|Year : 2015 | Volume
| Issue : 1 | Page : 58-61
Assessment of drug-related problems in depressive patients
Uday Venkat Mateti1, Tarachand Lalwani2, Anantha Naik Nagappa1, PV Bhandary3, D Verupaksha4, Rajesh Balkrishnan5
1 Department of Pharmacy Management, Manipal College of Pharmaceutical Sciences. Manipal University, Manipal, Karnataka, India
2 Department of Clinical Pharmacy, Kalupur Bank Institute of Pharmaceutical Education and Research, Gandhinagar, Gujarat, India
3 Department of Psychiatric, Dr. A.V. Baliga Memorial Hospital, Udupi, Karnataka, India
4 Department of Psychiatric, India
5 Department of Health Management and Policy, Center for Global Health and College of Pharmacy, University of Michigan, Michigan, USA
|Date of Web Publication||7-Jan-2015|
Anantha Naik Nagappa
Department of Pharmacy Management, Manipal College of Pharmaceutical Sciences, Manipal 576 104, Karnataka
Source of Support: None, Conflict of Interest: None
| Abstract|| |
Background: Drug-related problems (DRPs) frequently occur in modern medical practice, increasing the morbidity and mortality as well as increasing cost of care. Objective: The study is to evaluate the incidence of DRPs in patients admitted to a psychiatric department.
Materials and Methods: A prospective observational study was conducted for a period of 4 months at Baliga psychiatric hospital. All prescriptions of the study population were screened for DRPs such as adverse drug reactions (ADRs) and potential drug-drug interactions (pDDIs) by using computerized database system. Results: Out of 120 patients, 19 patients had observed 26 DRPs. Out of 33 patients, 19 patients had observed 26 ADRs and 14 patients had observed 24 pDDIs. The overall incidence of DRPs was 15.83%. Female patients outnumbered the male patients, in which 12 women constitute 10% followed by men 7 (5.83%). The common ADRs observed were hyponatremia and headache. Considering the outcomes, 20 (76.9%) cases recovered from ADRs and 20 (76.9%) of the ADRs were definitely preventable. Majority of ADRs were probable and were found to be mild to moderately severe. Conclusions: Age, female gender and polypharmacy were the risk factors for the developing DRPs.
Keywords: Depression, drug-related problems, psychiatric
|How to cite this article:|
Mateti UV, Lalwani T, Nagappa AN, Bhandary P V, Verupaksha D, Balkrishnan R. Assessment of drug-related problems in depressive patients. Perspect Clin Res 2015;6:58-61
|How to cite this URL:|
Mateti UV, Lalwani T, Nagappa AN, Bhandary P V, Verupaksha D, Balkrishnan R. Assessment of drug-related problems in depressive patients. Perspect Clin Res [serial online] 2015 [cited 2021 Jun 24];6:58-61. Available from: https://www.picronline.org/text.asp?2015/6/1/58/148820
| Introduction|| |
Drug-related problems (DRPs) are events involving drug therapy that actually or potentially interfere with desired health outcomes.  DRPs are prevalent and cause considerable patient morbidity and mortality, as well as increased healthcare cost. ,, Antidepressants are the third ranked therapeutic class in global pharmaceutical sales, totaling USD 17.1 billion and growing at a rate of 5% annually.  In addition to treating depressive disorders, antidepressant drugs are increasingly used to treat other illnesses, including anxiety disorders, chronic pain, and eating disorders.  In many cases, antidepressant drugs are used concurrently with other medications, thus exposing patients to potential harm owing to adverse drug reactions (ADRs). Patients with depressive disorder are particularly vulnerable to drug-drug interactions (DDIs) and ADRs due to their advanced age, polypharmacy, and the influence of psychiatric disease on drug metabolism. ADRs appear to be, between the fourth and sixth leading cause of death in India and the United States and they lead to an additional USD 4 billion in direct hospital costs per year.  Limited data were available on antidepressants and ADRs in the medically ill Indian patients. Hence, there is a need for the development of a uniform, prospective, well-defined monitoring program to enhance awareness and promote research in depressive patients. The objective of the study is to analyze the incidence of DRPs in patients admitted to a psychiatric department.
| Materials and Methods|| |
A prospective observational study was conducted for a period of 4 months at Baliga psychiatric hospital, Udupi. Ethical approval was obtained from the hospital ethics committee prior to the initiation of the study. Informed consent was obtained from the patient/patient's party for enrollment in the study. Patients admitted consecutively to the psychiatric department, who were taking at least two drugs and had a hospital stay of at least 24 hours, were included in the study. Patients referred to the psychiatric unit for evaluation, patients visiting on outpatient basis and patients who died during hospital stay were excluded from the study. Demographic information, number of drugs taken, duration of hospital stay and laboratory investigations were obtained from the patients' and clinical records. Certain demographic characteristics were studied to find out the risk factors for DRPs such as patient characteristics [gender, age (more than 18 years old), concurrent morbidities and duration of stay], drug characteristic (number of drugs) and laboratory investigations. All the prescriptions were screened for potential drug-drug interactions (pDDIs) by using computerized database system (Drug Reax-Micromedex, 2008) and ADRs are identified from volunteered symptoms or observed signs from patients. , For determining the DRPs, both the medications added as well as discontinued were considered.
Causality assessment was done by using Naranjo's ADR probability scale. The Naranjo algorithm or Naranjo Scale is a questionnaire designed by Naranjo et al., for determining the likelihood of whether ADRs are actually due to the drug or the result of other factors.  Severity, preventability and the presence of predisposing factors for the reaction was analyzed. Preventability of ADRs were categorized by using the criteria of Schumock and Thornton modified. , Further, any possible relationship between the patient characteristics and the characteristics of the reaction was assessed. Management strategies were employed for the management of ADRs and categorized as drug withdrawal, dose reduction, additional treatment for ADR, and no change in regimen with any additional treatment. Further, categorization of the outcome of ADRs was done for response after dechallenge and rechallenge as well as the outcomes of the event.
Frequencies with percentage were used to summarize age, gender, number of drugs taken, number of diseases, frequency of ADRs, drugs involved in the ADRs and severity of ADRs. Mean and standard deviation was used to summarize age and number of drugs taken. Median and range was used to summarize number of diseases. Chi square test was used to find the association between age, gender, number of drugs, number of diseases and DRPs. A P < 0.05 was considered statistically significant. All analyses were performed using Statistical Package for the Social Sciences software (SPSS version 18).
| Results|| |
Out of 120 patients, 33 patients had observed a minimum of one ADR and pDDI and maximum of two ADRs and pDDIs. Among 33 patients, 19 patients had observed 26 ADRs and 14 patients had observed 24 pDDIs. Although the pDDIs were not observed during the study, healthcare professionals should be aware of this during their prescription as it had the potential to occur. The overall incidence of DRPs in the present study was 15.83% (n = 19). Among the 19 patients, one patient developed a minimum of one DRP and maximum of two DRPs. Female patients outnumbered the male patients, of which 12 women constitute 10% followed by men 7 (5.83%), the age group of 40-60 years had 9 (7.5%), followed by other age groups. Most of the DRPs were developed in 12 (10%) patients with a length of their stay in hospital of >7 days, followed by 7 (5.83%) with <7 days. Patient characteristics and statistically significant of the results were summarized in the [Table 1].
In the present study, sertraline 6 (23.07%), amitriptyline 4 (15.38%) and lithium 4 (15.38%) were the most commonly observed drugs involved and the common ADRs observed were hyponatremia 9 (34.61%) , and headache 4 (15.38%). Incidence of individual suspected drugs with their ADRs results were summarized in the [Table 2]. All the ADRs were confirmed to have the possible causality by using Naranjo algorithm. The suspected drugs were withdrawn in 3 cases (11.53%) and dose was altered in 3 cases (11.53%). Six (23.07%) patients improved after dechallenge was done. Rechallenge was done in 6 patients and no recurrences of symptoms were observed. Upon causality assessment, majority of the reports was rated as probable 20 (76.92%) followed by possible 6 (23.07%). These adverse drug interactions were classified into mild, moderate and severe, in which, 20 (76.92%) were mild followed by 6 (23.07%) were moderate. Predictability and preventability were as depicted in management, outcome and analysis of ADRs, which were summarized in the [Table 3].
| Discussion|| |
Our study revealed that the overall incidence of DRPs in the study population were 15.83% which is low, compared to similar studies.  Our findings showed that the patterns of incidence of DRPs are positively associated with patient's age, gender and number of drugs prescribed. A higher rate of DRPs was present in female patients and particularly in the age group of 40-60 years. These results are in accordance with the observations of similar reported studies. ,,
It is important to recognize that the absence of reported ADRs is no evidence but may reflect many antidepressants have not been properly evaluated for ADRs. Sertraline 6 (23.07%), amitriptyline 4 (15.38%) and lithium 4 (15.38%) were the most commonly observed drugs involved in the present study and the common ADRs observed was hyponatremia 9 (34.61%), headache 4 (15.38%) and followed by others. These results were supported by similar studies. ,,
| Limitations and Future Directions|| |
The duration of this study was only for 4 months and the patients were monitored from the date of their admission till the date of their discharge. The sample required for this study was not computed. Interventional studies should be performed to investigate whether good clinical management of DRPs can reduce drug-related morbidity or mortality by providing pharmaceutical care. Identification of DRPs with resolution is one of the prime objectives of pharmaceutical care.
| Conclusions|| |
Our study results conclude that age, female gender and polypharmacy were the risk factors to develop the DRPs. Over time, ongoing program to monitor and report DRPs may help to measure the economic impact of pDDIs and ADRs prevented, as manifested through reduced hospitalization, efficient and economical drug use, and minimize organizational liability and entail the safety of the patient. The challenges for the pharmacist are to identify the DRPs and search for comparable therapy and convince the physician regarding the preference of the idea, which can resolve the DRPs. Hence, there is an imperative need of the pharmacist to improve the patient care and safe use of medicines.
| References|| |
Ruths S, Viktil KK, Blix HS. Classification of drug-related problems. Tidsskr Nor Laegeforen 2007;127:3073-6.
Mannesse CK, Derkx FH, De Ridder MA, Man in't Veld AJ, van der Cammen TJ. Contribution of adverse drug reactions to hospital admission of older patients. Age Ageing 2000;29:35 -9.
Ebbesen J, Buajordet I, Erikssen J, Brørs O, Hilberg T, Svaar H, et al
. Drug-related deaths in a department of internal medicine. Arch Intern Med 2001;161:2317-23.
Ernst FR, Grizzle AJ. Drug-related morbidity and mortality: Updating the cost-of-illness model. J Am Pharm Assoc (Wash) 2001;41:192-9.
Bates DW. Drugs and adverse drug reactions. How worried should we be? JAMA 1998;279:1216-7.
Smith GC, Clarke DM, Handrinos D, Trauer T. Adverse reactions to antidepressants in consultation-liaison psychiatry inpatients. Psychosomatics 2002;43:228-33.
IMS. What's New. Retail prescriptions grow 5.6% in 2004, down from 7.9% in 2003. Available from: www.imshealthcanada.com/htmen/1_0_16.htm [Last accessed on 2013 Mar 10.].
Vitry AI. Comparative assessment of four drug interaction compendia. Br J Clin Pharmacol 2007;63:709-14.
Thomson Micromedex. DRUGDEX®
system [online]. Available from: http://www.micromedex.com/products/drugdex/ [Last accessed on 2012 Feb 16].
Naranjo CA, Busto U, Sellers EM, Sandor P, Ruiz I, Roborts EA, et al
. A method for estimating the probability of adverse drug reactions. Clin Pharmacol Ther 1991;30:239-45.
Lau PM, Stewart K, Dooley MJ. Comment: Hospital admissions resulting from preventable adverse drug reactions. Ann Pharmacother 2003;37:303-4.
Mateti UV, Nekkanti H, Vilakkathala R, Rajakannan T, Mallayasamy S, Ramachandran P. Pattern of Angiotensin-converting enzyme inhibitors induced adverse drug reactions in South Indian teaching hospital. North Am J Med Sci 2012;4:185-9.
Shubrata KS, Narayanaswamy JC, Viswanath B, Rudhran V, Chandrasekhar CR, Math SB. Sertraline-induced hyponatremia and seizures in old age. J Neuropsychiatry Clin Neurosci 2012;24:E47.
Liu BA, Mittmann N, Knowles SR, Shear NH. Hyponatremia and the syndrome of inappropriate secretion of antidiuretic hormone associated with the use of selective serotonin reuptake inhibitors: A review of spontaneous reports. CMAJ 1996;155:519-27.
Tenni PC, Stafford AC, Peterson GM, Jackson SL. A comparison of drug related problems identified in RMMRs and HMRs. Aust Pharm 2007;26:306-7.
Nieuwstraten C, Labiris NR, Holbrook A. Systematic overview of drug interactions with antidepressant medications. Can J Psychiatry 2006;51:300-16.
Kessler RC, Berglund P, Demler O, Jin R, Merikangas KR, Walters EE. Lifetime prevalence and age-of-onset distributions of DSM-IV disorders in the National Comorbidity Survey Replication. Arch Gen Psychiatry 2005;62:593-602.
Guy W. ECDEU Assessment Manual for Psychopharmacology. US Dept Health, Education, and Welfare publication (ADM) 76-338. Rockville: National Institute of Mental Health; 1976. p. 218-22.
[Table 1], [Table 2], [Table 3]
|This article has been cited by|
||Critical analysis of drug related problems among inpatients in the psychiatry department of a tertiary care teaching hospital: A pharmacist led initiative
| ||Anjali Jayakumar,Achsa Shekaina Abraham,Shishir Kumar,Sharad Chand,Sophia M. George,Juno J. Joel,Nandakumar UP |
| ||Clinical Epidemiology and Global Health. 2021; 11: 100743 |
|[Pubmed] | [DOI]|
||Assessing the impact of medication management review service for females diagnosed with depression and anxiety: A randomized control trial
| ||Yasmeen AbuNabaća,Iman A. Basheti |
| ||Journal of Evaluation in Clinical Practice. 2019; |
|[Pubmed] | [DOI]|
||Development and content validation of an instrument to support pharmaceutical counselling for dispensing of prescribed medicines
| ||Kérilin Stancine Santos Rocha,Sabrina Cerqueira Santos,Thays Carneiro Boaventura,Genival Araujo dos Santos Júnior,Dyego Carlos Souza Anacleto de Araújo,Carina Carvalho Silvestre,Elisdete Maria Santos de Jesus,Divaldo Pereira de Lyra Júnior |
| ||Journal of Evaluation in Clinical Practice. 2019; |
|[Pubmed] | [DOI]|