Author(s):
Wenny Putri Nilamsari, Mochammad Yusuf, Suharjono, Dita Aryanti Pertiwi, Arina Dery, Budi Suprapti, Bambang Zulkarnaen
Email(s):
wenny.prastawa@gmail.com
DOI:
10.5958/0974-360X.2020.00678.2
Address:
Wenny Putri Nilamsari1, Mochammad Yusuf2, Suharjono1, Dita Aryanti Pertiwi1, Arina Dery1, Budi Suprapti1,3, Bambang Zulkarnaen1
1Department of Clinical Pharmacy, Faculty of Pharmacy, Universitas Airlangga Surabaya, Indonesia.
2Department of Cardiovascular, Universitas Airlangga Teaching Hospital, Surabaya, Indonesia.
3Department of Pharmacy, Universitas Airlangga Teaching Hospital, Surabaya, Indonesia.
*Corresponding Author
Published In:
Volume - 13,
Issue - 8,
Year - 2020
ABSTRACT:
Background: Despite the growing use of Direct Oral Anticoagulant (DOAC), the most prescribed oral anticoagulant currently in Indonesia is warfarin. Efficacy and safety of warfarin are influenced by various factors including drug-drug interactions. Patients in ambulatory care often receive more than one prescription leading to potential drug-drug interactions. However, there is no data from Indonesia has been published. This study aimed to assess the prevalence of other drugs potentially interacting with warfarin and their interaction risk. Method: It was a descriptive cross-sectional study. We identified warfarin prescriptions issued between January 2015 and December 2019 using electronic prescription and electronic medical records. Analysis of interaction risk was performed using Medscape. Result: During 4 years, there were 50 patients fulfilling inclusion criteria with 715 prescriptions issued. From 50 patients, 94 % at least received 1 concomitant drug. The four most commonly interacting drugs prescribed during warfarin therapy were spironolactone (58%), simvastatin (54%), allopurinol (32%) and low dose acetylsalicylic acid (20%). Furthermore, there were 38% of patients received concomitant drugs classified as serious interaction as follows allopurinol, amiodarone, and fenofibrate. As much as 16% of patients had adverse outcomes and some of this may be associated with warfarin-drug interaction. Conclusion: This study indicates that the prevalence of co-prescription with potentially interacting drugs during warfarin therapy in ambulatory patients is high. Strategy to identify and manage warfarin-drugs interaction is warranted to avoid potential adverse events.
Cite this article:
Wenny Putri Nilamsari, Mochammad Yusuf, Suharjono, Dita Aryanti Pertiwi, Arina Dery, Budi Suprapti, Bambang Zulkarnaen. Study of Co-Prescription of Drugs Potentially Interacting with Warfarin in Indonesian Ambulatory patients. Research J. Pharm. and Tech. 2020; 13(8):3833-3836. doi: 10.5958/0974-360X.2020.00678.2
Cite(Electronic):
Wenny Putri Nilamsari, Mochammad Yusuf, Suharjono, Dita Aryanti Pertiwi, Arina Dery, Budi Suprapti, Bambang Zulkarnaen. Study of Co-Prescription of Drugs Potentially Interacting with Warfarin in Indonesian Ambulatory patients. Research J. Pharm. and Tech. 2020; 13(8):3833-3836. doi: 10.5958/0974-360X.2020.00678.2 Available on: https://rjptonline.org/AbstractView.aspx?PID=2020-13-8-51
REFERENCES:
1. Lip GYH. Atrial fibrillation in 2011: Stroke prevention in AF. Nat Rev Cardiol 2011;9:71-3.
2. Vinogradova Y, Coupland C, Hill T, Hippisley-Cox J. Risks and benefits of direct oral anticoagulants versus warfarin in a real-world setting: a cohort study in primary care. BMJ 2018; 362:k2505
3. Guidoni CM, Camargo HPM, Girotto E, and Pereira LRL. Study of warfarin utilization in hospitalized patients: analysis of possible drug interactions. Int J Clin Pharm 2016; 38: 1048-1051
4. Ababneh, MA, Al-Azzam, SI, and Alzoubi, KH. Adherence in outpatients taking warfarin and its effect on coagulation control. Int J Clin Pharm 2016; 38:816-82
5. Verhovsek M., Motlagh B., Crowther MA, Kennedy C, Dolovich L, Campbell G, Wang L and Papaioannou A. Quality of anticoagulation and use of warfarin-interacting medications in long-term care: A chart review. BMC Geriatrics 2008; 8:13
6. Zhang K, Young C, Berger J. Administrative claims analysis of the relationship between warfarin use and risk of hemorrhage including drug-drug and drug-disease interactions. J Manage Care Pharm 2006; 12(8):640-8.
7. Bungard, T.J., Yakiwchuk, E., Foisy, M., and Brocklebank, C., Drug interaction involving warfarin: Practice tool and practical management tips. Can Pharm J2011;144 (1).
8. Medscape Drug Interaction Checker. https://reference.medscape.com/drug-interactionchecker
9. Baena-Díez JM, Grau M, Forés R, Fernández-Bergés D, Elosua R, Sorribes M, Félix-Redondo FJ, Segura A, Rigo F, Cabrera de León A, Sanz H, Marrugat J, Sala J; enrepresentación del estudio DARIOS. Prevalence of atrial fibrillation and its associated factors in Spain: An analysis of 6 population-based studies. DARIOS Study. Rev Clin Esp. 2014;214:505-12.
10. Piccini JP, Hammil BG, Sinner MF, Jensen PN, Hernandez AF, Heckbert SR, Benjamin EJ, Curtis LH. Incidence and prevalence of atrial fibrillation and associated mortality among Medicare beneficiaries: 1993-2007. Circ Cardiovasc Qual Outcomes. 2012;5:85-93.
11. Lip GY, Lim HS. Atrial fibrillation and stroke prevention. Lancet Neurol. 2007;6:981–93.
12. Kerin NZ, Blevins RD, Goldman L, Faitel K, Rubenfire M. The incidence, magnitude, and time course of the amiodarone-warfarin interaction. Arch Intern Med. 1988;148:1779–81.
13. Sanoski CA, Bauman JL. Clinical observations with the amiodarone/warfarin interaction: dosing relationships with long-term therapy. Chest. 2002;121:19–23
14. Westergren T, Johansson P, and Molden E. Probable Warfarin-Simvastatin Interaction. Ann Pharmacother 2007; 41:1292-5.
15. Feldstein AC, Smith DH, Perrin N, Yang X, Simon SR, Krall M, Sittig DF, Ditmer D, Platt R, Soumerai SB: Reducing warfarin medication interactions: an interrupted time series evaluation. Arch Intern Med 2006; 166:1009-1015