CCATClinical Analysis Tool
‹ Knowledge base

Browse the corpus

Walk the evidence base by book and chapter — the raw source passages that ground Ask, Differential, and the rest.

23 passages

fulltextpubmed· Body· item PMC4274824

1. Introduction An estimated 350 million individuals worldwide are chronically infected with hepatitis B virus (HBV) [1]. Perinatal HBV infection leads to chronic hepatitis B (CHB) in up to 90% of infants [2, 3]. About 25% of infants who develop CHB will die prematurely from cirrhosis, liver failure, and/or liver cancer [2–5]. Postexposure immunoprophylaxis consisting of hepatitis B vaccination and hepatitis B immune globulin (HBIG) can prevent up to 95% of perinatal HBV transmissions [2, 6]. Breakthrough perinatal HBV transmission occurs in 10–15% of infants born to pregnant women with high viral load even with postexposure immunoprophylaxis [3, 7].

fulltextpubmed· Body· item PMC4274824

ure immunoprophylaxis consisting of hepatitis B vaccination and hepatitis B immune globulin (HBIG) can prevent up to 95% of perinatal HBV transmissions [2, 6]. Breakthrough perinatal HBV transmission occurs in 10–15% of infants born to pregnant women with high viral load even with postexposure immunoprophylaxis [3, 7]. The indications for antiviral treatment in CHB are based on the maternal serum viral load, liver enzyme (e.g., alanine aminotransferase) levels, hepatitis B e-antigen (HBeAg) status, liver histology, and HIV coinfection status [8]. The use of antivirals during pregnancy solely for prophylaxis of perinatal HBV transmission requires careful evaluation of potential risks and benefits among infants and pregnant women. Animal studies showed severe growth restriction and reduced bone mineral density among fetuses [9]. The development of drug resistance (particularly with lamivudine) and postpartum flare have been a concern for pregnant women receiving antiviral treatment during pregnancy. The major potential benefit of antiviral prophylaxis during pregnancy is to reduce viremia and decrease breakthrough perinatal HBV infections [10–13]. Antiviral treatment might also help manage maternal liver disease. With increasing data showing efficacy of antiviral prophylaxis to prevent perinatal HBV transmission, and an acceptable safety profile for pregnant women and infants, more experts and organizations are recommending consideration of prophylactic antiviral treatment starting in the third trimester for pregnant women with high viral load (e.g., ≥106 IU/mL) to prevent breakthrough perinatal HBV transmission [1, 8, 11–19].

fulltextpubmed· Body· item PMC4274824

and an acceptable safety profile for pregnant women and infants, more experts and organizations are recommending consideration of prophylactic antiviral treatment starting in the third trimester for pregnant women with high viral load (e.g., ≥106 IU/mL) to prevent breakthrough perinatal HBV transmission [1, 8, 11–19]. None of the Food and Drug Administration (FDA)-approved antiviral agents for CHB is classified as pregnancy category A [14, 16, 17]. However, experience with some agents (e.g., lamivudine and tenofovir disoproxil fumarate [tenofovir]) has been extensive among HIV-infected pregnant women [20]. Of five oral antiviral agents available for treatment of CHB, telbivudine and tenofovir are classified as FDA Pregnancy Category B (animal studies indicate no fetal risk, but no humans studies exist, or adverse effects in animals but not in humans), and lamivudine, adefovir dipivoxil (adefovir), and entecavir are classified as Pregnancy Category C (no adequate human or animal studies; benefit may outweigh risk) [14, 17]. Information on the use of antivirals for CHB during pregnancy in the United States of America (USA) is scarce. The objective of this study was to describe antiviral treatment among pregnant and nonpregnant women with CHB in 2011 using claims data from MarketScan, with a focus on treatment patterns among the pregnant women.

fulltextpubmed· Body· item PMC4274824

rmation on the use of antivirals for CHB during pregnancy in the United States of America (USA) is scarce. The objective of this study was to describe antiviral treatment among pregnant and nonpregnant women with CHB in 2011 using claims data from MarketScan, with a focus on treatment patterns among the pregnant women. 2. Methods 2.1. Data Source We examined inpatient, outpatient, and drug claims data from the 2011 Truven Health MarketScan Commercial Claims and Encounters Databases (Truven Health MarketScan Databases, Truven Health Analytics, Ann Arbor, MI), which collects data from nationwide employer-sponsored health insurance plans on more than 50 million covered USA individuals [21]. The MarketScan claims databases capture the full continuum of care in all settings including outpatient and inpatient visits. MarketScan drug claims contain detailed information on outpatient prescriptions [21]. The study did not require human subjects review because the analysis employed secondary data without personal identifiers (Federal Regulations at 45 CFR part 46).

fulltextpubmed· Body· item PMC4274824

nuum of care in all settings including outpatient and inpatient visits. MarketScan drug claims contain detailed information on outpatient prescriptions [21]. The study did not require human subjects review because the analysis employed secondary data without personal identifiers (Federal Regulations at 45 CFR part 46). 2.2. Study Population We restricted the study sample to women aged 10–50 years to capture a broad range of ages when women might have been pregnant in the USA. We classified women as having CHB when the ICD-9 code was 07022, 07023, 07032, or 07033 (Table 1). Because the antiviral drugs for human immunodeficiency virus (HIV) can overlap with antivirals used to treat HBV, we also identified women who might be coinfected with HIV. We classified women as coinfected with HIV when the ICD-9 code was 042, V08, 79571, or 07953 (Table 1). For women with CHB, we extracted data on age in 2011, on residence by metropolitan or nonmetropolitan area, and by region of the USA (Northeast, North Central, South, and West). We identified pregnant women among women with CHB if they had a delivery code in 2011 (Table 1). We defined antiviral treatment for CHB by having national drug codes for one or more of the 5 oral antiviral drugs for CHB. We examined antiviral treatment in 2010, in addition to 2011, to capture antiviral treatment before and throughout pregnancy.

fulltextpubmed· Body· item PMC4274824

en among women with CHB if they had a delivery code in 2011 (Table 1). We defined antiviral treatment for CHB by having national drug codes for one or more of the 5 oral antiviral drugs for CHB. We examined antiviral treatment in 2010, in addition to 2011, to capture antiviral treatment before and throughout pregnancy. For pregnant women, we identified the delivery dates and then defined a pregnancy period as 3 trimesters with 13 weeks (91 days) in each trimester (Figure 1). Pregnant women without a delivery date were excluded from evaluation of treatment patterns. We looked for prescriptions of antiviral drugs for up to 300 days before the delivery date and extracted the antiviral drug prescription dates and supply. We assumed if a prescription for an antiviral was filled, the woman was receiving antiviral treatment. We then examined treatment patterns, describing the time the antiviral prescription was filled relative to the delivery date, the duration of treatment, and the daily cost of treatment for each antiviral drug.

fulltextpubmed· Body· item PMC4274824

supply. We assumed if a prescription for an antiviral was filled, the woman was receiving antiviral treatment. We then examined treatment patterns, describing the time the antiviral prescription was filled relative to the delivery date, the duration of treatment, and the daily cost of treatment for each antiviral drug. 2.3. Analyses We calculated the frequencies of pregnant women with CHB who were prescribed antiviral treatment and the frequencies with which various antiviral drugs were prescribed. We calculated the mean cost per day for each antiviral drug. Using Pearson chi-square test and logistic regression, we assessed the association between antiviral treatment and age and between antiviral treatment and pregnancy status. We further determined whether the choice of antiviral differed among pregnant and nonpregnant women with CHB, and if there was regional variation (by metropolitan status and by the USA census region) in antiviral treatment. The data were analyzed using SAS (version 9.3; SAS Institute, Cary, NC).

fulltextpubmed· Body· item PMC4274824

t and pregnancy status. We further determined whether the choice of antiviral differed among pregnant and nonpregnant women with CHB, and if there was regional variation (by metropolitan status and by the USA census region) in antiviral treatment. The data were analyzed using SAS (version 9.3; SAS Institute, Cary, NC). 3. Results The 2011 database contained records of more than 17 million women aged 10–50 years; among these, 6,274 women were classified as having CHB. Among women with CHB, 507 (8.1%) were identified as pregnant (Figure 1). Compared to nonpregnant women, pregnant women were younger (mean 33.0 years versus 37.5 years, resp., P < 0.01) and less likely to receive antiviral treatment (12.6% versus 20.0%, resp., P < 0.001). Among pregnant women, no significant difference was found between treated and untreated women by age, residence in a metropolitan area, or region of residence in the USA (Table 2). Among nonpregnant women, treated women were more likely than untreated women to be slightly older (mean 38.8 versus 37.2 years, P < 0.01) and to live in the South (31.5% versus 25.2%, P < 0.01) and less likely to live in the Northeast (19.5% versus 23.0%, P < 0.01) and to be coinfected with HIV (0.4% versus 1.6%, P < 0.01). Treatment status did not differ significantly by metropolitan residence area (Table 2). Results from a logistic regression analysis showed that older age (OR: 1.02, 95% confidence interval (95% CI): 1.01–1.03) and living in the South compared to in the Northeast (OR: 1.42, 95% CI: 1.19–1.70) were positively associated with antiviral treatment; being pregnant (OR: 0.66, 95%: 0.51–0.87) or coinfected with HIV (OR: 0.28, 95% CI: 0.11–0.70) was negatively associated with antiviral treatment.

fulltextpubmed· Body· item PMC4274824

fidence interval (95% CI): 1.01–1.03) and living in the South compared to in the Northeast (OR: 1.42, 95% CI: 1.19–1.70) were positively associated with antiviral treatment; being pregnant (OR: 0.66, 95%: 0.51–0.87) or coinfected with HIV (OR: 0.28, 95% CI: 0.11–0.70) was negatively associated with antiviral treatment. For 1215 women receiving treatment, the most frequently prescribed antivirals were tenofovir (51.4%) and entecavir (39.8%); 88 (7.2%) women received more than one antiviral during the study period. Receipt of two or more antivirals was more common among pregnant than nonpregnant women (15.6% versus 6.8% resp., P < 0.01) (Table 3). The proportion of women with CHB who received lamivudine and tenofovir was higher for pregnant than nonpregnant women, and the proportion who received entecavir was lower for pregnant than nonpregnant women (P < 0.01). The mean cost of antiviral treatment per day was the highest for adefovir ($32) and the lowest for lamivudine ($10) (Table 3).

fulltextpubmed· Body· item PMC4274824

ith CHB who received lamivudine and tenofovir was higher for pregnant than nonpregnant women, and the proportion who received entecavir was lower for pregnant than nonpregnant women (P < 0.01). The mean cost of antiviral treatment per day was the highest for adefovir ($32) and the lowest for lamivudine ($10) (Table 3). We identified delivery dates in 2011 for 48 of 64 pregnant women receiving antiviral treatment. Treatment started before pregnancy and continued for at least one month after delivery in 16 (33.3%) women. Treatment began during the third trimester for 14 (29.2%) pregnant women and was continued more than one month after delivery for 11 (78.6%) women. Antiviral treatment prior to pregnancy was terminated for 8 women who became pregnant (Table 4). The most commonly prescribed antiviral drugs among pregnant women were tenofovir (66.7%, 32 of 48 pregnant women) and lamivudine (27.1%, 13 of 48 pregnant women). We identified 84 (1.3%) women with CHB coinfected with HIV; 5 were pregnant. We identified 5 women with HIV coinfection prescribed antiviral drugs; none were pregnant. Three of the women were prescribed tenofovir and two women were prescribed adefovir dipivoxil.

fulltextpubmed· Body· item PMC4274824

We identified delivery dates in 2011 for 48 of 64 pregnant women receiving antiviral treatment. Treatment started before pregnancy and continued for at least one month after delivery in 16 (33.3%) women. Treatment began during the third trimester for 14 (29.2%) pregnant women and was continued more than one month after delivery for 11 (78.6%) women. Antiviral treatment prior to pregnancy was terminated for 8 women who became pregnant (Table 4). The most commonly prescribed antiviral drugs among pregnant women were tenofovir (66.7%, 32 of 48 pregnant women) and lamivudine (27.1%, 13 of 48 pregnant women). We identified 84 (1.3%) women with CHB coinfected with HIV; 5 were pregnant. We identified 5 women with HIV coinfection prescribed antiviral drugs; none were pregnant. Three of the women were prescribed tenofovir and two women were prescribed adefovir dipivoxil. 4. Discussion An increasing number of reports provide guidance on treating pregnant women with CHB [16, 18], and many cite the accumulating evidence for the efficacy of antivirals to enhance prevention of perinatal HBV transmission among pregnant women with high viral load [11–13, 16, 18]. Few studies have assessed the use of antivirals for pregnant women with CHB [22]. Our analysis of MarketScan data showed that 12.6% of pregnant women with CHB who delivered in 2011 received antiviral treatment during 2010 and 2011. In contrast, 20.0% of nonpregnant women received antiviral treatment during 2010 and 2011. The significantly lower use of antiviral treatment among pregnant compared to nonpregnant women was consistent with safety concerns for use of antiviral drugs during pregnancy [1, 8, 14, 16]. About one-third of the pregnant women receiving antiviral treatment for CHB had been receiving treatment before pregnancy. Pregnant women with significant liver disease and viremia are recommended to receive close monitoring for postpartum hepatic flare, which is most often manifested by an elevation of serum alanine aminotransferase [1, 16]. Of the 29% of pregnant women who started treatment during the third trimester, most continued receiving an antiviral for more than one month after delivery, suggesting that an antiviral was prescribed for ongoing severe liver disease rather than for prophylaxis to prevent perinatal HBV transmission [8].

fulltextpubmed· Body· item PMC4274824

ferase [1, 16]. Of the 29% of pregnant women who started treatment during the third trimester, most continued receiving an antiviral for more than one month after delivery, suggesting that an antiviral was prescribed for ongoing severe liver disease rather than for prophylaxis to prevent perinatal HBV transmission [8]. The most commonly used antivirals prescribed for pregnant women were tenofovir and lamivudine. Tenofovir was FDA-approved for treatment of CHB in 2008 and has shown very low or no resistance by hepatitis B virus after prolonged use [11, 23]. Lamivudine was FDA-approved for treatment of CHB in 1998 and is the most studied antiviral agent in pregnancy [1]. We found a higher proportion of pregnant women were prescribed lamivudine compared to nonpregnant women. Short-term use of lamivudine in the last trimester is reported to be safe and is accompanied by a low risk of developing drug resistance [5, 13]. Long-term use of lamivudine is associated with development of HBV resistance [3, 11, 14, 23].

fulltextpubmed· Body· item PMC4274824

tion of pregnant women were prescribed lamivudine compared to nonpregnant women. Short-term use of lamivudine in the last trimester is reported to be safe and is accompanied by a low risk of developing drug resistance [5, 13]. Long-term use of lamivudine is associated with development of HBV resistance [3, 11, 14, 23]. Some experts recommend deferring antiviral treatment for women who are planning a pregnancy unless they have active or advanced liver disease [8, 16]. If a patient with CHB becomes pregnant during treatment, the treatment indications can be reevaluated and the choice of antiviral agent reconsidered. If an antiviral agent is continued during pregnancy, tenofovir generally has been the agent of choice because of its effectiveness, low resistance rate, and safety profile during pregnancy. We found that treatment was terminated at some point before delivery for about one-fifth of the women who became pregnant during antiviral treatment; the rates of change to a different antiviral also were higher among pregnant than nonpregnant women [16].

fulltextpubmed· Body· item PMC4274824

eness, low resistance rate, and safety profile during pregnancy. We found that treatment was terminated at some point before delivery for about one-fifth of the women who became pregnant during antiviral treatment; the rates of change to a different antiviral also were higher among pregnant than nonpregnant women [16]. Women with positive e antigen or high viral load have greater risk for transmitting HBV to their infant, even when the infant receives postexposure immunoprophylaxis [1, 14, 15, 17]. An increasing number of studies have shown that maternal antiviral prophylaxis during pregnancy can suppress HBV replication and might reduce up to 70% of perinatal HBV transmissions compared to postexposure immunoprophylaxis alone (HBIG and hepatitis B vaccination) [11–13]. Reports include use of lamivudine, telbivudine, and tenofovir for maternal prophylaxis [11–13]. Although concerns have been raised about the safety of antiviral treatment or prophylaxis during pregnancy, increasing evidence suggests that the incidences of adverse events among pregnant women and infants receiving antiviral treatment for CHB initiated during the last trimester are comparable to those of women and infants without antiviral treatment [9, 11–14, 16, 24]. In practice, when prevention of perinatal transmission of HBV is the purpose of prescribing antivirals, prophylaxis is initiated during the last trimester and stopped soon after delivery [1, 14, 25, 26].

fulltextpubmed· Body· item PMC4274824

ring the last trimester are comparable to those of women and infants without antiviral treatment [9, 11–14, 16, 24]. In practice, when prevention of perinatal transmission of HBV is the purpose of prescribing antivirals, prophylaxis is initiated during the last trimester and stopped soon after delivery [1, 14, 25, 26]. Previous studies have shown the economic value of antiviral treatment for CHB during pregnancy, if used selectively to reduce the risk of perinatal HBV [3, 5, 27]. We compared the cost-effectiveness of five strategies and showed that antiviral treatment during the last trimester for women with high viral load, either after positive HBeAg screening or viral load testing, was cost-effective compared to the current active-passive immunoprophylaxis strategy alone [27]. Given the increasing evidence for the efficacy, safety, and economic value of antiviral prophylaxis during pregnancy, in 2012 the European Association for the Study of the Liver (EASL) and the Asian Pacific Association for the Study of the Liver (APASL) recommended considering a prophylactic antiviral in the third trimester for pregnant women with high viral load. Notably, this strategy is not a replacement for active-passive immunoprophylaxis for infants known to be at risk for perinatal HBV transmission, and universal infant hepatitis B vaccination, which should be continued. The results from our study indicate that antiviral prophylaxis during pregnancy to prevent perinatal transmission was uncommon in 2011 among women with employer-sponsored health insurance.

fulltextpubmed· Body· item PMC4274824

nfants known to be at risk for perinatal HBV transmission, and universal infant hepatitis B vaccination, which should be continued. The results from our study indicate that antiviral prophylaxis during pregnancy to prevent perinatal transmission was uncommon in 2011 among women with employer-sponsored health insurance. Although clinical and laboratory data are important to define disease severity and the need for treatment, our MarketScan database lacked this information [8, 15, 17, 20]. Without clinical and laboratory data, we were unable to examine for differences in the indications for antiviral treatment among pregnant and nonpregnant women. A limitation of using MarketScan medical claims data for insurance reimbursement is that these data are not representative of the USA population. MarketScan consists of a convenience sample of individuals with private employer insurance. For example, the prevalence of CHB among pregnant women in our study was 0.05%, considerably lower than the estimated 0.3–0.8% prevalence overall in the USA population [4, 28]. Patients with CHB who did not receive private employer insurance and patients with CHB who did not have a billable medical intervention would not have been identified in the analysis. Patients with insurance who purchased antiviral drugs would have drug claims data indicating CHB and, therefore, the treatment patterns likely were representative of the population that was covered by private insurance. Pregnant women with other forms of medical coverage (e.g., military) or with no insurance might vary in antiviral treatment patterns for CHB because of different capacities to access health care and antiviral drugs.

fulltextpubmed· Body· item PMC4274824

e treatment patterns likely were representative of the population that was covered by private insurance. Pregnant women with other forms of medical coverage (e.g., military) or with no insurance might vary in antiviral treatment patterns for CHB because of different capacities to access health care and antiviral drugs. This study investigated the use of antiviral drugs among pregnant women with CHB infection who have private insurance. We found that a lower proportion of pregnant than nonpregnant women received antiviral treatment in 2011, and differences existed in the type of prescribed antivirals between pregnant and nonpregnant women. The most commonly prescribed antiviral for both pregnant and nonpregnant women was tenofovir in this population of employer sponsored insurance participants. These data provide a baseline evaluation of the use of antivirals in pregnant women with severe CHB disease. This information might be of particular interest if additional evidence of the safety and efficacy of HBV antiviral prophylaxis during pregnancy support its use as an adjunct to postexposure prophylaxis for the prevention of perinatal HBV transmission among the subsets of pregnant women with high viral load [1, 11–18]. Disclosure The findings and conclusions in this report are those of the authors and do not necessarily represent the views of the Centers for Disease Control and Prevention. Conflict of Interests The authors did not report any potential conflict of interests. Figure 1 Selection of subjects.

fulltextpubmed· Body· item PMC4274824

This study investigated the use of antiviral drugs among pregnant women with CHB infection who have private insurance. We found that a lower proportion of pregnant than nonpregnant women received antiviral treatment in 2011, and differences existed in the type of prescribed antivirals between pregnant and nonpregnant women. The most commonly prescribed antiviral for both pregnant and nonpregnant women was tenofovir in this population of employer sponsored insurance participants. These data provide a baseline evaluation of the use of antivirals in pregnant women with severe CHB disease. This information might be of particular interest if additional evidence of the safety and efficacy of HBV antiviral prophylaxis during pregnancy support its use as an adjunct to postexposure prophylaxis for the prevention of perinatal HBV transmission among the subsets of pregnant women with high viral load [1, 11–18]. Disclosure The findings and conclusions in this report are those of the authors and do not necessarily represent the views of the Centers for Disease Control and Prevention. Conflict of Interests The authors did not report any potential conflict of interests. Figure 1 Selection of subjects. Table 1 List of international classification of diseases, 9th revision, clinical modification (ICD-9-CM), and current procedural terminology (CPT) codes for chronic hepatitis B, pregnancy, delivery, and HIV.

fulltextpubmed· Body· item PMC4274824

Disclosure The findings and conclusions in this report are those of the authors and do not necessarily represent the views of the Centers for Disease Control and Prevention. Conflict of Interests The authors did not report any potential conflict of interests. Figure 1 Selection of subjects. Table 1 List of international classification of diseases, 9th revision, clinical modification (ICD-9-CM), and current procedural terminology (CPT) codes for chronic hepatitis B, pregnancy, delivery, and HIV. ICD-9-CM/CPT codes Code description Hepatitis B ICD-9-CM 070.22 Chronic hepatitis B with hepatic coma without hepatitis delta ICD-9-CM 070.23 Chronic hepatitis B with hepatic coma with hepatitis delta ICD-9-CM 070.32 Chronic hepatitis B without mention of hepatic coma without mention of hepatitis delta ICD-9-CM 070.33 Chronic hepatitis B without mention of hepatic coma with hepatitis delta HIV ICD-9-CM 042 Human immunodeficiency virus ICD-9-CM V08 Asymptomatic HIV infection status ICD-9-CM 795.71 Nonspecific serologic evidence of HIV ICD-9-CM 079.53 HIV, type 2

fulltextpubmed· Body· item PMC4274824

ICD-9-CM/CPT codes Code description Hepatitis B ICD-9-CM 070.22 Chronic hepatitis B with hepatic coma without hepatitis delta ICD-9-CM 070.23 Chronic hepatitis B with hepatic coma with hepatitis delta ICD-9-CM 070.32 Chronic hepatitis B without mention of hepatic coma without mention of hepatitis delta ICD-9-CM 070.33 Chronic hepatitis B without mention of hepatic coma with hepatitis delta HIV ICD-9-CM 042 Human immunodeficiency virus ICD-9-CM V08 Asymptomatic HIV infection status ICD-9-CM 795.71 Nonspecific serologic evidence of HIV ICD-9-CM 079.53 HIV, type 2 Pregnancy and delivery ICD-9-CM 650 Normal delivery ICD-9-CM 658 Other problems associated with amniotic cavity and membranes ICD-9-CM 659 Other indications for care or intervention related to labor and delivery not elsewhere classified ICD-9-CM 660–669 Complications occurring mainly in the course of labor and delivery ICD-9-CM 670–677 Complications of the puerperium ICD-9-CM V24.0 Postpartum care and examination immediately after delivery ICD-9-CM V27 Outcome of delivery ICD-9-CM procedure 69.02 Dilation and curettage following delivery or abortion ICD-9-CM procedure 69.52 Aspiration curettage following delivery or abortion ICD-9-CM procedure 72 Forceps, vacuum, and breech delivery ICD-9-CM procedure 73 Other procedures inducing or assisting delivery ICD-9-CM procedure 74 Cesarean section and removal of fetus ICD-9-CM procedure 75.5 Repair of current obstetric laceration of uterus ICD-9-CM procedure 75.6 Repair of other current obstetric lacerations ICD-9-CM procedure 75.7 Manual exploration of uterine cavity, postpartum ICD-9-CM procedure 75.8 Obstetric tamponade of uterus or vagina CPT 01958, 01960-2, 01967-9 Anesthesia for delivery CPT 59200 Insertion of cervical dilator CPT 59300 Episiotomy or vaginal repair CPT 59400–59414 Vaginal delivery CPT 59510, 59514 Cesarean section delivery CPT 59610, 59612, 59618, 59620 Delivery after previous cesarean delivery Table 2 Characteristics of pregnant women with chronic hepatitis B virus infection in 2011 by prescription of antiviral treatment.

fulltextpubmed· Body· item PMC4274824

r CPT 59300 Episiotomy or vaginal repair CPT 59400–59414 Vaginal delivery CPT 59510, 59514 Cesarean section delivery CPT 59610, 59612, 59618, 59620 Delivery after previous cesarean delivery Table 2 Characteristics of pregnant women with chronic hepatitis B virus infection in 2011 by prescription of antiviral treatment. Pregnant women (N = 507) Nonpregnant women (N = 5767)* Antiviral treatment No antiviral treatment Antiviral treatment No antiviral treatment (n = 64) (n = 443) (n = 1151) (n = 4616) Mean age (range) 33.4 (22–46) years 32.9 (14–48) years 38.8 (10–50) years 37.2 (10–50) years N % N † % N † % N † % Metropolitan Yes 62 96.9 430 97.1 1115 96.9 4484 97.1 No 2 3.1 12 2.7 36 3.1 132 2.9 Region Northeast 15 23.4 101 22.8 225 19.5 1063 23.0 North Central 10 15.6 77 17.4 129 11.2 596 12.9 South 14 21.9 99 22.3 362 31.5 1163 25.2 West 25 39.1 156 35.2 426 37.0 1722 37.3 HIV coinfection Yes 0 0 5 1.1 5 0.4 74 1.6 No 64 100.0 438 98.9 1146 99.6 4542 98.4 *The differences between nonpregnant women with and without antiviral treatment were statistically significant for age, region, and HIV status at P < 0.01. †Percentages were of total subjects: due to missing or invalid data, the sum of some subcategories and their associated percentages do not equal 100. Table 3 Proportion and types of antiviral agents received by women age 10–50 years with chronic hepatitis B virus infection. Total* (N = 6274) Nonpregnant (N = 5767) Pregnant (N = 507) Pregnant versus nonpregnant Cost ($/day)

fulltextpubmed· Body· item PMC4274824

†Percentages were of total subjects: due to missing or invalid data, the sum of some subcategories and their associated percentages do not equal 100. Table 3 Proportion and types of antiviral agents received by women age 10–50 years with chronic hepatitis B virus infection. Total* (N = 6274) Nonpregnant (N = 5767) Pregnant (N = 507) Pregnant versus nonpregnant Cost ($/day) N %† N %† N %† P value Antiviral prescribed 1215 19.4 1151 20.0 64 12.6 <0.01 Antiviral             <0.01 Adefovir dipivoxil 102 8.4 99 8.6 3 4.7 0.357 32 Entecavir 483 39.8 475 41.3 8 12.5 <0.01 25 Lamivudine 73 6.0 59 5.1 14 21.9 <0.01 10 Telbivudine 20 1.6 18 1.6 2 3.1 0.284 22 Tenofovir   disoproxil fumarate 625 51.4 578 50.2 47 73.4 <0.01 25 Two or more drugs 88 7.2 78 6.8 10 15.6 0.020 — *Among 84 women coinfected with HIV and chronic hepatitis B virus infection, 5 (6.0%) were prescribed an antiviral, 2 (40%) adefovir dipivoxil, and 3 (60%) tenofovir disoproxil. None of the 5 coinfected women who received an antiviral was pregnant. †Percentages total more than 100% because some women received more than one antiviral. Table 4 Antiviral treatment patterns among 48 pregnant women with chronic hepatitis B virus infection with a delivery date in 2011. Before delivery 1st trimester 2nd trimester 3rd trimester Post <1 m Post >1 m N = 2 ✓ N = 4 ✓ ✓ N = 2 ✓ ✓ ✓ N = 3* ✓ ✓ ✓ ✓ N = 16 ✓ ✓ ✓ ✓ ✓ ✓ N = 1*   ✓ ✓ ✓ ✓ N = 1   ✓ ✓ ✓ ✓ ✓ N = 2     ✓ ✓ ✓ N = 1†     ✓ ✓ ✓ ✓ N = 1       ✓ N = 2       ✓ ✓ N = 11†       ✓ ✓ ✓ N = 2           ✓ No HIV coinfected pregnant women received antiviral treatment.

fulltextpubmed· Body· item PMC4274824

Table 4 Antiviral treatment patterns among 48 pregnant women with chronic hepatitis B virus infection with a delivery date in 2011. Before delivery 1st trimester 2nd trimester 3rd trimester Post <1 m Post >1 m N = 2 ✓ N = 4 ✓ ✓ N = 2 ✓ ✓ ✓ N = 3* ✓ ✓ ✓ ✓ N = 16 ✓ ✓ ✓ ✓ ✓ ✓ N = 1*   ✓ ✓ ✓ ✓ N = 1   ✓ ✓ ✓ ✓ ✓ N = 2     ✓ ✓ ✓ N = 1†     ✓ ✓ ✓ ✓ N = 1       ✓ N = 2       ✓ ✓ N = 11†       ✓ ✓ ✓ N = 2           ✓ No HIV coinfected pregnant women received antiviral treatment. *No data for 2012 were available to determine if the woman continued to receive antiviral treatment. †No data in 2010 were available to determine if the woman received antiviral treatment starting at an earlier time.