levels. Case Report: A 28-year-old Caucasian active-duty male with a history of autosomal dominant polycystic kidney disease and diarrhea-predominant Irritable Bowel Syndrome (D-IBS) presented to his primary care provider (PCP) with elevated blood pressure (136/96 mmHg), was diagnosed with stage-2 hypertension, and started oral HCTZ (25 mg/day). His medications included dicyclomine (10 mg oral three times daily). Subsequently, (Visit 1), his blood pressure was 130/91 mmHg and he was started on telmisartan (20 mg/day). At Visit 2, 4 weeks later, his blood pressure improved (121/73 mmHg); however, blood chemistry revealed elevated serum CO2 (32 mEq/L) and chloride (94 mmol/L). Four days later, the patient presented to the Emergency Department with dyspnea and swallowing difficulty. The patient returned to his PCP 3 days later complaining of cough, congestion, vomiting, and mild dyspnea, blood pressure of 124/84 mmHg. Two months later, sudden onset of projectile vomiting and abdominal pain while running was reported, resolved by rehydration and a single oral dose of prochlorperazine 25 mg. Three months later, (Visit 3), he complained of lightheadedness and cloudy judgment, suggesting contraction alkalosis. HCTZ was discontinued and telmisartan was increased to 20 mg twice daily. A follow-up blood chemistry panel 2 weeks later revealed serum chloride and CO2 levels within normal limits and blood pressure under 130/80 mmHg. Conclusion: This is the first known report of contraction alkalosis driven by drug-drug interaction between dicyclomine and HCTZ.

Can a monthly exenatide extended release regimen provide a therapeutic and cost benefit?

Exenatide is used to treat type 2 diabetes mellitus. The current regimen is a 2 mg extended release (ER) weekly injection. The aim of our study was to prove the efficacy of exenatide ER if administered once-monthly. The proposed monthly dose was based on an Excel simulation using pharmacokinetic parameters extracted using Plot Digitizer® (version 2.6.8) from Cirincione et al. (2017), as well as accounting for the exenatide ER formulation characteristics, in vivo and in vitro exenatide stability. A PBPK model of exenatide molecule was developed using (Simcyp® version 19) based on data from in vitro and clinical PK studies. The model was used to confirm the Excel simulation findings of the effectiveness of exenatide ER monthly in maintaining the plasma level above the minimum effective concentration (MEC). Our simulation from Excel and Simcyp® showed that the drug plasma levels of the once monthly ER dose maintained a steady state concentration (Css ) above the MEC. The simulated Excel plasma level ranged from Cmin to Cmax of 60-130ng/L, respectively. The exenatide compound was successfully modeled and used to predict the Css of the ER monthly dose. The Simcyp® simulated Css of the ER was 117 ng/L. A monthly exenatide ER dose provides a plasma level within the therapeutic range. This new proposed dose has a significant pharmacoeconomic benefit and could well improve patient adherence.