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 »  Abstract
 »  Introduction
 »  Materials and Me...
 »  Results
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Year : 2008  |  Volume : 40  |  Issue : 6  |  Page : 243-247

Assessment of prescription pattern at the public health facilities of Lucknow district

Department of Community Medicine, King George Medical University, Lucknow, Uttar Pradesh, India

Date of Submission10-Jan-2008
Date of Decision18-Jul-2008
Date of Acceptance22-Nov-2008

Correspondence Address:
Ranjeeta Kumari
Department of Community Medicine, King George Medical University, Lucknow, Uttar Pradesh
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Source of Support: None, Conflict of Interest: None

DOI: 10.4103/0253-7613.45148

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 » Abstract 

Objectives: To study the prescription pattern at the different levels of public health facilities of Lucknow district and to assess the average cost of drugs prescribed.
Methods: Multi-stage stratified random sampling was done to select 1625 prescriptions of the patients attending the different level of public health facilities in Lucknow district, from August 2005 to September 2006, which was used for the development of study tools, collection of data and analysis.
Results: The important components of prescription viz. examination findings, weight of the child, follow up visit and the signatures of the prescribers were absent in the prescriptions at the primary level. Polypharmacy was common (3.1 ± 1.6 drugs per prescription). The prescription of drugs by generic name was low (27.1%). The prescriptions at the secondary level health facilities were incomplete with respect to mentioning the suffix/prefix of the drug, full name, dose, frequency and strength of the drugs, and directions specifying the route and duration of the treatment. The average cost of drugs/prescription/day in US$ (Mean, SD) was found to be the highest at the tertiary level (0.34, 0.43), which decreased significantly at the primary level health facilities.
Conclusion: The pattern of prescription in terms of completeness and rationality was poor. There is an urgent need to improve the standards of drug prescription.

Keywords: Cost, multi-stage stratified sampling, prescription pattern

How to cite this article:
Kumari R, Idris M Z, Bhushan V, Khanna A, Agrawal M, Singh SK. Assessment of prescription pattern at the public health facilities of Lucknow district. Indian J Pharmacol 2008;40:243-7

How to cite this URL:
Kumari R, Idris M Z, Bhushan V, Khanna A, Agrawal M, Singh SK. Assessment of prescription pattern at the public health facilities of Lucknow district. Indian J Pharmacol [serial online] 2008 [cited 2023 May 29];40:243-7. Available from: https://www.ijp-online.com/text.asp?2008/40/6/243/45148

 » Introduction Top

Drugs play an important role in protecting, maintaining and restoring health. Prescription writing is a science and an art, as it conveys the message from the prescriber to the patient. The treatment of diseases by the use of essential drugs, prescribed by their generic names, has been emphasized by the WHO and the National Health Policy of India. [1] The International Network for the Rational Use of Drugs (INRUD) generated indicators in three main drug use areas viz prescribing, patient care and drug systems. [2]

The cost of drug prescription poses problems in developing countries such as India, which allocates only 0.9% of its Gross Domestic Product (GDP), i.e. Rs. 200 per capita, [3] to health. The allocation for meeting the cost of the drugs is even meager. Moreover, the production of pharmaceutical preparations in India is grossly imbalanced and there is cut throat competition among drug companies, which breeds malpractice. Indian markets are flooded with over 70,000 formulations, as compared to about 350 listed in the WHO essential drug list, and pharmaceutical companies encourage doctors to prescribe branded medicines, often in exchange for favors. This study was, therefore, undertaken with the aim to find out the prescription pattern and cost per prescription at different levels of health facilities in the public health facilities of Lucknow - the capital city of Uttar Pradesh, a state in north India.

 » Materials and Methods Top

A cross-sectional study was conducted from August 2005 to September 2006, among patients attending the allopathic public health facilities of Lucknow district, which provide three different levels of health care. The sample size was 1688 ( P = 50% for the level of completeness of prescription, d = 5%, which is the absolute permissible error in the prevalence, with a 95% confidence limit; nonresponse/wastage = 10%). We were able to obtain the required information from 1625 patients only. Multi-stage stratified random sampling was used to select the public health facilities to be included in the study. At the first stage (tertiary level), Medical College (MC) was selected. At the second stage (secondary level), the Balrampur District Hospital (DH) and two community health centers (CHC) were selected. At the third stage (primary level), two primary health centers (PHC) each, under the two selected CHCs were selected. Based on the previous year's out patient department (OPD) attendance, the number of patients to be included in the study at each of these health facilities was estimated by probability proportion to size (PPS).

At the MC, 844 new patients were interviewed from the OPDs of 10 departments i.e. Medicine, General Surgery, Obstetrics and Gynecology, Pediatrics, Orthopedics, Otorhinolaryngology, Ophthalmology, Cardiology, Neurology, and Tuberculosis and Chest diseases. At the DH, a total of 420 new patients attending the OPDs of Medicine, General Surgery, Obstetrics and Gynecology, and Pediatrics were interviewed. One hundred and five new patients were interviewed from each of these departments. Similarly, 105 new patients were interviewed from each of the two randomly selected CHCs, while 53 patients from each of the selected PHCs were interviewed. To assess the completeness of prescription, the variables were taken according to the Principles of Prescription Order Writing [4] [Figure 1]. The patients attending the OPDs of the respective health care facility were selected by systematic random sampling for the interview. The calculation of cost of the prescription included the cost of drugs only.

'New' (any patient attending the health facility for the first time for the present episode of illness) or 'referred' (a patient who had visited some other health facility for the present episode of illness and was referred to the present health care facility) patients attending the OPD of the respective health care facility were included in the study, while patients whose family members worked in the health care facility and follow-up patients were excluded.

Permission to conduct the study was taken from the superintendents of the respective health care facility. All the patients were interviewed after taking informed verbal consent from them. The prescription was photographed by a digital camera after they had consulted the doctor. The prescribing doctor was kept unaware of the procedure, except in unavoidable circumstances. In the case of pediatric patients, the adult accompanying was the respondent. A quantitative pretested structured interview schedule was used to record information.

Statistical analysis

Data was analysed using the software Epi Info version 6 [5] and Microsoft Excel (Analysis toolpak) for Windows. Discrete data was analysed using Pearson's Chi-square test for normal distribution and Single factor anova for the comparison of means. P value < 0.05 was considered significant.

 » Results Top

Observation of the prescriptions revealed that patient details such as age, gender and address were lacking in considerable prescriptions, specially so at the DH. The prescriptions at the PHCs and CHCs lacked all details about the prescriber. The data from other health facilities were also not very impressive.

The details of the chief complaints of the patients and the legibility of the prescriptions were significantly better in the prescriptions at the tertiary and secondary levels, as compared to the primary health facilities. The details of examination findings, weight of the child, follow up visit and signature of the prescriber were absent in the prescriptions at the PHC [Table 1].

Prescription of the drugs by generic names was disheartening at the tertiary level (1.1%), while the use of abbreviations in writing the name of the drugs was the maximum at the primary level (69.8%). The details about the dose, strength, frequency and duration of treatment, and non-pharmacological treatment were best at the tertiary level [Table 2].

Polypharmacy (>2 drugs) was evident in a majority of the prescriptions, at all the health facilities. The average number (Mean ± SD) of drugs prescribed was minimum (2.6 ± 1.6) at the tertiary level, while it increased at the primary level (3.5 ± 1.4) [Table 3]. It was observed that vitamins and other supplements (25.6%) constituted the major group of drugs prescribed at all the health facilities, followed by antibiotics and antiinfectives (20.6%), and non steridal antiinflammatory drugs (NSAIDS) /antipyretics (17.7%). All the patients at the primary health care level were prescribed a drug indicating the placebo prescription at the primary level.

The average cost of drugs/prescription/day (Mean, SD) in US$ [6] (as on 29 Sep. 2006) was found to be significantly more at the MC (0.34, 0.42) and CHC (0.34, 0.26), while it was the least at the PHC (0.19, 0.19) [Figure 2].

The prescription of antibiotics and anti-infectives, NSAIDS and antipyretics and vitamins and other supplements was more at the secondary and primary levels, as compared to the tertiary level. On the other hand, a significantly greater number of H 2 receptor antagonist/other gastrointestinal (GI) drugs, antihypertensives/other cardiovascular (CV) drugs, central nervous system (CNS) drugs, topical nasopharyngeal/ocular drugs and sedatives/anxiolytics were prescribed at the tertiary level, as compared to the secondary and primary level. Prescription of antihistamines was more at the primary level (11.1%), than at the other levels.

 » Discussion Top

This study was an attempt to find the existing pattern of prescription writing in various public health facilities, which cater to the health needs of the majority of the less educated population. The relative lack of information about the patient and the prescriber, reported in this study, was similar to that reported by Mallet et al . [7] The absence of examination findings on the prescription would lead to problems in tracing the progress during the follow up visits. Also, lack of information on the weight of the child on the prescription and poor legibility could lead to medication errors during dispensing.

Polypharmacy, at all the health facilities provides a fertile ground for drug interactions. The only consolation was the practice at the tertiary level, with the lowest average (2.6 ± 1.6), along with a considerable proportion of prescriptions without any drugs. A similar trend of polypharmacy was reported by others. [8],[9],[10],[11],[12] Low (27.1%) generic prescription of the drugs, especially at the tertiary level health facility (1.1%) could reflect the dominating influence of pharmaceutical companies. Our findings regarding generic prescribing are contrary to those of several studies carried out in other countries, [13],[14],[15],[16] while being similar to that of various studies carried out in India and the neighboring countries. [7],[10],[11],[12],[17],[18],[19],[20]

Prescriptions written at the tertiary level, which is a teaching and training institution with its expert prescribers as well as a large group of resident doctors, were better in respect to the details of the drugs. On the other hand, the prescriptions at primary level health facilities, and to some extent the secondary level health facilities, were poor, with most of the details missing. Similar findings regarding the incompleteness of the prescription were observed by Mallet et al., [7] Moghadamnia et al., [16] Dineshkumar et al . [21] and Patel et al . [22] The use of Latin in writing the directions regarding the drugs could lead to administration of the wrong doses of the drugs, due to misinterpretation.

Our observation regarding the dominance of vitamins and other supplements, antibiotics and NSAIDS and antipyretics in the prescriptions at the secondary and primary level health facilities was similar to that of other studies. [8],[9],[10],[16],[18],[21],[23] The use of injections (1.7% of all the drugs) at all the health facilities in our study was similar to that observed by Rehan et al . [24] (0.9%), but lower than those reported in other studies. [10],[22],[25] Prescription of a significantly greater number of hormones, particularly steroids, at the primary level health facilities, indicates irrational prescribing.

The prescription of a greater number of H 2 receptor antagonist/other GI drugs (11.5%), antihypertensives/other CV drugs (7.3%), CNS drugs (4.5%), topical nasopharyngeal/ocular drugs (10.7%) and sedatives/anxiolytics (4%) at the tertiary level is in accordance with the diagnosis.

The high average cost of the drugs at the MC was due to the type and severity of the illness that the patients come with. On the other hand, the high cost of the drugs at the CHCs indicate a significant degree of irrational prescribing, as is evident by the fact that it has the highest average number of drugs prescribed. We did not evaluate the cost of other aspects of health care such as transport, investigations, stay in the hospital and other intangible costs, which, if calculated, will provide us with a more realistic picture of the existing situation. We, therefore, need to devise mechanisms to keep a check on the irrational prescription of drugs.

 » Conclusion Top

Our study reveals that despite all the efforts taken by the government and the WHO, the pattern of prescription in terms of completeness and rationality remains poor. There is an urgent need to develop standards of drug prescription and develop ways and means to ensure that they are adhered to. Special attention needs to be given to the primary and secondary level health facilities, where significant irrational prescribing in terms of polypharmacy and relative absence of the directions about the use of drugs was evident. This could be done by making it mandatory for the prescribers to attend regular continuing medical education (CME), so as to update their knowledge. A check on the influence of pharmaceutical companies and their representatives needs to be maintained in health institutions, to minimize their influence on the drug prescription. All these measures would go a long way in providing optimal, low cost, and effective medicines to the patients.

 » Acknowledgment Top

We thank the respondents for their cooperation. My special thanks to Dr. Bhola Nath who helped and provided constant comfort and technical support during the course of this study.

 » References Top

1.Kishore J. National Health Programs of India. 6th ed. New Delhi: Century Publications; 2006: p. 370.   Back to cited text no. 1    
2.Laing RO. Rational drug use: An unsolved problem. Trop Doct 1990;20:101-3.  Back to cited text no. 2    
3.Hota PK. New paradigm of Health. NRHM Newsletter 2005;1:13.  Back to cited text no. 3    
4.Edwards L, Roden DM. Principles of prescription order writing, Appendix I. Goodman and Gilman's, The Pharmacological Basis of Therapeutics. 10thed. New York: McGraw-Hill; p. 1903-15.  Back to cited text no. 4    
5.Available from http://www.cdc.gov/EpiInfo/downloads.htm. Downloaded in July, 2006.  Back to cited text no. 5    
6.Available from http://www.ratesfx.com/cgi-bin/dataview.pl?bc=INRandcc=USDandt=52andl=en. Accessed on 29th November, 2006.  Back to cited text no. 6    
7.Mallet HP, Njikam A, Scouflaire SM. Evaluation of prescription practices and of the rational use of medicines in Niger. Sante 2001;11:185-93.  Back to cited text no. 7    
8.Naja SA, Idris MZ, Khan A. Drugs cost more at primary health clinics: An experience from Libya. Health Policy Plan 1988;3:69-73.  Back to cited text no. 8    
9.Al-Nasser AN. Prescribing patterns in primary healthcare in Saudi Arabia. DICP 1991;25:90-3.  Back to cited text no. 9    
10.Bapna JS, Tekur U, Gitanjali B, Shashindran CH, Pradhan SC, Thulasimani M, et al. Drug utilization at primary health care level in southern India. Eur J Clin Pharmacol 1992;43:413-5.  Back to cited text no. 10    
11.Kshirsagar MJ, Langade D, Patil S, Patki PS. Prescribing patterns among medical practitioners in Pune, India. Bull World Health Organ 1998;76:271-5.  Back to cited text no. 11    
12.Hazra A, Tripathi SK, Alam MS. Prescribing and dispensing activities at the health facilities of a non-governmental organization. Natl Med J India 2000;13:177-82.  Back to cited text no. 12    
13.Guyon AB, Barman A, Ahmed JU, Ahmed AU, Alam MS. A baseline survey at the primary health care level in Bangladesh. Bull World Health Organ 1994;72:265-71.  Back to cited text no. 13    
14.Massele AY, Mwaluko GM. A study of prescribing patterns at different health care facilities in Dar es Salaam, Tanzania. East Afr Med J 1994;71:314-6.  Back to cited text no. 14    
15.Bosu WK, Ofori-Adjei D. An audit of prescribing practices in health care facilities of the Wassa West district of Ghana. West Afr J Med 2000;19:298-303.  Back to cited text no. 15    
16.Moghadamnia AA, Mirbolooki MR, Aghili MB. General practitioner prescribing patterns in Babol city, Islamic Republic of Iran. East Mediterr Health J 2002;8:550-5.  Back to cited text no. 16    
17.Ravi Shankar P, Partha P, Nagesh S. Prescribing patterns in medical outpatients. Int J Clin Pract 2002;56:549-51.  Back to cited text no. 17    
18.Shankar R, Kumar P, Rana M, Dubey A, Shenoy N. A comparative study of drug utilisation at different levels of the primary healthcare system in Kaski district, Western Nepal. N Z Med J 2003;116:U602.  Back to cited text no. 18    
19.Nwolisa CE, Erinaugha EU Ofoleta SI. Prescribing practices of doctors attending to under fives in a children's outpatient clinic in Owerri, Nigeria. J Trop Pediatr 2006;52:197-200.  Back to cited text no. 19    
20.Dawadi S, Rao BS, Khan GM. Pattern of antimicrobial prescription and its cost analysis in respiratory tract infection. Kathmandu University Journal of Science, Engineering and Technology; 2005. p. 1.  Back to cited text no. 20    
21.Dineshkumar B, Raghuram TC, Radhaiah G, Krishnaswamy K. Profile of drug use in urban and rural India. Pharmacoeconomics 1995;7:332-46.  Back to cited text no. 21    
22.Patel V, Vaidya R, Naik D, Borker P. Irrational drug use in India: A prescription survey from Goa. J Postgrad Med 2005;51:9-12.  Back to cited text no. 22  [PUBMED]  Medknow Journal
23.Desta Z, Abula T, Beyene L, Fantahun M, Yohannes AG, Ayalew S. Assessment of rational drug use and prescribing in primary health care facilities in North West Ethiopia. East Afr Med J 1997;74:758-63.  Back to cited text no. 23    
24.Rehan HS, Lal P. Drug prescribing pattern of interns at a government healthcare centre in northern India. Trop Doct 2002;32:4-7.  Back to cited text no. 24    
25.Rishi RK, Sangeeta S, Surendra K, Tailang M. Prescription audit: Experience in Garhwal (Uttaranchal), India. Trop Doct 2003;33:76-9.  Back to cited text no. 25    


  [Figure 1], [Figure 2]

  [Table 1], [Table 2], [Table 3]

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