Pregnancy: a therapeutic dilemma
Ligia Brzezińska-Wcisło1, Martyna Zbiciak-Nylec2, Dominika Wcisło-Dziadecka3, Natalia Salwowska1
Abstract
Treatment during pregnancy is problematic. The Food and Drug Administration established drug categories to help in the treatment process. First-generation antihistamines are considered safe but they have sedative properties. Second-generation antihistamines cause less adverse reactions but besides cetirizine and loratadine they belong to category C. All retinoids should be avoided during pregnancy due to the risk of fetal malformations. Antimalarial drugs should be considered based on the clinical data. Sulfones can be considered as safe for use during pregnancy only with proper monitoring. Prednisone is administered in pregnancy. Other glucocorticosteroids have a different safety profile. Cyclosporine A treatment should be reserved as rescue therapy in severe stages of the disease. Treat- ment during pregnancy should be precise when it comes to pregnant woman and safe for the fetus.
Introduction
Treatment during pregnancy is challenging. Almost every medical intervention while pregnant or breast feed- ing can cause adverse reactions to the child. The Food and Drug Administration (FDA) established drugs catego- ries A, B, C, D, X and N reflecting the risk of fetal injury. Class A consists of drugs that have failed to demonstrate a risk to the fetus in the first trimester of pregnancy in adequate and well-controlled human studies. In class B, animal studies have failed to demonstrate a risk or have shown an adverse effect but failed in well-controlled studies in pregnant women. Class C drugs have shown in animal studies an adverse effect on the fetus and there are no adequate and well-controlled studies in humans. In class D there is positive evidence of the human fetal risk but benefits may warrant use of the drug in pregnant women. Class X contains drugs that are contraindicated in pregnancy. There is a large group of drugs in class N which contains dermatological drugs that are not yet classified. Dermatologists are often confronted with the need of treatment of pregnant women. The therapeutic options are deferral of therapy for conditions that do not require immediate therapy, maintain current therapy if considered safe, verification and replacement of thera- py, and also sustained breastfeeding and returning after therapy. The aim of this article is to discuss the safety of dermatological drugs in the light of current knowledge.
Antihistamines
Antihistamines are used to treat itching. Itch is one of the common symptoms during pregnancy and treat- ment is very challenging when it comes to diagnosing and treating. Antihistamines are also used in allergy therapy and for treatment of persistent vomiting dur- ing pregnancy [1]. First-generation antihistamines are considered as safe during pregnancy [2, 3]. They include diphenhydramine, cyproheptadine, promethazine, chlor- pheniramine, tripelennamine and hydroxyzine. The FDA categorizes first-generation antihistamine drugs based on the risk of fetal defects (Table 1) [1, 4]. Drugs such as diphenhydramine and chlorpheniramine are class B [5, 6]. Promethazine and hydroxyzine belong to class C drugs due to lack of well-controlled studies on humans [1]. First-generation antihistamines are well known of their sedative properties as a result of their applicability to cross the blood-brain barrier. In one of the larger pro- spective studies of 50 pregnant woman taking diphenhydramine and chlorpheniramine, transient irritability and drowsiness was observed. No serious side effects to newborn were shown [7].
In another study which evalu ated breastfeeding mothers who were taking antihista- mines due to seasonal allergy, the results were similar. In 22.6% of patients, increased irritability and drowsi- ness was reported [8]. There is also a theoretical risk of impairing milk production in women who were on first- generation antihistamine therapy due to influence on do- pamine secretion into the brain. This risk is theoretical only because several studies show that antihistamines do not influence lactation [9]. Scientists from Michigan studied the exposure to chlorpheniramine (class B) in the first trimester. No correlation to higher incidence of fetus defects was found. There are no data on the safety of first-generation antihistamines during breastfeeding. Due to multitude of studies proving safety of the drug during pregnancy, chlorpheniramine should be preferred in the first trimester [10].
There are reports that diphenhydramine (class B) is associated with a higher incidence of cleft palate, but the data are not equivocal and are anecdotal in later studies. Therapeutic doses do not cor- respond with a higher concentration in breast milk, while manufacturers warn against its use in women while breast-feeding. When it comes to phenothiazine (class C), its use should be avoided during pregnancy. Hydroxyzine, in the first trimester, increases the risk of fetal defects. It can also cause hypotension, myoclonus, hypoxia, and central nervous system (CNS) depression. In animal stud- ies, hydroxyzine was teratogenic. There are no data on the drug concentration in breast milk. Loratadine, ceti- rizine, fexofenadine, levocetirizine and desloratadine are second-generation antihistamines (Table 2). The risk of their applicability to cross the blood-brain barrier is smaller, and thus have minimal effects on CNS. Only 3% of cetirizine, 0.1% of fexofenadine and 1.1% of loratadine makes its way to the brain.
Therapeutic doses are too low to cause adverse effects. Nevertheless, while taking large doses during pregnancy, excessive irritability, trem- ors and drowsiness should be considered as a reason for discontinuation of therapy [9]. Table 2 shows second- generation antihistamines as categorized by the FDA. Fexofenadine and desloratadine are classified as class C drugs. In children of mothers using fexofenadine, re- duced birth weight and increased mortality was observed [1]. Cetirizine and loratadine are the only non-sedative antihistamines with B category. There were reports of an increased risk of hypospadias in children of mothers us- ing loratadine, but further studies did not confirm this [1, 11–13]. For years loratadine and cetirizine have been preferred as first-line drugs used during the second and third trimester [11]. Caution must be taken and high doses of antihistamines should not be administered be- fore delivery. Those drugs can cause an oxytocin effect, stimulating uterine contractions what can lead to prema- ture birth. A relation between the use of antihistamines 2 weeks before the birth and the retrolental fibroplasia in preterm infants was observed [2]. Moreover there is a risk of infant withdrawal syndrome manifested with annoyance, nervousness, and problems with feeding. First generation of antihistamines should be avoided in breastfeeding women because of the potential sedative properties [5, 6]. Loratadine, fexofenadine and cetirizine are preferred drugs during breastfeeding.
Retinoids
Acne is a very common disorder in dermatological practice. Antibiotics and retionids are most commonly used drugs in acne vulgaris. Isotretinoin is consid- ered class X in the FDA categories. This drug should be avoided during pregnancy and women who are planning motherhood. An increased risk of miscarriage in the first trimester results from the significant fetal malfor- mations [5]. According to the European Directive and the recommendations of the Office for Registration of Medicinal Products, each patient in the childbearing age range is obliged to use effective contraception for at least a 1 month before starting on isotretionoin treat- ment, throughout its duration, as well as, 1 month after end of treatment. Two pregnancy tests during treatment and one 5 weeks after the end of treatment to exclude pregnancy are necessary to be performed by the derma- tologist [14, 15]. We should provide continuous education about the dangers connected with becoming pregnant during treatment [11].
Since 1988 acitretin has been avail- able in almost every European country and primarily used in psoriasis treatment. Like all systemic retinoids, acitretin also has a teratogenic effect. In women of child- bearing age, absolute pregnancy prevention one month before, after, and during the treatment, is required. It is also noted that those women should be deterred from acitretin therapy due to 2 years’ contraception period [11, 16]. Retinoids are also contraindicated during breast- feeding. Acitretion should be particularly avoided due to potential cumulative toxicity, which can lead to renal failure, hepatotoxicity (vitamin A overdose), increased intracranial pressure, osteoarticular pain and increased susceptibility to respiratory tract infections [9]. No birth defects were reported concerning paternal retinoid use. Still contraception is recommended throughout use of retinoid therapy.
Antimalarial drugs
For women with systemic lupus erythematosus, an- timalarial drugs are first-line therapy. Treatment discon- tinuation is accompanied by the risk of exacerbation and most experts recommend continuing the therapy even if pregnancy occurs during treatment [17]. In the case of disease remission, women who are pregnant or planning motherhood should be treated with corticosteroids on a shorter-term basis. In that case, steroids are safer due to numerous available data on the safety of steroids dur- ing pregnancy [5]. According to FDA, antimalarial drugs are class C of the FDA categories. Hydroxychloroquine does not increase the risk of specific congenital fetal malformations. It must be noted that during hydroxychlo- roquine treatment we should monitor changes in retina.
In a large prospective study in female patients with sys- temic lupus erythematosus (SLE) treated with hydroxy- chloroquine, reduction of prednisolone was possible [18]. Another positive effect of antimalarial treatment is a lower risk of heart block in newborns with neonatal lu- pus erythematosus (NLE) [19]. Published studies support physicians in their decision on safe hydroxychloroquine therapy continuation in pregnant women [11, 19]. Usage of antimalarial drugs during lactation is controversial. Based on the current literature, antimalarial drugs have a minimal impact on the newborn. Only 0.005% to 0.35% of hydroxychloroquine passes into breast milk. A theoret- ical total daily dose for a child is 0.16 mg/kg/day (2.9%). As a reference point, the pediatric total weekly dose of antimalarial drug (hydroxychloroquine) for children is 5 mg/kg/week. Concerns about the use of antimalarial drugs during lactation are related with their slow elimi- nation, meaning, there is a theoretical risk of toxicity for newborns. In 1988, the World Health Organization (WHO) made a statement that women treated with antimalar- ial drugs should avoid breastfeeding. But the American Academy of Pediatrics (AAP) guidelines from 1992 con- sider antimalarial drugs as safe during lactation [9, 20].
Sulfones
Dapsone belongs to a class of drugs known as sul- fones. The drug is first-line therapy for Duhring’s disease. It is an antibiotic and an anti-inflammatory drug which makes it ideal for use in treatment of many chronic in- flammatory diseases, autoimmune disorders, particularly vesicular diseases. With proper monitoring sulfones can be considered as safe for use during pregnancy [21, 22]. According to the FDA, dapsone is a class C drug. Animal studies with high dapsone doses have not shown tera- togenicity of this drug, but there is lack of studies in hu- mans [11]. Limited data on use of sulfones in pregnant women do not allow unambiguous determination of the safety of sulfones. Previously, it has been described that there is a low incidence of adverse reactions in newborns of mothers treated with dapsone but hemolytic disease of the newborn, neonatal jaundice and methemoglobin- emia should be mentioned. However, those cases are isolated [21, 23]. Dapsone passes through the placenta and into breast milk at 15% [24].
This drug has a long half-life (20 h) which is associated with an increased risk of accumulation [21]. Therefore, the WHO determined dapsone as dangerous during lactation [20]. The AAP in- dicates that this drug should be avoided in children from the hyperbilirubinemia/glucose-6-phosphate dehydroge- nase deficiency risk group [25, 26]. Kardos et al. analyzed current data on the treatment of pemphigus vugaris in pregnancy and the impact of therapy on a newborn. They compared the treatment regimen in 49 pregnant women with pemphigus. In 37 (75%) out of 49 patients, pred- nisolone was used in therapy. In the rest of the patients, combined treatment of plasmapheresis and sulfones was chosen. No side effects to the infants was reported [24].
Glucocorticoids
Systemic corticosteroids in moderate doses are consid- ered safe in pregnant women with persistent itching or au- toimmune disease. But individual drugs are in different FDA categories e.g. prednisone (class B), prednisolone (class B), dexamethasone (class C), betamethasone (class C). In a large study conducted in Michigan, a clear connec- tion between birth defects and corticosteroids treatment in pregnant women in the first trimester of pregnancy, was noted. In a large study conducted in Michigan, a clear connection between birth defects and corticoste- roids treatment in pregnant women in the first trimester of pregnancy, was noted: in women treated with predni- sone (n = 236), prednisolone (n = 143) and methylpred- nisolone (n = 222) [27]. In 2000, meta-analysis showed that the treatment with corticosteroids has a three-fold increased risk of cleft in the craniofacial region if treat- ment took place 4 weeks before pregnancy and up to 12 weeks after birth. Labial fusion and adhesion in the fetus takes place between 5th and 7th week of pregnancy, while palate formation occurs during weeks 8–12.
The absolute risk of this complication is low and around 1 for 1000 live births. However, the recent Hviid and Molgaard-Nielsoen publication does not show the relation between use of steroids and cleft lip/palate [28]. According to many au- thors, prednisone is preferred during pregnancy because its penetration through the placenta is limited by en- zymes, while dexamethasone almost completely passes through. Children of mothers treated with corticosteroids during pregnancy should be additionally monitored for adrenal insufficiency due to iatrogenic hormone suppres- sion. Prednisone may also cause premature birth, pre- mature amniotic rupture, intrauterine growth restriction (IUGR), as well as diabetes, hypertension, pre-eclampsia and eclampsia. Many clinicians recommend reducing the dose to 7.5 mg/day in long-term treatment and avoid- ing doses higher than 20 mg/day [29].
Prednisone is metabolized into prednisolone. Studies have shown that a small amount of the metabolite is transferred to breast milk [30]. For women treated with doses of 10–80 mg of prednisone, relative blood levels in children was 0.02% to 0.074% (0.002–0.059 mg), which is less than 10% of infantile endogenous cortisol levels [31]. Previous studies have shown no adverse reactions in breast-fed infants, however mothers were treated with low doses of corticosteroids (5–10 mg/day) [32, 33]. In order to minimize exposure and avoid peak serum concentration occurring within the 1st h after drug ingestion, it is recommended that the mother should wait 4 h before breastfeeding. During that time, drug concentration in the milk falls to the level in maternal plasma [34]. The pediatrician soci- ety believe that corticosteroids are safe for breastfeeding women [2].
Immunosuppressants
Cyclosporine A
According to the FDA, cyclosporine A (CsA) is a class C drug. Most data concerning CsA includes transplant re- cipients in whom generally higher doses (8–10 mg/kg/ daz) are used as compared to dermatological patients. Treatment with cyclosporine A during pregnancy carries the risk of premature birth and low birth weight of the newborn [35, 36]. In the light of previous studies, this drug does not cause fetal defects. A large group of chil- dren of mothers who were treated with cyclosporine A during pregnancy were observed in early development stages. Neurocognitive, behavioral, immunological, or nephrological disorders were not detected [37–39]. Cy- closporine A is considered as a drug of choice in case of oral treatment necessity in severe psoriasis in pregnant women. However we should remember that CsA can in- duce hypertension in mothers and this treatment should be reserved as rescue therapy in severe stages of dis- ease.
This drug is excreted into breast milk and should not be prescribed during lactation. Data show that CsA occurs in breast milk in different concentration. In seven newborns, which had been exposed to the drug during breastfeeding, nephrotoxicity was not recorded, which was assessed by testing creatinin levels from the first week until the completion of breastfeeding. Furthermore, no damage to the thymus was found although this has been reported in animal studies [40]. Although there are cases of properly developing children, the AAP and other experts treat CsA as cytotoxic drugs and recom- mend avoiding their use during lactation [25, 32]. In cases where the mother decides to breastfeed the child she must be monitored for signs of CsA toxicity including edema, tremor, hirsutism and hypertension. Plasma CsA levels should be also controlled [34].
Azathioprine
Azathioprine is reported as a class D drug. It passes through the placenta in its inactive form. Available data mainly includes women who are post transplantation or have inflammatory bowel disease and it shows that azathoprine during pregnancy may increase the risk of prematurity and low birth weight. In a small number of studies concerning azathioprine treatment in breastfeed- ing women, the drug concentration in breast milk is very low and does not threaten the infants, but caution is ad- vised [41–44].
Cyclophosphamide
This drug is teratogenic when used in the first trimes- ter. According to the FDA, cyclophosphamide is classified as a class D medication. It can cause intrauterine growth restriction and intrauterine death. Cyclophosphamide should be avoided during pregnancy, and if use occurs, treatment should be discontinued. During breastfeeding, cyclophosphamide treatment is not recommended.
Methotrexate
During methotrexate (MTX) treatment, contracep- tion is required throughout treatment and for 3 months after its completion. The drug has is a class X medica- tion according to the FDA. Methrotrexate therapy during pregnancy may result in spontaneous miscarriage and methotrexate embryopathy is characterized by intrauter- ine growth restriction, microcephaly, cranial bone hypo- plasia, craniosynostosis (skull bone atresia), broad root of the nose, exophthalmus, low-set ears, jaw hypoplasia, presents of epicanthic fold, shortening of the limbs, syn- dactyly, and Fallot’s tetralogy. Most of mothers of chil- dren with defects mentioned above were treated with MTX of at least 10 mg per week between the 6th and 10th week of pregnancy. The TX treatment is contraindicated during breastfeeding [45].
Antibacterial, antiviral and antifungal treatment
Penicillins, cephalosporins, macrolides and clindamy- cin are considered as safe during pregnancy. Metronida- zole can be safely administered only in the second and third trimester. All above drugs are class B medications according to the FDA. During breastfeeding, penicillin and cephalosporins are preferred due to small amounts of secretion through breast milk. Due to a great number of reports documenting safety of aciclovir, it is considered as the drug of choice during pregnancy. This drug is clas- sified as class B. Oral antifungal drugs such as ketocon- azole, fluconazole, itraconazole, nystatin and natamycin are classified as class C according to the FDA. In litera- ture there are some reports of probable relation between oral nystatin use in the 8th–14th week of pregnancy and an increased risk of hypospadias in the fetus.
Individual studies have shown a teratogenic effect of fluconazole in human in case of a dose higher than 400 mg/day in first trimester. While a single dose of 150 mg given only once, such as in the case of a genital tract infection, did not show a risk for the fetus. According to available research, itraconazole in pregnant women does not increase the risk of fetal malformation but statistically often leads to miscarriage in the early stages of pregnancy. Therefore, in case of itraconazole treatment, effective contraception, is recommended. Amphotericin B is a class B drug and available data have shown no Cyclosporin A teratogenic impact on hu- mans. It is considered as the safest antifungal drug for systemic use. There are no data concerning terbinafine use in pregnant women, but animal studies have shown no teratogenic effects of this drug [46, 47].
Conflict of interest
The authors declare no conflict of interest.