Antihypertensive therapy in patients with pre-eclampsia: A prospective randomised multicentre study comparing dihydralazine with urapidil.

BACKGROUND: Drug treatment is imperative for pregnant women with pregnancy-induced hypertension (PIH) and pre-eclampsia. For more than 40 years, dihydralazine has been the drug of choice for this indication. Another particularly effective and better tolerable antihypertensive is urapidil. Yet only a few studies on limited patient collectives have been published on the clinical experience with urapidil in PIH. METHODS: Urapidil was interindividually compared to dihydralazine in a total of 42 patients, at six participating clinical centres. Patients were randomly assigned to the treatment groups. Urapidil was administered at an initial dose of 12.5-25mg, dihydralazine was administered at a uniform initial dose of 5mg. Patients were closely monitored for the initial 24h of therapy. Until delivery and in the postpartal phase, mother and baby underwent four additional follow-up checks at regular intervals. RESULTS: Either drug was effective in lowering BP. Urapidil treatment proved to be better controllable. There were clear differences as to tolerability. In the urapidil group, one patient complained of headaches. In the dihydralazine group, six patients experienced adverse occurrences. Under dihydralazine treatment, some marked HR increases occurred, interpretable as reflectory tachycardia. CONCLUSIONS: Urapidil proved to be equally effective as dihydralazine in lowering BP in patients with pre-eclampsia, but showed a better controllability and tolerability. Urapidil can hence be recommended as a promising alternative for patients with PIH.

Ketanserin versus dihydralazine for the treatment of severe hypertension in early-onset preeclampsia: a double blind randomized controlled trial.

OBJECTIVE: Determine the definitive position of ketanserin and dihydralazine for treatment of severe hypertension in pregnancy. STUDY DESIGN: A single centre double blind randomized controlled trial was performed at the obstetrical tertiary high care unit of the University Medical Centre in Rotterdam, the Netherlands. Women with severe hypertension in pregnancy (diastolic blood pressure (DBP)≥110mmHg), and significant proteinuria (≥300mg/24h), and gestational age≤32 weeks were eligible for the study. All patients (n=30) received two infusions (double dummy technique): one contained the active ingredient (ketanserin or dihydralazine), the other was used for placebo. Nicardipine was used as rescue medication. The main outcome measures were persistent severe hypertension (DBP>100mmHg>120min) despite maximum dosage of study medication and prolongation of pregnancy. RESULTS: Dihydralazine was significantly more effective in lowering blood pressure than ketanserin. No significant difference in prolongation of pregnancy was seen between the two groups. After 30 inclusions, the study was stopped because of the high rate of persistent hypertension using ketanserin and the high rate of maternal side effects using dihydralazine and the apparent succesful use of the rescue drug nicardipine. CONCLUSIONS: Our results do not support the use of either dihydralazine or ketanserin for the treatment of severe hypertension in pregnancy. Future research is needed to compare nicardipine with other antihypertensive drugs currently in use for treatment of severe hypertension in pregnancy.

Epitope mapping of human CYP1A2 in dihydralazine-induced autoimmune hepatitis.

Dihydralazine-induced hepatitis is characterized by the presence of anti-liver microsomal (anti-LM) autoantibodies in the sera of patients. Cytochrome P450 1A2 (CYP1A2), involved in the metabolism of dihydralazine, was shown to be a target for autoantibodies. In order to investigate further the relationship between drug metabolism and the pathogenesis of this drug-induced autoimmune disease, and since the specificity of anti-LM autoantibodies towards CYP1A2 has been determined, the antigenic site was further localized. By constructing fragments derived from CYP1A2 cDNA and probing the corresponding proteins with several anti-LM sera, we were able to define a region (amino acid 335-471) which was immunoreactive with 100% of sera. An internal deletion in this region led to the loss of recognition by anti-LM autoantibodies, confirming that the epitope was conformational. Epitope mapping studies had previously been performed for CYP2D6, CYP17, CYP21A2, and recently for CYP3A1 and CYP2C9. Those data were compared with results obtained in the present study for CYP1A2.

Immune-mediated drug-induced liver disease.

Drug-induced immune-mediated hepatic injury is an adverse immune response against the liver that results in a disease with hepatitic, cholestatic, or mixed clinical features. Drugs such as halothane, tienilic acid, dihydralazine, and anticonvulsants trigger a hepatitic reaction, and drugs such as chlorpromazine, erythromycins, amoxicillin-calvulanic acid, sulfonamides and sulindac trigger a cholestatic or mixed reaction. Unstable metabolites derived from the metabolism of the drug may bind to cellular proteins or macromolecules, leading to a direct toxic effect on hepatocytes. Protein adducts formed in the metabolism of the drug may be recognized by the immune system as neoantigens. Immunocyte activation may then generate autoantibodies and cell-mediated immune responses, which in turn damage the hepatocytes. Cytochromes 450 are the major oxidative catalysts in drug metabolism, and they can form a neoantigen by covalently binding with the drug metabolite that they produce. Autoantibodies that develop are selectively directed against the particular cytochrome isoenzyme that metabolized the parent drug. The hapten hypothesis proposes that the drug metabolite can act as a hapten and can modify the self of the individual by covalently binding to proteins. The danger hypothesis proposes that the immune system only responds to a foreign antigen if the antigen is associated with a danger signal, such as cell stress or cell death. Most clinically overt adverse hepatic events associated with drugs are unpredictable, and they have intermediate (1 to 8 weeks) or long latency (up to 12 months) periods characteristic of hypersensitivity reactions. Immune-mediated drug-induced liver disease nearly always disappears or becomes quiescent when the drug is removed. Methyldopa, minocycline, and nitrofurantoin can produce a chronic hepatitis resembling AIH if the drug is continued.

Effect of dihydralazine on the fetus in the treatment of maternal hypertension.

The effect on the fetus of lowering the maternal blood pressure with intravenous dihydralazine was studied in 33 patients with diastolic blood pressure of 110 mmHg or more. Nineteen patients showed fetal heart rate (FHR) decelerations coinciding with a fall in blood pressure. Thirteen of the 19 patients had growth-retarded fetuses, while only 1 of 14 patients who showed no FHR changes had a growth-retarded fetus (P greater than .005). Continuous FHR monitoring during the administration of dihydralazine helped identify the compromised fetus if it had been unrecognized at other observations.

Target proteins in human autoimmunity: cytochromes P450 and UDP- glucuronosyltransferases.

Cytochromes P450 (CYPs) and UDP-glucuronosyltransferases (UGTs) are targets of autoantibodies in several hepatic and extrahepatic autoimmune diseases. Autoantibodies directed against hepatic CYPs and UGTs were first detected by indirect immunofluorescence as antiliver and/or kidney microsomal antibodies. In autoimmune hepatitis (AIH) type 2, liver and/or kidney microsomal (LKM) type 1 autoantibodies are detected and are directed against CYP2D6. About 10% of AIH-2 sera further contain LKM-3 autoantibodies directed against family 1 UGTs. Chronic infections by hepatitis C virus and hepatitis delta virus may induce several autoimmune phenomena, and multiple autoantibodies are detected. Anti-CYP2D6 autoantibodies are detected in up to 4% of patients with chronic hepatitis C, and anti-CYP2A6 autoantibodies are detected in about 2% of these patients. In contrast, 14% of patients with chronic hepatitis delta virus infections generate anti-UGT autoantibodies. In a small minority of patients, certain drugs are known to induce immune-mediated, idiosyncratic drug reactions, also known as 'druginduced hepatitis'. Drug-induced hepatitis is often associated with autoantibodies directed against hepatic CYPs or other hepatic proteins. Typical examples are tienilic acid-induced hepatitis with anti-CYP2C9, dihydralazine hepatitis with anti-CYP1A2, halothane hepatitis with anti-CYP2E1 and anticonvulsant hepatitis with anti-CYP3A. Recent data suggest that alcoholic liver disease may be induced by mechanisms similar to those that are active in drug-induced hepatitis. Autoantibodies directed against several CYPs are further detected in sera from patients with the autoimmune polyglandular syndrome type 1. Patients with autoimmune polyglandular syndrome type 1 with hepatitis often develop anti-CYP1A2; patients with adrenal failure develop anti-CYP21, anti- CYP11A1 or CYP17; and patients with gonadal failure develop anti-CYP11A1 or CYP17. In idiopathic Addison disease, CYP21 is the major autoantigen.

Dihydralazine or ketanserin for severe hypertension in pregnancy? Preliminary results.

OBJECTIVE: To compare the efficacy and safety of intravenous dihydralazine with ketanserin in the management of severe hypertension in the third trimester. STUDY DESIGN: A double blind randomised controlled trial, comparing 5 mg dihydralazine with 10 mg ketanserin after an intravenous infusion of 500 ml of a crystalloid solution. Medication was repeated every 20 min till the therapeutic goal of 90 mm Hg was reached, to a maximum of 4 dosages. Main outcome measures were treatment failures and emergency deliveries for fetal distress. RESULTS: The therapeutic goal was met more often in patients receiving dihydralazine (36/38 compared to 27/42; P < 0.01). The need for delivery for fetal distress did not differ (3 after dihydralazine, 1 after ketanserin, P = 0.29) No therapy related perinatal loss occurred, but one mother with an undiagnosed phaechromocytoma died 24 h after receiving dihydralazine. CONCLUSION: Ketanserin in this dosage is less effective to lower diastolic blood pressure. The place of a fluid load prior to dihydralazine needs to be further investigated, as fetal heart rate decelerations were less common than previously reported.

[Treatment of severe chronic cardiac insufficiency with dihydralazine. Short-and median-term results]. / Traitement de l'insuffisance cardiaque chronique sévère par la dihydralazine. Résultants à court et moyen termes.

17 patients with severe chronic heart failure (class III and IV) were prescribed hydralazine, an arterial vasodilatator, orally at doses of 150 mg to 400 mg/day. Considerable clinical improvement was observed in most patients. After 24 to 48 hours the cardiac index rose 79 p. 100, the systolic index by 67 p. 100 and left ventricular work by 73 p. 100, whilst systemic and pulmonary resistances fell by 51 p. 100 and 34 p. 100 respectively. There was no significant change in systemic blood pressure or in heart rate. These results were confirmed at 4 months. Mean pulmonary capillary pressure varied little at the start of treatment but decreased by 52 p. 100 at medium term (4 and 12 months) in this series. No cases of systemic lupus erythematosis were observed. The main, but not the only, indication of therapy with dihydralazine is low output heart failure with little elevation in the pulmonary capillary pressure, especially in primary cardiomyopathy and valvular regurgitation. At present, treatment should be based on the results of cardiac catheterisation and the dosage adjusted according to the rate of hepatic acetylation.

Drug-induced immunotoxicity.

Immune-related drug responses are one of the most common sources of idiosyncratic toxicity. A number of organs may be the target of such reactions; however, this review concentrates mostly on the liver. Drug-induced hepatitis is generally divided into two categories: acute hepatitis in which the drug or a metabolite destroys a vital target in the cell; immunoallergic hepatitis in which the drug triggers an adverse immune response directed against the liver. Their clinical features are: a) low frequency; b) dose independence; c) typical immune system manifestations such as fever, eosinophilia; d) delay between the initiation of treatment and onset of the disease; e) a shortened delay upon rechallenge; and f) occasional presence of autoantibodies in the serum of patients. Such signs have been found in cases of hepatitis triggered by drugs such as halothane, tienilic acid, dihydralazine and anticonvulsants. They will be taken as examples to demonstrate the recent progress made in determining the mechanisms responsible for the disease. The following mechanisms have been postulated: 1) the drug is first metabolized into a reactive metabolite which binds to the enzyme that generated it; 2) this produces a neoantigen which, once presented to the immune system, might trigger an immune response characterized by 3) the production of antibodies recognizing both the native and/or the modified protein; 4) rechallenge leads to increased neoantigen production, a situation in which the presence of antibodies may induce cytolysis. Toxicity is related to the nature and amount of neoantigen and also to other factors such as the individual immune system. An effort should be made to better understand the precise mechanisms underlying this kind of disease and thereby identify the drugs at risk; and also the neoantigen processes necessary for their introduction into the immune system. An animal model would be useful in this regard.

Long-term efficacy and tolerability of a fixed-dose combination of antihypertensive agents: an open-label surveillance study in China.

BACKGROUND: A fixed-dose combination (FDC) of four compounds, hydrochlorothiazide 12.5 mg, triamterene 12.5 mg, dihydralazine 12.5 mg and reserpine 0.1 mg (HTDR), is widely used as an antihypertensive treatment in China. Although HTDR has been used in China for more than 30 years, there have been few comprehensive evaluations of this treatment. OBJECTIVE: The aim of this study was to investigate the long-term efficacy and tolerability of HTDR in Chinese patients with essential hypertension. METHODS: This was a 36-month, community-based, open-label surveillance study, conducted in the Huangpu District (Shanghai, China). The study was based in local primary healthcare settings. Subjects were recruited if they had essential hypertension, were aged ≥35 years at the time of enrolment, were expected to remain in the area for 3 years, and were able to provide informed consent. Patients who had secondary hypertension, myocardial infarction or stroke within 6 months of screening, impaired renal or hepatic function, history of cardiomyopathy or chronic heart failure, or were pregnant or lactating were excluded. HTDR was administered as one or two tablets per day in the morning. If necessary, additional hydrochlorothiazide was added. Blood pressure (BP) was measured at baseline and throughout the 36-month surveillance period every 3 months. Biochemical indicators (e.g. fasting blood glucose, plasma lipid parameters, plasma sodium and potassium, plasma uric acid and serum creatinine) were also measured, and adverse events were noted. BP reductions and the rate at which patients achieved BP targets (systolic BP [SBP] <140 mmHg and diastolic BP [DBP] <90 mmHg) throughout the period were determined. Subgroup analyses by sex and age were also conducted. RESULTS: A total of 1529 patients (550 male, 979 female; mean age 65.7 years) entered the study. After the 36-month treatment period, 93.1% of patients had achieved the SBP target, 97.9% had achieved the DBP target, and 92.1% had achieved both. The mean decreases in SBP and DBP were 15.3 mmHg and 9.9 mmHg, respectively. Overall, 127 adverse events in 119 patients (7.8%) occurred during the follow-up period, most of which were mild to moderate. Plasma lipid profiles were improved after 24 months of treatment. In addition, a significant increase in plasma potassium and a significant reduction in plasma uric acid were seen. CONCLUSION: HTDR was found to have good long-term efficacy and tolerability in Chinese patients with essential hypertension.

Dihydralazine therapy and acetylator phenotype.

The acetylator phenotype was studied in 21 hypertensive patients receiving chronic treatment with dihydralazine and other antihypertensive drugs. Plasma dihydralazine concentrations were measured 6 hours after the morning dose of the drug. There were no significant differences between the slow and fast acetylators 1) in the daily dose of dihydralazine needed, 2) in the concentrations of dihydralazine achieved in plasma, 3) in the dose/concentration-relationship of dihydralazine or 4) in the appearance of side effects. Antinuclear antibodies were found in five patients. Four of them were fast acetylators. The lowest dose/concentration relationship was found in a patient with impaired renal function. According to these results the acetylator phenotype seems to be an unimportant factor in therapy with dihydralazine. More investigation will be needed in order to elucidate the metabolism of dihydralazine.

The influence of the acetylator phenotype for the clinical use of dihydralazine.

Dihydralazine is a substrate of the human N-acetyltransferase. Therefore the acetylator phenotype could influence the pharmacodynamic response of dihydralazine and/or side effects of this drug. In this study it could be shown that: among patients with dihydralazine incompatibility slow acetylators preponderated; the risk of early side effects was higher in females than in males; and the ratio of fast/slow acetylators was higher in dihydralazine treated patients than in patients treated with other antihypertensives. Dihydralazine should be given very cautiously to female hypertonic patients that are slow acetylators.