Patient and economic burdens of postherpetic neuralgia in China.

BACKGROUND: Little is known about the patient-reported and economic burdens of postherpetic neuralgia (PHN) among China's urban population.
METHODS: This noninterventional study was conducted among adults ≥40 years with PHN who were seeking medical care at eight urban hospitals in China. At one study site, patients completed a questionnaire evaluating the patient-reported disease burden (N=185). The questionnaire consisted of validated patient-reported outcomes including the Brief Pain Inventory (BPI), 5-dimension, 3-level EuroQol (EQ-5D-3L), Medical Outcomes Study Sleep Scale, and Work Productivity and Activity Impairment Questionnaire for Specific Health Problems. Questions on non-pharmacologic therapy and out-of-pocket (OOP) expenses were also included. At all study sites, physicians (N=100) completed a structured review of patient charts (N=828), which was used to derive health care resource utilization and associated costs from the societal perspective. Annual costs in Chinese Yuan Renminbi (RMB) for the year 2016 were converted to US dollars (US$).
RESULTS: Patients (N=185, mean age 63.0 years, 53.5% female) reported pain of moderate severity (mean BPI score 4.6); poor sleep quantity (average of 5.3 hrs per night) and quality; and poorer health status on the EQ-5D-3L relative to the general Chinese population. Respondents also reported average annual OOP costs of RMB 16,873 (US$2541) per patient, mainly for prescription PHN medications (RMB 8990 [US$1354]). Substantial work impairment among employed individuals resulted in annual indirect costs of RMB 28,025 (US$4221). In the chart review, physicians reported that patients (N=828) had substantial health resource utilization, especially office visits; 98% had all-cause and 95% had PHN-related office visits. Total annual direct medical costs were RMB 10,002 (US$1507), mostly driven by hospitalizations (RMB 8781 [US$1323]).
CONCLUSION: In urban China, PHN is associated with a patient-reported burden, affecting sleep, quality-of-life, and daily activities including work impairment, and an economic burden resulting from direct medical costs and indirect costs due to lost productivity. These burdens suggest the need for appropriate prevention and management of PHN.

Introduction

The varicella zoster virus is a highly infectious virus that has a worldwide distribution. In individuals who have previously been exposed to this virus, its reactivation results in a painful dermatomal rash that is known as herpes zoster (HZ), which is commonly referred to as shingles. Because of its widespread prevalence, HZ represents a global healthcare burden, with epidemiological data from North America, Europe, and the Asia-Pacific region suggesting a lifetime incidence of HZ of 3.0–5.0/1000 person-years.1 Since the risk of HZ increases with age, particularly among those >50 years old,1,2 the prevalence and burden of HZ will likely increase with the aging of the population. The most common complication of HZ is postherpetic neuralgia (PHN), defined as pain persisting for at least 1 month, 3 months, or 6 months after healing of the HZ rash.1,3 Depending on study methodology, population, and definition of the disease, it has been estimated that 5–30% of patients with HZ develop PHN.1

The pain associated with PHN is neuropathic in origin, defined as pain resulting from a lesion or disease of the peripheral or central somatosensory nervous systems.4 Neuropathic pain (NeP) does not respond to traditional pharmacologic interventions generally considered effective for nociceptive pain. Consequently, management of PHN is challenging and generally relies on pharmacologic agents from several drug classes (eg, anticonvulsants and antidepressants) that are approved for NeP but may have variable efficacy.5–8

The incidence rates of HZ and PHN in China are similar to those reported globally.9,10 A survey in Guangdong Province, using patient data from 2011 to 2013, estimated the regional lifetime prevalence of HZ infection at 3.5%, and following a diagnosis of HZ the rate of PHN was as high as 40% in these patients.9 A more recent epidemiologic study, based on chart review among 24 hospitals in 7 cities in China with large populations and high economic development, reported an overall population point prevalence of 7.7% for HZ and 2.3% for PHN; 29.8% of patients with HZ developed PHN.11

The presence of PHN further adds to the burden associated with HZ. From the patient’s perspective, PHN results in functional impairment, reductions in health-related quality-of-life (HRQoL), and lost productivity.12–14 In particular, reductions in HRQoL are both statistically significant and clinically relevant.13 PHN also results in excess health care resource utilization (HRU), increasing the economic burden to the health care systems and society in general.13,15–18 For example, a study based on real-world health care costs in the US reported that adjusted incremental annual health care costs among individuals >50 years of age with PHN were $7291 compared with matched controls without HZ.15 In contrast, adjusted incremental annual health care costs among non-PHN individuals with HZ were $1425 relative to matched non-HZ controls, indicating that the presence of PHN substantially increases resource utilization and costs relative to HZ. Similar trends in higher HRU and costs of PHN relative to HZ have also been observed in other countries.16–18

To prospectively reduce the potential burden of HZ and PHN, research over the past 15 years resulted in the development of two vaccines for the prevention of HZ, one for adults ≥50 years old (Zostavax®)19 and one for adults >60 years old (Shingrix®)20 both of which have received approval in the US. In the US, the current Centers for Disease Control and Prevention guidelines for immunization of adults recommend that adults >50 years old receive vaccination for the prevention of HZ.21 Unfortunately, neither of these vaccines is currently available in China, suggesting that PHN remains a substantial burden to Chinese patients and the health care system.

Few studies have investigated PHN among China’s urban population. Data on the epidemiology, HRU, and overall impact of PHN on patients’ HRQoL are sparse.9,10 To bridge this gap, the present study, which was a follow-up to a recent epidemiologic study on the prevalence of HZ and PHN in China,11 examined the patient-reported burden of PHN among adults ≥40 years old who sought medical care for their PHN. Additionally, the economic burden of PHN was evaluated from the societal perspective.

Materials and methods

Study design and participants

This noninterventional, cross-sectional study was conducted between August and December 2016 at 8 hospitals in Tier 1 and Tier 2 cities in China (Tier 1 cities have the largest populations, highest economic development/output, and greatest political influence, and Tier 2 cities have lesser degrees of the same characteristics); hospitals were located in Guangzhou, Shenzhen, Beijing, Shanghai, Nanjing, Xi’an, and Chengdu. All protocols were in accordance with accepted research practices described in Good Practices for Outcomes Research issued by the International Society for Pharmacoeconomics and Outcomes Research.22 Patients provided written informed consent before entering the study. The final protocol and documentation of informed consent were reviewed and approved by the Ethics Committee at Chinese PLA General Hospital, Hai Dian District, Beijing.

Patients identified with PHN during an office visit to a participating physician at the primary data collection site, the Chinese PLA General Hospital, Hai Dian District, Beijing, completed a survey questionnaire that included questions and measures to quantify the patient-reported burden of PHN. For participation in the survey, patients >40 years old were required to be literate in Chinese (reading and writing), have a cognitive ability to participate in a research study, and be willing to provide informed consent. Patients were excluded if they had a serious or unstable medical or psychological condition that might compromise participation.

For evaluation of HRU utilization and costs, physician participants from 8 hospitals were eligible to participate if they had a specialty in dermatology, neurology, and/or pain management and saw at least 200 patients over a 2-month period that met the eligibility requirement. Patient eligibility included being at least 40 years old and diagnosed with PHN; age >40 years was used as a cutoff to capture more PHN patients given its low prevalence. Each participating physician reviewed charts for 200–350 consecutive eligible patients who had office visits over a 30–60-day period to document the presence or absence of PHN, defined as pain persisting for ≥1 month following healing of HZ.

Survey assessments and outcomes

The patient survey was a de-identified, self-administered 20-min questionnaire that was created in English and translated into Chinese, with subsequent review by multiple independent linguists for accuracy of the translation. The questionnaire consisted of validated patient-reported outcomes (PROs) that captured pain (Brief Pain Inventory [BPI]),23 sleep (Medical Outcomes StudySleep Scale [MOS-SS]),24 and HRQoL or health status (5-dimension 3-level EuroQol [EQ-5D-3L]).25 Inclusion of the Work Productivity and Activity Impairment Questionnaire for Specific Health Problems V2.0, Clinical Practice Version (WPAI-SHP),26,27 evaluated the impact of PHN on impairment of work among employed patient participants, and on impairment of daily activities among all patient participants.

The BPI includes 4 items measuring pain severity (worst, least, average, and pain right now) and 7 items on pain interference that assess the impact of pain on daily function including general activity, mood, walking ability, work inside and outside the home, relations with people, sleep, and enjoyment of life. The BPI items are scored on a 0–10 scale where higher scores indicate worse pain and greater pain interference with activities, with a Pain Severity Index and a Pain Interference Index that can be calculated by taking the average of the 4 pain ratings and the 7 interference ratings, respectively.23 The BPI has been recommended by the Initiative on Methods, Measurement, and Pain Assessment in Clinical Trials (IMMPACT) as a core outcome measure for chronic pain clinical trials.28

The MOS-SS is a 12-item PRO consisting of 12 items that evaluate key constructs of sleep, with derived subscales for the domains of sleep disturbance (4 items), quantity of sleep (1 item), snoring (1 item), awakening due to short of breath or with headache (1 item), sleep adequacy (2 items), and somnolence (3 items). The Sleep Quantity item indicates the number of hours slept each night, and nine of the other items are used to generate the Sleep Problems Index, which assesses overall sleep problems; higher scores indicate greater sleep impairment, and this index is often used as an indication of sleep quality. Normative values of the MOS-SS subscales have been estimated for the US general population29 and were used as a reference to provide the context in the absence of such values for the Chinese population. Additionally, based on the reported number of hours of sleep per night, the proportion of patients with optimal sleep, defined as 7 or 8 hrs daily, was determined.

The EQ-5D-3L is a generic, preference-based PRO for assessing HRQoL and includes two components. The first component consists of 5 domains (Mobility, Self-Care, Usual Activities, Pain/Discomfort, Anxiety/Depression) with 3 response levels (“No problem,” “Some problems,” or “Extreme problems/unable to do”).25 Reported responses on the domains can be used to generate a utility score that represents a health state anchored at perfect health (=1) and death (=0), although utility scores less than 0 (ie, health state worse than death) are attainable. The current analysis used the United Kingdom value set for calculating utility scores,30 which enables comparisons across different countries using a common value set. The second component is a visual analog scale (VAS; 0= worst imaginable health to 100= best imaginable health) that assesses the current health status as reported by the patient.

The WPAI:SPH is a 6-item questionnaire that evaluates the effects of a specific health problem on self-reported productivity and activity during the past week. For the current analysis, the WPAI:SHP was adapted for PHN by including “your post herpetic neuralgia” in the questionnaire text. The WPAI:SHP includes subscales for absenteeism (absence from work), presenteeism (lost productivity while at work), overall work impairment (based on absenteeism and presenteeism), as well as the effects on non-work-related activities. The subscales are scored from 0% to 100%, where higher scores indicate greater work or activity impairment.26,27 The three work productivity subscales were evaluated only among participants who were employed for pay, while the regular activities subscale was evaluated in all participants.

For each eligible patient, physicians completed a 7–10 min, structured data collection form that included demographic and clinical characteristics, health history, pain experience, household income, medical insurance information, and treatment practices, including use of prescription and non-prescription therapies for treating PHN. In addition, all-cause and PHN-related HRU over the past 6 months were evaluated based on the use of office visits, emergency department (ED), and hospital visits included in the patient records. The PHN-related resource use was determined based on physician report of the number of the overall HRU events that were due to the patient’s PHN.

The economic burden of PHN from a societal perspective was estimated based on costs derived from the physician chart reviews and patient surveys. All-cause direct medical costs were estimated from physician-reported HRU. These estimates assumed care in a tertiary hospital and were based on best available cost data including information from the Chinese Ministry of Health for outpatient and inpatient costs;31 clinician consensus was used for direct costs for ED, since an official source for these costs was unavailable. For patient participants who were employed and completed the survey, indirect costs related to lost productivity were calculated from the WPAI:SHP using the method of Lofland et al32 by obtaining the average wage rate for employees in China33 and multiplying this value by the percentage of overall work impairment. Allowing for holidays and paid leave, these calculations assumed 47 work weeks per year. Monthly out-of-pocket (OOP) costs for prescription and nonprescription PHN therapies were also captured in the patient questionnaire.

Data analysis

Both HRU and costs were annualized by dividing the event or costs by the time period observation, in years, eg, 3 visits over 4 months would equate to 9 visits over 1 year (3/0.333=9). Costs are presented in Chinese Yuan Renminbi (RMB) and US dollars (US$) for the year 2016; conversion to US$ was based on 1 RMB = US$0.15062, which was the average value over 2016.34 Unit costs were RMB 301 (US$45) for office visits, RMB 200 (US$30) for ED visits, and RMB 12,716 (US$1915) for hospitalizations.

All data were reported as available, without any imputation strategy. Descriptive statistics, including numbers and percentages for dichotomous and polychotomous variables and means with their standard deviations for continuous variables, were used to characterize the patient-reported burden as well as HRU and their associated costs. Analyses were conducted using SAS version 9.3 (SAS Institute, Cary, NC) and R version 3.0.1.35

Results

Patient-reported burden

A total of 185 patients completed the survey questionnaire at the primary data collection site, and the demographic characteristics of this population (Table 1) show that the majority were female (53.5%) and were predominantly of Han ethnicity (94.1%) (Table 1); the mean age was 63 years, and 56.8% were retired.

Table 1

Characteristics of patients diagnosed with postherpetic neuralgia who participated in the burden of illness survey (N=185)

Variable	Value
Sex, n (%)
Male	86 (46.5)
Female	99 (53.5)
Age, years, mean (SD); range	63.0 (12.3); 40–86
Age distribution, n (%)
40–54 years	53 (28.6)
55–64 years	48 (25.9)
65–99 years	83 (44.9)
Ethnicity, n (%)
Han	174 (94.1)
Zhuang	1 (0.5)
Man	3 (1.6)
Hui	1 (0.5)
Other	3 (1.6)
Declined to answer	3 (1.6)
Education, n (%)
Less than high school	47 (25.4)
High school	62 (33.5)
Technical school/college (3 years)	36 (19.5)
University (4 years)	37 (20.0)
Postgraduate	1 (0.5)
Employment status, n (%)
Full-time	39 (21.1)
Part-time	2 (1.1)
Self-employed	7 (3.8)
Not employed and not looking for work	6 (3.2)
Retired	105 (56.8)
Short-term disability	6 (3.2)
Homemaker	19 (10.3)
Monthly household income, n (%)
RMB <4000 (<US$602)	33 (17.8)
RMB 4000–9999 (US$602–US$1505)	56 (30.2)
RMB ≥10,000 (≥ US$1506)	44 (23.8)
Declined to answer	33 (17.8)
Type of health coverage, n (%)
Urban Employee Basic Medical Insurance (UEBMI)a	101 (54.6)
Urban Resident Basic Medical Insurance (URBMI)b	37 (20.0)
New Rural Cooperative Medical System (NRCMS)c	14 (7.6)
Other types of insurance	16 (8.6)
None of the above/no insurance	14 (7.6)

Notes: aObligatory insurance paid by the employer (generally 6% of salary) and employee (generally 2% of salary); self-employed individuals pay the entire contribution. bJointly paid by individuals and the state; unemployed individuals and those on social assistance are subsidized by the state. cContributions from individuals, rural collectives, and local governments, albeit reimbursement is low compared with urban enterprise employees and covers only serious disease but not wage loss.

Abbreviation: RMB, Chinese Yuan Renminbi; SD, standard deviation; US$, United States dollars.

Patient participants reported pain of moderate severity and mild-to-moderate pain interference, with mean (SD) scores of 4.6 (2.0) and 3.8 (2.2) on the BPI Pain Severity Index and Pain Interference Index, respectively (Table 2). Generally, poor HRQoL was indicated by mean (SD) EQ-5D-3L scores of 60.1 (18.6) on the VAS and 0.65 (0.2) on the calculated health utility index (Table 2). The average hours of sleep each night was 5.3 (1.4), and few respondents (16.2%) reported optimal sleep (7–8 hrs daily). In almost one-third of respondents (30.8%), sleep initiation required 60 mins or longer (Figure 1A). The mean score of 46.8 (16.7) on the MOS-SS Sleep Problems Index indicated poor sleep quality, as did all other MOS-SS subscales, with mean scores that were consistently lower than available normative reference values for a US population (Figure 1B).

Table 2

Patient-reported outcomes among patients diagnosed with postherpetic neuralgia who participated in the burden of illness survey (N=185)

Patient-reported outcome measure	Value
BPI, mean (SD)
Pain Severity Index	4.6 (2.0)
Pain Interference Index	3.8 (2.2)
EQ-5D-3L, mean (SD)
VAS	60.1 (18.6)
Health state utilities score	0.65 (0.20)

Abbreviations: BPI, Brief Pain Inventory; EQ-5D-3L, 5-dimension, 3-level EuroQol; VAS, visual analog scale; SD, standard deviation.

Figure 1

Sleep problems as indicated by time to sleep initiation (A) and subscale scores (B) on the Medical Outcomes Study Sleep Scale (MOS-SS) among patients diagnosed with postherpetic neuralgia who participated in the survey. Higher scores indicate poorer sleep quality except on the Sleep adequacy subscale. For reference in (B), general population norms for the US population (data from reference Hays RD et al.29) are shown as black horizontal bars, since normative values have not been established for the Chinese population.

Participants who responded that they worked more than 1 hr in the past 7 days and answered the productivity and absenteeism questions on the WPAI:SHP reported losing 26.2% of productive time through lost days from work (absenteeism) and 48.4% of productive time while at work (presenteeism) due to their PHN (Figure 2). Overall work impairment due to PHN in these employed individuals was 55.6%. Among all respondents regardless of employment status, PHN resulted in overall activity impairment, other than work, of 51.1% (Figure 2).

Figure 2

Self-reported work and activity impairment resulting from postherpetic neuralgia assessed using Work Productivity and Activity Impairment Questionnaire for Specific Health Problems (WPAI:SHP).

The mean (SD) annual indirect costs related to lost productivity were RMB 12,318 (16,619) for absenteeism-related costs, RMB 18,930 (10,227) costs related to presenteeism, and RMB 28,025 (19,039) for total indirect costs. These are equivalent to US$1855 ($2503), US$2851 ($1540), and US$4221 ($2868) for absenteeism, presenteeism, and total indirect costs, respectively.

Patient participants reported using a variety of nonpharmacologic therapies for treatment of their PHN (Table 3). While physical therapy was the most frequently cited type of nonpharmacologic treatment (33.5%), almost one-third of respondents also reported use of traditional Chinese medicine (31.9%) and acupuncture (30.3%; Table 3). The highest annual OOP costs were incurred for PHN prescription medications, RMB 8990 (US$1354), with additional OOP costs of RMB 3734 (US$562) for traditional Chinese medicines and RMB 4149 (US$625) for other PHN therapies (Table 4).

Table 3

Self-reported use of nonpharmacologic therapies for postherpetic neuralgia among patients who participated in the burden of illness survey (N=185)

Type of therapy	Number (%) of patients
Physical therapy	62 (33.5)
Traditional Chinese medicine	59 (31.9)
Acupuncture	56 (30.3)
Massage	29 (15.7)
Heat therapy	22 (11.9)
Exercise	19 (10.3)
Transcutaneous electrical nerve stimulation	10 (5.4)
Chiropractor care	9 (4.9)
Yoga	3 (1.6)
Spinal decompression	2 (1.1)
Attend support groups	2 (1.1)
Other (nonspecified) nondrug treatments/programs	12 (6.5)
No answer	31 (16.8)

Table 4

Out-of-pocket costs among patients diagnosed with postherpetic neuralgia who participated in the burden of illness survey (N=185)

Out-of-pocket cost category	Annual cost, mean (SD)
RMB	US$
Prescription medication for PHN	8990 (18,259)	1354 (2750)
Traditional Chinese medicine for PHN	3734 (10,687)	562 (1610)
Other therapy for PHN	4149 (10,056)	625 (1515)

Abbreviations: PHN, postherpetic neuralgia; RMB, Chinese Yuan Renminbi; SD, standard deviation;  US$, United States dollars.

Clinician-reported HRU and associated costs

Overall, 100 physicians at the 8 hospitals identified 835 patients with PHN (51.3% female; 33.7% 40–59 years old and 66.3% ≥60 years old) and provided data on HRU and costs for 828 of these patients. While physicians reported use of prescription medications from a variety of pharmacologic classes for the treatment of PHN (Figure 3), anticonvulsants were the most frequently prescribed class (80.1%) followed by tricyclic antidepressants (22.3%). However, 32.6% of physicians reported use of other unspecified medications for PHN, and a low proportion of patients, 4.5%, had no recorded treatment.

Figure 3

Medications used by patients to treat postherpetic neuralgia.

Abbreviations: SNRIs, serotonin-norepinephrine reuptake inhibitors; SSRI, selective serotonin reuptake inhibitors; TCAs, tricyclic antidepressants.

Among the HRU categories (Table 5), office visits had the highest reported use, both all-cause (98%) and PHN-related (95%). Among patients with available data on ED visits, the rates of ED use were 12.5% (81/647) and 9.9% (66/666) for all-cause and PHN-related visits, respectively, and similarly for patients with available data on hospitalizations, 19.1% (133/698) had at least 1 all-cause hospitalization and 13.3% (93/699) had at least 1 PHN-related hospitalization. Annualized units of use showed means (SD) of 9.4 (11.4) and 5.8 (7.8) for all-cause and PHN-related office visits per patient, respectively (Table 5). The mean (SD) number of ED visits, 0.4 (1.3) per year, appeared to be due to PHN (Table 5). The mean (SD) number of all-cause and PHN-related hospitalizations were 0.7 (2.4) and 0.4 (1.8) per year, respectively, with mean (SD) length-of-stay of 14.9 (13.5) days among all-cause hospitalized patients and 9.2 (9.3) days for those with PHN-related hospitalizations (Table 5).

Table 5

Annualized health care resource utilization and costs derived from physician from chart reviews (N=828)

Resource category	All-cause	PHN-related
Patients with resource use, % (patients with available data)
Office visits	98 (828)	95 (828)
ED visits	12.5 (647)	9.9 (666)
Hospitalizations	19.1 (698)	13.3 (699)
Annualized units of use, mean (SD)
Office visits	9.4 (11.4)	5.8 (7.8)
ED visits	0.4 (1.3)	0.4 (1.3)
Hospitalizations	0.7 (2.4)	0.4 (1.8)
Length of stay among hospitalized patients, days	14.9 (13.5)	9.2 (9.3)
Annualized costs, mean (SD)a
Office visits	RMB 2808 (3434);US$423 (US$517)	NC
ED visits	RMB 71 (267);US$11 (US$40)	NC
Hospitalizations	RMB 8781 (30,673); US$1323 (US$4620)	NC
Total costs	RMB 10,002 (30,114); US$1507 (US$4536)	NC

Note: aUnit costs were RMB 301 (US$45) for office visits, RMB 200 (US$30) for ED visits, and RMB 12,716 (US$1915) for hospitalizations.

Abbreviations: ED, emergency department; NC, not calculated; PHN, postherpetic neuralgia; RMB, Chinese Yuan Renminbi; US$, United States dollars; SD, standard deviation.

As shown in Table 5, the mean (SD) total all-cause direct medical costs were estimated to be RMB 10,002 (30,114) per year (US$1507 [US$4536]) and were driven by hospitalization costs of RMB 8781 (30,673) per year (US$1323 [US$4620]). While ED visits had the lowest associated costs, RMB 71 (267), the annual cost of office visits was RMB 2808 (3434); these convert to US$11 (US$40) and US$423 (US$517), respectively.

Discussion

As a follow-up to the recent epidemiologic study that reported a 2.3% prevalence of PHN in China,11 the current analysis shows that PHN is associated with a substantial patient-reported burden and also results in frequent HRU that from the societal perspective has financial implications for patients and the overall health care system in China.

In the current analysis, survey respondents with PHN reported not only pain of moderate severity and mild-to-moderate pain interference with their daily activities, but also a substantial impact on sleep and HRQoL. In particular, respondents reported impairment of both sleep quantity and quality, with fewer hours of sleep per night than is considered optimal. Mean scores on all subscales of the MOS-SS, including the Sleep Problems Index, indicated substantial sleep problems relative to normative values, albeit the norms were for a US population29 in the absence of available normative values for China. These sleep problems are consistent with the impact of PHN on sleep that has been reported in other studies,36–39 including the presence of mild-to-severe insomnia symptoms,40 and reflect the well-recognized reciprocal relationship between pain and sleep.41–43

Pain and sleep are also important contributors to HRQoL, and pain, in particular, is one of the dimensions included in the EQ-5D-3L. Thus, it was not surprising that the mean EQ-5D-3L health utility score, 0.65, was lower than the norm of 0.951 that has been reported for the Chinese population and lower than the values for age groups that overlap with the age distribution in the current study.44 Similarly, the mean EQ-5D-3L VAS score of 60.1 is lower than the Chinese population norm of 80.4. The lower values on both the utility score and the VAS indicate a substantial reduction in HRQoL relative to the general population. This difference between PHN and normative utility values is within the range of 0.03–0.52 that has been estimated to indicate clinical significance45 and is similar to the weighted pooled score of 0.61 for PHN that was reported in a meta-analysis of NeP conditions.46 Although there is also no clear consensus as to what represents a clinically relevant difference on the EQ-5D-3L VAS, the difference between PHN and the general population exceeds the range of 4.3–12.1, which has been estimated to indicate clinical relevance in different populations.47–49

Inclusion of a demographic younger than generally evaluated in studies of PHN also enabled evaluation of the impact of PHN on work productivity, since in China, the mandatory age for retirement in women is 50–55 and for men is 60.50 Among those who were employed, there was higher work impairment due to lost productivity on the job (presenteeism) than resulting from absenteeism, consistent with what has been reported in a Canadian study of patients with HZ and PHN14 as well as in other common pain conditions.51,52 Overall, work was impaired by 55.6%, resulting in annual indirect costs of RMB 12,318 (US$4221), which has implications for not only lost individual wages but also for an economic impact on employers and society as a whole resulting from lost productivity.

Survey participants also reported annual OOP costs in excess of RMB 16,000 (US$2400), a substantial amount considering that almost 1 in 5 participants (17.8%) had an annual household income < RMB 48,000 (US$7230) and almost one-third (30.2%) had an annual income RMB 48,000–120,000 (US$7230–18074). These OOP costs exceeded mean total direct costs RMB 10,002 (US$1507). While just over half of the OOP costs (53.2%) were for prescription medications for PHN, the remainder of the OOP costs were traditional Chinese medicine, acupuncture, and other therapies, consistent with the use of a variety of nonpharmacologic therapies reported by the survey participants. While further research is needed to determine why OOP costs are higher relative to direct medical costs, this observation may represent issues of lack of access, where patients may self-pay for resources rather than receiving clinical (reimbursed) care.

Physicians reported substantial use of pharmacologic therapies among patients with PHN, and only 4.5% of patients reviewed had no treatment recorded. These pharmacologic treatments appeared to be consistent with guidelines for PHN management, with the predominant use of anticonvulsants followed by tricyclic antidepressants; both classes are considered first-line treatment.5,6,53

Office visits was the HRU category that received the most use in terms of annual number of visits per patient. However, total all-cause HRU costs were driven by hospitalizations, which accounted for 87.8% of the total direct medical costs. Although there were few hospitalizations, this resource category is the most costly, and length of stay among hospitalized patients was more than 2 weeks for all-cause and more than 1 week (9.2 days) for PHN-related hospitalizations. The length of stay of PHN-related hospitalizations is within the range of 8.7–14.8 days  reported in other studies, but length of stay is likely to be dependent on standard of care and national health care setting.54–56

Total annual direct all-cause medical costs were estimated to be RMB 10,002 (US$1507) per year. Even considering that the prevalence of PHN is only 2.3%,11 this represents a substantial economic burden on the health care system given that the population of China is approximately 1.4 billion individuals. When also considering the indirect costs due to lost productivity and the humanistic burden resulting from reductions in HRQoL, PHN represents the source of a high socioeconomic burden in China and indicates the need for developing and initiating management strategies that can reduce this burden.

Limitations

This analysis should be interpreted in consideration of study limitations, some of which are inherent to the study design. Since the initial identification of patients with PHN was based on management by specialists (dermatologists, neurologists, and pain specialists), there may be systematic differences compared with those patients seen by general practitioners. This form of selection bias may have downstream effects that impact patient-reported burden and costs. Similarly, since study sites were in Tier 1/Tier 2 urban centers, external validity is a key limitation; such urban centers reflect only a small proportion of the population of China, and it is unclear to what extent the selected study sites represent all Tier 1/Tier 2 cities or generalize to Tier 3 cities and suburban/rural areas. Generalizability may have been further limited by the patient survey being conducted in a small sample at the primary data collection site. However, a post hoc analysis that compared survey completers with the rest of the population found only a small difference on one dimension of health care resource use (office visits), and therefore it remains unclear how different these groups may be. Another limitation is that the use of a survey questionnaire for collecting PROs may be susceptible to recall errors as well as social desirability bias. It is also possible that the burden on sleep may be overestimated, since available norms from the MOS-SS24 may not necessarily apply to the population of interest (ie, urban China) or, given the norms were generated several years ago, may have evolved. While costs were from tertiary hospitals, comprehensive cost data to enable comparisons with costs for other types of hospitals in China were not available. Similarly, ED costs in this analysis may not be generalizable, since they were based on physician consensus in the absence of an official source. In regard to costs, another potential limitation is that PHN-related direct medical costs were not estimated; only all-cause direct medical costs were estimated since these were considered relevant from a societal perspective. Last, since the definition of PHN used (ie pain persisting for ≥1 month following healing of the HZ rash) may be different from definitions used in other studies, comparisons with studies that defined PHN using other time periods for pain persisting after rash healing should be interpreted judiciously.

Conclusion

Adults aged ≥40 years who were living with PHN in a large urban center in China were characterized by a burden that was not limited to pain and pain interference with daily activities but also included poor sleep and low HRQoL. The presence and magnitude of this burden were generally consistent with other PHN populations. In addition, inclusion of a younger demographic, including individuals who were employed, showed that PHN results in work impairment, with broad economic implications. Frequent HRU with associated direct and OOP costs was indicative of the economic burden PHN has on patients and health care systems across China. Taken together, these results indicate that PHN is associated with a substantial patient and economic burden in China and suggests the need for more appropriate prevention and management.