Prescribing trends of glaucoma drugs in six major cities of China from 2013 to 2017
Authors:
Lingyan Yu aff001; Kai Ding aff001; Lifang Luo aff001; Zhenwei Yu aff002
Authors place of work:
Department of Pharmacy, Second Affiliated Hospital, College of Medicine, Zhejiang University, Hangzhou, Zhejiang, China
aff001; Department of Pharmacy, Sir Run Run Shaw Hospital, College of Medicine, Zhejiang University, Hangzhou, Zhejiang, China
aff002
Published in the journal:
PLoS ONE 15(1)
Category:
Research Article
doi:
https://doi.org/10.1371/journal.pone.0227595
Summary
Objective
To evaluate the prescribing trends of glaucoma drugs in six major cities of China from 2013 to 2017.
Methods
A descriptive analysis using pharmacy prescription data was conducted. Outpatient prescription data was extracted from the Hospital Prescription Analysis Cooperative Project. Prescribing patterns, trends of visits, and corresponding expenditures for glaucoma medications were analyzed.
Results
A total of 84297 ambulatory prescriptions were included in the current study. Visits by glaucoma patients increased from 13808 in 2013 to 20060 in 2017. Over the same period, the yearly expenditure for glaucoma drugs increased from 2.33 million to 3.95 million Chinese Yuan (CNY). Among all the six classes of glaucoma drugs (prostaglandin analogues, carbonic anhydrase inhibitors, α-receptor agonists, β-receptor antagonists, cholinergic agonists and fixed combinations), β-receptor antagonists were the most commonly prescribed in 2013, accounting for 34.3% of patients, but gradually decreased to 27.1% in 2017. Prostaglandin analogues became the most frequently prescribed drugs in 2017, accounting for 30.2% of the visits. Prostaglandin analogues are the most expensive and yielded a total expenditure of 2.34 million CNY in 2017, followed by carbonic anhydrase inhibitors, α-receptor agonists, β-receptor antagonists, fixed combinations, and cholinergic agonists. Combination therapy became increasingly prescribed in 2017.
Conclusion
Glaucoma prescribing practices exhibited substantial changes over the study period. The number of glaucoma prescriptions continuously increased from 2013 to 2017, leading to increased prescription costs. These findings implied a similar trend observed in previous studies, as well as recommendations in the appropriate guidelines.
Keywords:
Drug therapy – glaucoma – Outpatients – Adverse reactions – intraocular pressure – Cholinergics – Prostaglandin – Carbonic anhydrases
Introduction
Glaucoma is a group of progressive optic neuropathies that can lead to severe visual field loss and irreversible blindness if left untreated [1]. Glaucoma affects more than 70 million people worldwide, approximately 10% of which are bilaterally blind [2]. In China, 13.12 million people had glaucoma in 2015. As society is rapidly aging, this number is predicted to reach 25.16 million by 2050 [3]. Therefore, greater attention should been paid to the treatment of glaucoma.
Lowering of intraocular pressure is the only proven method for glaucoma treatment [4]. Although both laser therapy and surgery are available, medical therapy is the initial treatment option for the vast majority of patients [5]. Currently, there are six main categories of glaucoma medications including prostaglandin analogues (PG), β-receptor antagonists (BRA), carbonic anhydrase inhibitors (CAI), α-receptor agonists, cholinergic agonists, and fixed combinations [5–6].
Many factors should be considered with regard to the choice of drugs, such as the patient’s intraocular pressure, visual field, degree of fundus damage, dosing schedules, treatment adherence, cost, and adverse effects [7]. However, few studies have investigated the prescribing patterns and trends of glaucoma medications in China. This research aimed to explore the changes in prescription patterns of glaucoma and related expenditures by using a large sample of outpatients with glaucoma over a 5-year period from 2013 to 2017.
Methods
Study design
This research was designed as a retrospective descriptive study based on prescription data. The study was approved by the ethics committee of Sir Run Run Shaw Hospital, College of Medicine, Zhejiang University (20190628–22). Informed consent was waived by the same committee as part of the approval.
Data source
Prescription data was extracted from the database of Hospital Prescription Analysis Cooperative Project. The objective of the project was to analyze prescription data of hospitals in China. Participating hospitals provided data on prescriptions to the research group for each sample day. There were forty randomized sampling days per year, including ten sampling days for each quarter. Prescription data included patients’ code, sex, age, date, and diagnosis, as well as drug generic name and price of the drug. The database for this project has been widely used [8–9].
In this study, prescription data of 56 hospitals in Beijing, Hangzhou, Chengdu, Guangzhou, Shanghai, and Tianjin were selected because these hospitals participated in the program continuously from 2013 to 2017, and were respectively located in the north, west, south, and east, thus covering a wide area of China. Brief hospital information is shown in S1 Table.
Prescription inclusion and data extraction
Prescriptions containing at least one glaucoma drug for outpatients who had a diagnosis of glaucoma were included in this study. There is no restriction regarding the diagnostic criteria or the type or the severity of glaucoma. The study period was from 2013 to 2017. Prescriptions for patients aged below 18 were excluded. The following fields of prescriptions will be extracted: patient’s code, sex, age, date, location, and diagnosis; generic name and price of glaucoma drugs. Prescriptions with missing fields were excluded. Patient codes were reorganized by the dataset such that individual participants could not be identified.
This study was conduct between Jul 2019 and Sep 2019.
Drug classes
Glaucoma drugs used in this study were classified into the following categories: PG, BRA, CAI, α-receptor agonists, cholinergic agonists and fixed combinations. Fixed combinations drops included bimatoprost with timolol and brinzolamide with timolol.
Analysis
Primary analysis units of this study were treatment visits and expenditure of patients who were prescribed glaucoma drugs. A visit was defined as a prescription containing glaucoma drugs to a glaucoma patients, regardless if the prescription was new or for a refill. Expenditure was obtained by adding up all the prices of glaucoma drugs. Cost per visit, also called average cost, was calculated by dividing the total expenditure by the number of visits. Overall trends of glaucoma drug prescribing were described over the 5-year observation period. Trends for each class and some specific glaucoma drugs were also evaluated. Prescribing patterns were further analyzed by monotherapy and combination therapy. The rank-sum test was used to test the statistical significance of overall trends for visits and expenditure. The Cochran-Armitage trend test was applied to assess the statistical significance of prescribing trends of drugs and drug classes. All statistical analyses were conducted using R V.3.3.0 (http://www.R-project.org). A P value of < 0.05 was considered as statistically significant.
Results
Characteristics of included prescriptions
A total of 85255 prescriptions for outpatients who diagnosed with glaucoma were extracted. Of these, 84927 met the inclusion criteria and were included in this study. Table 1 shows the demographic characteristics of the populations of included prescriptions. The proportion of females (51.5%) was generally higher than male patients. The population with glaucoma aged below 40 was small, around 8% each year. Gender and age distributions for each year remained constant.
Overall trends of glaucoma drug prescribing
Overall trends of glaucoma drug prescribing were described using visit and expenditure data. Our results showed that both visits and expenditure of glaucoma drugs increased during the observation period (both P < 0.05). As indicated in Fig 1, yearly visits of glaucoma patients had increased substantially from 13808 in 2013 to 20060 in 2017, representing a 45.3% increase over the study period. Meanwhile, a 69.5% increase in prescribing cost was found over the the same period, from 2.33 million Chinese Yuan (CNY) in 2013 to 3.95 million CNY in 2017. Trends for different geographical religions were shown in S1 Fig.
Trends by drug class
Prescription trends of glaucoma drugs were further analyzed by drug class. Fig 2 shows trends of the visits and expenditures for the six class of glaucoma drugs. In 2013, BRA were prescribed for 34.3% of patients, making them the most commonly prescribed glaucoma drug that year. However, the percentage of BRA gradually decreased to 27.1% in 2017 (P < 0.05). PG became the most frequently prescribed glaucoma drug class in 2017, accounting for 30.21% of the visits (P < 0.05). Percentages of visits of CAI, α-receptor agonists, and cholinergic agonists all increased from 2013 to 2017, to a small but statistically significant extent (all P < 0.05). Fixed combinations were rarely prescribed at the beginning of the study, but their use increased rapidly in recent years. The percentage of visits with prescription of fixed combinations was 0.875% in 2013, increasing to 1.64% in 2017.
The increase in visits with PG prescriptions was also reflected in the corresponding expenditures during the study period. In 2017, 2.34 million CNY was spent on PG, making it the glaucoma drug class with the highest expenditure, followed by CAI, α-receptor agonists, BRA, fixed combinations, and cholinergic agonists (Fig 2B).
The average cost of each glaucoma drug class remained constant during the study period (Fig 2C). According to cost per visit, PG, the most frequently prescribed glaucoma drug class at the end of the study, were also the most expensive except for fixed combinations. BRA, the former most-popular class, had a much lower average cost compared with PG.
Trends of specific drugs in top classes
Prescribing trends of each drug in PG and BRA classes were analyzed by visits. The results shown in Fig 3A indicated that latanoprost was the most frequently prescribed PG, comprising almost 50% of all PG prescribed in 2017. Use of tafluprost, a new type of PG, was only observed in 2017. Carteolol was the most often used BRA, contributing nearly 85.3% of all BRA prescribed in 2017 (Fig 3B). Although use of carteolol continuously increased during the study period, this was not significant (P = 0.08). Notably, the use of timolol rapidly decreased (P < 0.05).
Trends of prescribing patterns
Drugs with different mechanisms can be used in combination for patients whose glaucoma cannot be controlled by monotherapy. Trends of prescription patterns for monotherapy, dual combination, and triple-or-more combination are shown in Fig 3C. The percentage of combination medication was constant from 2013 to 2016, but increased in 2017. Percentages of dual combination prescriptions varied from 27.0% to 33.2% over the 5-year observation period. During this time, proportions of triple-or-more combination prescriptions dramatically increased from 6.47% to 12.49%.
Discussion
Prescriptions trends of glaucoma medications in China have been revealed for the first time. We found that both the number of patients receiving glaucoma drugs and the total cost increased rapidly during the observation period. Moreover, the preferred drug had been changed and combination therapy became a more favorable option.
Prescription of glaucoma medications showed an upward trend between 2013 and 2017, which was basically consistent with previous reports in the literature [10]. An increasing number of patients with glaucoma was also revealed in another study [3]. Although glaucoma can occur at any age, aging is a major risk factor [11–12]. The prolonged life expectancy of the Chinese population and a rapidly aging society result in an increased number of elderly individuals with a high risk of glaucoma [13]. Our results showed that the most patients were aged above 40 years, consistent with previous studies [14–15]. Increased numbers of glaucoma patients led to an increase in medical expenditure; in particular, increased acquisition of PG, which had a higher cost, contributed to the incremental increase in total expenditure.
PG and BRA accounted for a large proportion of prescriptions during the study period, which may be related to the characteristics of drug action, price, and regional economic level. The major trend observed was the conversion of BRA prescriptions into PG prescriptions. PG, which is utilized to increase uveoscleral outflow and decrease aqueous humor production, effectively lowers intraocular pressure and also acts during the night [16]. Some studies have demonstrated PG to be more efficacious than BRA with fewer systemic side effects [17–18]. Notably, the consistency of treatment adherence in patients may be improved by its once-daily administration [19]. In addition, many guidelines recommended use of PG as the first-line medication for most patients since latanoprost was introduced in the United States as a new chemical entity for the topical treatment of glaucoma [20–21]. We predicted that use of PG will increase in accordance with previous researches that found PG to be dominant for the treatment of glaucoma in Europe and North America [22–24]. Indeed, expenditures of PG significantly increased from 2013 to 2017. Notably, although increasing expenditure put greater pressure on the health care system, few pharmacoeconomic studies have investigated the cost-effectiveness of prostaglandin, especially in China.
BRA were usually prescribed as the main medication for glaucoma patients [25]. BRA are favored by ophthalmologists because of their low price and large antihypertensive range. Moreover, guidelines also recommend BRA as alternatives to PG for patients because of unavailability, cost issues, or possible adverse reactions [5]. Use of BRA in China gradually decreased during the study period, but it still played an important role in the treatment of glaucoma. There are some important side effects of these drugs, such as the slowing down of heart rate and bronchospasm; thus, and attention should be paid to the management of side effects and patient compliance [26].
Despite CAI not being the first-line drug recommended by the guidelines for lowering intraocular pressure in glaucoma, the proportion of CAI prescriptions has been nearly 16% in recent years. The mechanism by which CAI works is to reduce aqueous humor production by inhibiting carbonic anhydrase [6]. In addition, use of α-receptor agonists, which provide a certain protective effect on the optic nerve, was almost 13% in this study. Cholinergic agonists are no longer commonly used for the treatment of open-angle glaucoma or ocular hypertension, mainly because of poor tolerance to the side effects of these drugs. According to the National Institute for Clinical Excellence (NICE) guideline, the first choice for glaucoma should be PG, and if these are not tolerated, a BRA should be offered. If none of these options is tolerated, offering CAI, α-receptor agonists, and cholinergic agonists, or a combination of treatments should be considered [5]. Clinical evidence indicates no clinical difference between these drugs, but CAI are better tolerated than α-receptor agonists[27].
Trend analysis of combined drug use identified that the proportion of combined drug use has increased in recent years. Ideally, the target intraocular pressure should be achieved with the fewest medications and minimum adverse effects. According to guidelines, if monotherapy can not achieve the target intraocular pressure, combined drug therapy with different mechanisms could be chosen [5]. The Collaborative Initial Glaucoma Treatment Study found that more than one single class of medications is needed for the many patients [28]. Indeed, combined use of two or more drugs can enhance the clinical therapeutic effect by different mechanisms, as well as improve patient comfort.
The observed changes in prescription practices may also be the result of factors such as the approval and availability of new drugs, physicians prescribing habits, and pharmaceutical advertisements. Thus, the offering of any glaucoma medication, contraindications, allergies, comorbidities, and drug interactions should be considered.
This study has several limitations. First, important patient information such as severity of glaucomatous optic neuropathy, visual field defect, and other glaucoma-related parameters was not acquired. Moreover, outcomes of pharmacological therapy were also not obtained. As included hospitals were located in major cities, sampling bias may have occcured. In addition, the burden of glaucoma, rather than drug cost, should be fully investigated in future studies.
Conclusion
Glaucoma drug prescribing was found to increase with regard to both patient visits and drug expenditure in the current study. Prescribing practices exhibited substantial changes over the 5-year study period. Drugs with proven efficacy and guideline recommendations were preferred, although their prices were relatively higher. However, as growing expenditures put increasing pressure on the health care system and patients, pharmacoeconomic studies evaluating the cost-effectiveness and cost-utility of glaucoma drugs are needed.
Supporting information
S1 Fig [tiff]
Visits and cost trends of glaucoma drugs in different geographical religions.
S1 Table [pdf]
Brief hospital information of included hospitals.
Zdroje
1. Gupta D, Chen PP. Glaucoma. Am Fam Physician. 2016, 93:668–674 27175839
2. Quigley H, Broman AT. The number of people with glaucoma worldwide in 2010 and 2020. Br J Ophthalmol. 2006, 90:262–267. https://doi.org/10.1136/bjo.2005.081224 16488940
3. Song P, Wang J, Bucan K, Theodoratou E, Rudan I, Chan K, et al. National and subnational prevalence and burden of glaucoma in China: A systematic analysis. J Glob Health. 2017,7:1–18. https://doi.org/10.7189/jogh.07.020705
4. Boland MV, Ervin AM, Friedman DS, Jampel HD, Hawkins BS, Vollenweider D, et al. Comparative effectiveness of treatments for open-angle glaucoma: A systematic review for the U.S. preventive services task force. Ann Intern Med. 2013, 158:271–279. https://doi.org/10.7326/0003-4819-158-4-201302190-00008 23420235
5. National Institute for Health and Care Excellence. Glaucoma: diagnosis and management. 2017. https://www.nice.org.uk/guidance/ng81.
6. Weinreb RN, Aung T, Medeiros FA. The Pathophysiology and Treatment of Glaucoma: a review. JAMA. 2014, 311:1901–1911. https://doi.org/10.1109/EMBC.2016.7590696. 24825645
7. Sambhara D, Aref AA. Glaucoma management: Relative value and place in therapy of available drug treatments. Ther Adv Chronic Dis.2014, 5:30–43. https://doi.org/10.1177/2040622313511286 24381726
8. Yu L, Chen X, Yu Z. Trends of antidementia drugs use in outpatients with Alzheimer’s disease in six major cities of China: 2012–2017. Int Clin Psychopharmacol. 2019, 34:312–316. doi: 10.1097/YIC.0000000000000278 31274694
9. Han G, Yu Z, Ma K. Current status of parenteral nutrition and enteral nutrition application: an assessment of nutritional prescriptions from 59 hospitals in the People ‘ s Republic of China. Ther Clin Risk Manag. 2015,11:201–207. https://doi.org/10.2147/TCRM.S76636 25709462
10. Heng JS, Wormald R, Khaw PT. Geographical variation in glaucoma prescribing trends in England 2008–2012: An observational ecological study. BMJ Open. 2016,6:1–10. https://doi.org/10.1136/bmjopen-2015-010429
11. Song W, Shan L, Cheng F, Fan P, Zhang L, Qu W, et al. Prevalence of glaucoma in a rural northern China adult population: A population-based survey in Kailu County, Inner Mongolia. Ophthalmology. 2011, 118:1982–1988. https://doi.org/10.1016/j.ophtha.2011.02.050 21684607
12. Rotchford AP, Hughes J, Agarwal PK, Tatham AJ. Prevalence of treatment with glaucoma medication in Scotland, 2010–2017. Br J Ophthalmol 2019, 0:1–5. https://doi.org/10.1136/bjophthalmol-2019-314206
13. Tham YC, Li X, Wong TY, Quigley HA, Aung T, Cheng CY. Global prevalence of glaucoma and projections of glaucoma burden through 2040: A systematic review and meta-analysis. Ophthalmology. 2014,121:2081–2090. https://doi.org/10.1016/j.ophtha.2014.05.013 24974815
14. Sakamoto M, Kitamura K, Kashiwagi K. Changes in Glaucoma Medication during the Past Eight Years and Future Directions in Japan Based on an Insurance Medical Claim Database. J Ophthalmol 2017, 2017:1–6. https://doi.org/10.1155/2017/7642049
15. Levkovitch-Verbin H, Goldshtein I, Chodick G, Zigman N. The maccabi glaucoma study: Prevalence and incidence of glaucoma in a large Israeli health maintenance organization. Am J Ophthalmol. 2014,158:402–408.e1. https://doi.org/10.1016/j.ajo.2014.04.026 24794285
16. Yu A, Welge-Luben U. Mechanisms, clinical profile and role of prostaglandin and prostamide analogues in antiglaucomatous therapy. Klin Monbl Augenheilkd. 2013, 230:127–132. doi: 10.1055/s-0032-1327946 23335086
17. Perry CM, McGavin JK, Culy CR, Ibbotson T. Latanoprost: An update of its use in glaucoma and ocular hypertension. Drugs and Aging.2003, 20:597–630. https://doi.org/10.2165/00002512-200320080-00005 12795627
18. Li SM, Chen R, Li Y, Yang ZR, Deng QJ, Zhong Z, et al. Meta-analysis of randomized controlled trials comparing latanoprost with timolol in the treatment of Asian populations with chronic angle-closure glaucoma. PLoS One, 2014,9:e96852. https://doi.org/10.1371/journal.pone.0096852 24816233
19. Goldberg I, Cunha-Vaz J, Jakobsen JE, Nordmann JP, Trost E, Sullivan EK, et al. Comparison of topical travoprost eye drops given once daily and timolol 0.5% given twice daily in patients with open-angle glaucoma or ocular hypertension. J Glaucoma. 2001, 10:414–422. https://doi.org/10.1097/00061198-200110000-00010 11711841
20. Schehlein EM, Novack GD, Robin AL. New classes of glaucoma medications. Curr Opin Ophthalmol. 2017, 28:161–168. https://doi.org/10.1097/ICU.0000000000000346 27828896
21. Liebmann JM, Lee JK. Current therapeutic options and treatments in development for the management of primary open-angle glaucoma. Am J Manag Care. 2017, 23:S279–S292. Available at: https://www.ncbi.nlm.nih.gov/pubmed/29164845.
22. Connor AJ, Fraser SG. Glaucoma prescribing trends in England 2000 to 2012. Eye. 2014,28:863–869. https://doi.org/10.1038/eye.2014.114 24858531
23. Fajgenbaum M, Ansari E. Prescribing Trends in a Glaucoma Clinic and Adherence to EGS Guidelines: A Retrospective, Non-Interventional, Single-Center UK Study. Adv Ther. 2017,34:2033–2042. https://doi.org/10.1007/s12325-017-0593-9 28726170
24. Mansberger SL, Hughes BA, Gordon MO, Spanner SD, Beiser JA, Cioffi GA, et al. Comparison of initial intraocular pressure response with topical β-adrenergic antagonists and prostaglandin analogues in African American and white individuals in the ocular hypertension treatment study. Arch Ophthalmol. 2007,125:454–459. https://doi.org/10.1001/archopht.125.4.454 17420364
25. Conlon R, Saheb H, Ahmed IIK. Glaucoma treatment trends: a review. Can J Ophthalmol. 2017,52:114–124. https://doi.org/10.1016/j.jcjo.2016.07.013 28237137
26. Bucolo C, Maria Platania C, Reibaldi M, Bonfiglio V, Longo A, Salomone S, et al. Controversies in Glaucoma: Current Medical Treatment and Drug Development. Curr Pharm Des. 2015, 21:4673–4681. https://doi.org/10.2174/1381612821666150909095553 26350532
27. Tanna AP, Rademaker AW, Stewart WC, Feldman RM. Meta-analysis of the efficacy and safety of α2-adrenergic agonists, β-adrenergic antagonists, and topical carbonic anhydrase inhibitors with prostaglandin analogs. Arch Ophthalmol. 2010,128:825–833. https://doi.org/10.1001/archophthalmol.2010.131 20625041
28. Musch DC, Lichter PR, Guire KE, Standardi CL. The Collaborative Initial Glaucoma Treatment Study: Study design, methods, and baseline characteristics of enrolled patients. Ophthalmology.1999,106:653–662. https://doi.org/10.1016/S0161-6420(99)90147-1 10201583
Článek vyšel v časopise
PLOS One
2020 Číslo 1
- S diagnostikou Parkinsonovy nemoci může nově pomoci AI nástroj pro hodnocení mrkacího reflexu
- Je libo čepici místo mozkového implantátu?
- Pomůže v budoucnu s triáží na pohotovostech umělá inteligence?
- AI může chirurgům poskytnout cenná data i zpětnou vazbu v reálném čase
- Nová metoda odlišení nádorové tkáně může zpřesnit resekci glioblastomů
Nejčtenější v tomto čísle
- Severity of misophonia symptoms is associated with worse cognitive control when exposed to misophonia trigger sounds
- Chemical analysis of snus products from the United States and northern Europe
- Calcium dobesilate reduces VEGF signaling by interfering with heparan sulfate binding site and protects from vascular complications in diabetic mice
- Effect of Lactobacillus acidophilus D2/CSL (CECT 4529) supplementation in drinking water on chicken crop and caeca microbiome