Risk factors for treatment interruption and severe adverse effects to benznidazole in adult patients with Chagas disease.

BACKGROUND: Etiological treatment of Chagas disease in chronic asymptomatic patients is still in debate and the adverse effects of traditional drugs are one of the main concerns in clinical practice. This study evaluated retrospectively the safety profile of benznidazole (BZN) and identified predictive factors for definite treatment interruption and development of severe reactions in adult patients treated with BZN in Colombia.
METHODS: Retrospective follow-up study conducted by review of medical records of adults with chronic Chagas disease treated with BZN in Colombia. A parametric survival analysis based on a generalized gamma distribution was used for assessing risk factors for treatment interruption. A multinomial logistic regression model was used to estimate the probability of severe adverse drug reactions (ADRs). Statistical associations were expressed as time ratios (TR) and adjusted odds ratios (aOR) respectively.
RESULTS: In total 224 adults patients treated with BZN were included; 172 (76.8%) completed the standard therapy (60 days of treatment), 205 (91.5%) presented ADRs and 52 cases (23.2%) required treatment interruption. The predominant symptoms were: rash (37.9%), itching (33.7%), epigastric pain (26.4%), abdominal bloating (24.2%) and nausea (22.1%). ADRs were mild (57.4%), moderate (35.5%) and severe (7.3%). Time to treatment interruption was significantly shorter when using doses of BZN ≥ 6 mg/kg/day (TR 0.55; 95% CI 0.39-0.76), presenting severe ADRs (TR 0.12; 95% CI: 0.07-0.19) and eosinophilia (TR 0.68; 95% CI: 0.49-0.94). Female sex (aOR 3.98; 95% CI 1.56-10.16), dose of BZN ≥ 6 mg/kg/day (aOR 1.41; 95% CI 1.17-1.70) and presence of > 3 ADRs (aOR 6.47; 95% CI 1.24-34.34) were considered as risk factors for developing severe ADRs.
CONCLUSIONS: Dose, severity of ADRs, eosinophilia and female sex were the main predictors for treatment interruption or severe ADRs. The potential implications of these findings are discussed.

Introduction

Despite decades of control efforts, Chagas disease remains one of the principal tropical diseases in the Americas. The World Health Organization estimates that this disease affects 6–7 million people worldwide and it causes more than 7,000 deaths per year [1]. It represents one of the largest parasitic disease burden with 806,170 disability adjusted life years in Latin-America [2]. Currently, anti-parasitic treatment options for Chagas disease are limited by only two old anti-parasitic drugs, benznidazole (BZN) and nifurtimox [3]. A recent study has determined a lack of efficacy of BZN once the chronic heart complications are already established [4]. Even though, the clinical implications of aetiological treatment are still in debate for asymptomatic cases, a parasitic effect has been consistently proved in this population [5]. The current trend in the majority of countries is to treat cases with Chagas disease in asymptomatic stage. The expected benefits of aetiological treatment include a reduction in the incidence of chronic complications and death [6-8].

Adverse drug reactions (ADRs) associated with BZN are one the main disadvantages of using this drug [9]. In some adult populations the incidence of ADRs has reached up to 100% [10] leading to interruption of treatment in up to 31.6% of patients frequently due to cutaneous reactions [11]. The most common ADRs observed with BZN have been dermatological alterations followed by gastrointestinal disturbances [9]. Children seem less susceptible to ADRs than adults [12]. Some factors have been proposed as predictors of interruption to treatment including female sex [13] and the number of ADRs [14]. However, there are few studies that support these findings in different populations. Due to the high incidence of ADRs associated with BZN, it is important to have tools to identify patients at risk of developing ADRs and interrupting treatment, particularly in endemic countries.

This study aimed at evaluating the tolerance and safety profile of BZN in a cohort of adult patients with chronic Chagas disease in Colombia and identifying the risk factors for definitive treatment interruption and severe ADRs.

Materials and methods

Observational and retrospective study of a cohort of patients with chronic Chagas disease treated with BZN at the Colombian National Health Institute (Instituto Nacional de Salud) from June 2000 through December 2013. We follow the recommendations of the Strengthening the Reporting of Observational studies in Epidemiology-STROBE (S1 File).

Patients and procedures

Patients were asked for permission for accessing their clinical records. The selection criteria were: i) Age ≥18 years old ii) Confirmed as positive to Trypanosoma cruzi infection by two serological tests, using both ELISA and immunofluorescent antibody (IFAT) tests following international recommendations [15], iii) History of having received treatment with BZN at the National Health Institute iv) Evidence of complete clinical records (pre, during and post-treatment). Patients under 18 years old and patients who had not attended at least one clinical control during their treatment were excluded (5 patients).

The treatment regime, according to the National Treatment Guidelines in Colombia [16], dosing of BZN (100 mg tablets) consisted of 5–7 mg/kg/day divided into two doses daily for 60 days and a clinical follow-up at the start, middle and end of the treatment. Clinical evaluation included biological analyses (complete blood count, liver and renal function tests) at 0, 20, 40, and 60 days. Drugs were provided to the National Health Institute by the Ministry of Health and Social Protection of Colombia.

As part of the follow-up protocol, during each control patients were asked about the occurrence of expected ADRs and specific forms for adverse drug reactions were filled by doctors during each consultation reporting the results of laboratory tests and the presence of signs and symptoms. Specific ADRs were medically treated according to their severity; mild and moderate events were treated firstly with medications according to specific symptoms (analgesics for headache, proton pump inhibitors for dyspepsia, anti-H2 for allergies). Temporary treatment suspension was implemented for a few days when symptomatic medications did not work and then the drug scheme was continued starting with a low dose that was gradually increased to reach the original prescribed dose [16].

The records were manually revised and causality of adverse reactions was determined by using the Naranjo algorithm [17], then double checked and the agreement was estimated. A consensus was made between the investigators when disagreement occurred. The severity of the ADRs was classified according to the level of affectation of the normal life of the patient. This scale allowed for categorical classification of ADRs as mild, moderate, severe or fatal [9,18].

Statistical methods

Means, standard deviations, medians and proportions were used for presenting descriptive results for continuous and categorical variables respectively. The chi-square or Fisher’s exact test, as appropriate, and Student´s t test were used to compare categorical and continuous variables. For causality measures, through Naranjo Algorithm, the test–retest reliability was tested by using the kappa statistic (k). The kappa coefficient was interpreted as proposed by Landis and Koch [19].

Risk factors for Treatment Interruption: Time-to-event (time-to-interruption) was defined as the time in days from the start of treatment until definite interruption due to ADRs. A Cox proportional hazards model was considered not suitable, given that a semi-parametric proportional hazards assumption was not fulfilled [20]. Therefore, a parametric survival model was chosen for the survival analysis, and then the exponential, Weibull, log-logistic, log-normal and GG distributions were compared [21]. Akaike Information Criterion’s lowest value was considered as the best fit to data [22,23]. Times Ratios (TR) were used to assess risk factors for treatment interruption; a TR > 1 implies that the variable is associated with a longer time from the start the treatment with BZN until its interruption [21].

Risk factors for Severe ADRs: a multinomial logistic regression model was used to estimate the probability of developing severe ADRs. The Hosmer and Lemeshow test was used to show how adequately the model fits the data [24]. Associations were estimated with Odds ratios (OR) and their respective 95% confidence intervals (CI).

All the statistical analyses were performed using the Stata® (release 11.0) software package (Stata, College Station, TX) and R statistical package (R Development Core Team, 2008, Vienna, Austria)[25]. P-values < 0.05 were considered as statistically significant.

Ethical considerations

The study protocol was approved by the Technical Research Committee and Ethics Research Board at the National Health Institute in Bogotá, Colombia: protocol CTIN-014-11, Minute 9 of December 11, 2012. Participation was voluntary and patients were asked for informed written consent to access information on their clinical records.

Results

General findings

From 2000–2013, 420 records of adult patients with chronic Chagas disease were identified. Of these, 106 patients had not received etiological treatment, 85 had been treated with nifurtimox and 229 with BZN. Of the 229 patients treated with BZN, five were excluded because they did not complete medical record.

In total, 224 patients were treated with BZN of whom 172 (76.8%) completed 60 days of treatment and 52 (23.2%) required definitive treatment interruption due to intolerance to BZN. The total dose of BZN ranged from 200 to 600 mg/day (mean 362.3 ± 66.7) and the duration of treatment ranged from 3 to 75 days (mean 51.6 ± 16.3). Basic demographics and clinical characteristics at baseline are shown in Table 1.

Table 1

Proportion of adverse drug reactions to benznidazole stratified by baseline characteristics and events (interruption of benznidazole).

Variable	Category	ADRs
		Yes, n (%)	No, n (%)
Sex	Female	111 (91.0%)	11 (9.0%)
	Male	94 (92.2%)	8 (7.8%)
Age	18–50 years	121 (91.7%)	11 (8.3%)
	>50 years	82 (91.1%)	8 (8.9%)
Interruption of treatment	Yes	52 (100%)	0 (0%)
	No	153 (88.9%)	19 (11.1%)
Total		205 (91.5%)	19 (8.5%)

ADRs: Adverse Drug Reactions.

Of the 224 patients treated, 205 (91.5%) patients had at least one ADR during the course of the treatment with BZN and 181 (80.8%) had ≥ 3 ADRs; only nine patients (4.0%) had only one ADR. All ADRs disappeared after discontinuation of treatment.

Specific reported symptoms in order of frequency were: rash 107 (37.9%), itching 73 (33.7%), epigastric pain 61 (26.4%), abdominal bloating 56 (24.2%) and nausea 51 (22.1%), as shown in Table 2.

Table 2

Frequency of adverse drug reactions to benznidazole according to systems or organs.

Systems or organs	Absolute Frequency	%	Symptom/alteration	Frequency
				n	%
Skin	282	39.4	Rash	107	37.9
			Itching	95	33.7
			Urticaria	23	8.2
			Angioedema	21	7.4
			Photosensitivity	15	5.3
			Bullous eruption	12	4.3
			Skin peeling	9	3.2
Gastrointestinal	232	32.3	Epigastric pain	61	26.4
			Abdominal bloating	56	24.2
			Nausea	51	22.1
			Abdominal pain	42	18.2
			Vomiting	8	3.5
			Diarrhoea	6	2.6
			Constipation	5	2.2
			Dysphagia	3	1.3
Body as a whole—general disorders	51	7.1	Headache	19	37.3
			Adynamia	15	29.4
			Asthenia	14	27.5
			Fever	3	5.9
Autonomic nervous system	45	6.3	Loss of appetite	31	68.9
			Increase in appetite	14	31.1
Haematological	37	5.2	Eosinophilia	23	62.2
			Lymphocytosis	8	21.6
			Neutrophilia	4	10.8
			Leukopenia	2	5.4
Musculoskeletal	30	4.3	Myalgia	17	56.7
			Arthralgia	13	43.3
Central and peripheral nervous system	26	3.6	Sleep disturbance	14	53.8
			Depression	5	19.2
			Paraesthesia	4	15.4
			Vertigo	3	11.5
Liver	13	1.8	Increased (ALT) levels	7	53.8
			Increased (AST) levels	6	46.2
TOTAL	717	100

The symptoms leading to definitive interruption of treatment in order of frequency were: rash 11 (21.2%), urticarial reaction 8 (15.4%), angioedema 7 (13.5%), skin peeling 6 (11.5%), epigastric pain 6 (11.5%), bullous eruption 5 (9.6%), paraesthesia 3 (5.8%), drug reaction with eosinophilia and systemic symptoms 2 (3.8%), sleep disturbance 2 (3.8%), depression 1 (1.9%) and three times increase in baseline levels of alanine aminotransferase 1 (1.9%).

The specific analysis of differential risk for each ADR showed that the risk of presenting dermatological ADRs increases when using doses of BZN ≥ 6 mg/kg/day. Significant differences were seen in rash (OR 1.93; 95% CI 1.22–3.04), itching (OR 2.33; 95% CI 1.42–3.84), urticaria (OR 4.77; 95% CI 1.67–13.64), angioedema (OR 2.84; 95% CI 1.16–6.93), photosensitivity (OR 2.93; 95% CI 1.10–7.72), bullous eruption (OR 3.36; 95% CI 1.15–9.81) and skin peeling (OR 4.93; 95% CI 1.13–21.52).

Causality and severity of ADRs

In this study, overall 716 ADRs were identified (Table 2). According to the Naranjo algorithm, the ADRs were classified as follows: 193 (26.7%) as definitive, 180 (25.1%) as probable, 174 (24.3%) as possible and 169 (23.6%) as doubtful. The intra-observer kappa for assigning causality was k = 0.91 (95% CI: 0.90–0.92). In terms of severity, 411 (57.4%) cases were classified as mild, 253 (35.3%) as moderate and 52 as severe (7.3%) and no fatal cases were reported. The intra-observer kappa for assigning severity to BZN was k = 0.96 (95% CI: 0.95–0.98)

Risk factors for treatment interruption

The average time to interruption was 26.7 days (95% CI: 22.3–34.6 days). The bivariate analysis showed a statistically significant shorter time of treatment for the presence of severe ADRs (p< 0.0001), dose (p = 0.029), eosinophilia (p = 0.038) and sex (p = 0.007).

For the multivariate analysis, the results of the comparison between parametric models show that the Generalized Gamma distribution was the best candidate according to the AIC value (347.8) compared with the others: exponential (350.2), Weibull (352.1), log-normal (348.1), and log-logistic (351.1). In the results obtained from the multivariate model were observed three possible risk factors, where the time of treatment to interruption was shorter when dose of BZN ≥6 mg/kg/day (TR 0.55; 95% CI 0.39–0.76) (Fig 1), severe ADRs presented (TR 0.12; 95% CI: 0.07–0.19) (Fig 2) and eosinophilia occurred (TR 0.68; 95% CI: 0.49–0.94) (Fig 3). In addition, a fourth potential risk factor for female patients (TR 0.72; 95% CI: 0.50–1.00) (Fig 4), although this was not strictly statistically significant, a trend was observed that women more often interrupted treatment BZN compared with men (Table 3).

Fig 1

Generalized Gamma (survival) curves for risk factors associated with time free to treatment interruption: dose.

Fig 2

Generalized Gamma (survival) curves for risk factors associated with time free to treatment interruption: severity of adverse drug reactions (ADRs).

Fig 3

Generalized Gamma (survival) curves for risk factors associated with time free to treatment interruption: eosinophilia.

Fig 4

Generalized Gamma (survival) curves for risk factors associated with time free to treatment interruption: sex.

Table 3

Risk factors for treatment interruption of benznidazole: Bivariate and multivariate analysis using Generalized Gamma distribution.

	Bivariate analysis				Multivariate analysis
Covariate	Coefficient (βi)	TR exp(βi)	95% CI	P-value	Coefficient (βi)	TR exp(βi)	95% CI	P-value
Severity
Mild/Moderate	1.00	1.00			1.00	1.00
Severe	-2.23	0.11	(0.06–0.18)	0.000	-2.10	0.12	(0.07–0.19)	0.000
Doses mg/kg/day
< 6	1.00	1.00			1.00	1.00
≥ 6	-0.68	0.50	(0.27–0.93)	0.029	-0.60	0.55	(0.39–0.76)	0.000
Alteration of eosinophil
No	1.00	1.00			1.00	1.00
Yes	-0.67	0.51	(0.27–0.96)	0.038	-0.38	0.68	(0.49–0.94)	0.022
Sex
Male	1.00	1.00			1.00	1.00
Female	-0.79	0.45	(0.25–0.80)	0.007	-0.33	0.72	(0.50–1.00)	0.057
Age (years)
<50	1.00	1.00
≥50	-0.11	0.90	(0.46–1.77)	0.762
ADRs
≤ 3	1.00	1.00
> 3	-0.40	0.67	(0.36–1.25)	0.208
History of previous Pathologies
No	1.00	1.00
Yes	-0.12	0.88	(0.44–1.75)	0.734
Alteration of leukocytes
No	1.00	1.00
Yes	-0.45	0.96	(0.26–3.38)	0.944
Alteration of lymphocyte
No	1.00	1.00
Yes	-0.02	0.97	(0.28–3.43)	0.966
Alteration of neutrophils
No	1.00	1.00
Yes	-0.78	0.46	(0.12–1.76)	0.256

ADRs, adverse drug reactions; Coefficient (βi), β coefficient; TR, time ratio; CI, confidence interval; Bold values, values statistically significant

Risk factors for severe ADRs

The bivariate analysis showed that female sex (p = 0.013), presence of > 3 ADRs (p = 0.016) and dose (p = 0.001) were statistically significant predictors. Those with a P-value < 0.1 were considered for inclusion in the multivariate model. For the multinomial logistic regression model the best predictors of severe ADRs were: female sex (OR 3.98; 95% CI 1.56–10.16), dose of BZN ≥6 mg/kg/day (OR 1.41; 95% CI 1.17–1.70) and presence of ≥ 3 ADRs (OR 6.47; 95% CI 1.24–34.34) (Table 4).

Table 4

Risk factors for severity of adverse drug reactions to benznidazole: Using a multinomial logistic regression model.

		Multivariate analysis
Severity of ADRs	Covariate	Coefficient (βi)	aOR	95% CI	P-value
Mild	Base outcome
	Female sex	0.60	1.82	(0.96–3.44)	0.065
Moderate	≥ 6mg/kg/day	0.12	1.13	(0.95–1.35)	0.160
	≥ 3 ADRs	1.47	4.35	(1.48–12.78)	0.007
	Female sex	1.38	3.98	(1.56–10.16)	0.004
Severe	≥ 6mg/kg/day	0.34	1.41	(1.17–1.70)	0.000
	≥ 3 ADRs	1.86	6.47	(1.21–34.34)	0.028

ADRs, adverse drug reactions; Coefficient (βi), β coefficient; aOR, adjusted odds ratio; CI, confidence interval.

Discussion

This study shows that 76.8% of patients treated with Benznidazole completed the full 60-day course of treatment; therefore 23.2% of cases needed definitive treatment interruption. These results contrast with previous studies that have reported a higher percentage of interruption, such as in Brazil, 31% [9,13] and Italy, 32% [11]. Our results also differ with the ones recently published in the largest clinical trial for Chagas disease, where the proportion of permanent treatment discontinuation of BZN was 13.4% in the BZN arm compared with 3.6% in the placebo arm [4]. Other clinical trials also reported lower rates of definitive suspension of BZN. In Brazil, in a clinical trial, unblinded, nonrandomized, the discontinuation rate was 13% [8] and in Argentina in a controlled, multicenter, blinded clinical trial, disruption of BZN was 17.7% due to ADRs [26]. In our study, the average time to interruption was 26.7 days (95% CI: 22.3–34.6 days) and the probability of treatment interruption was highest in the first week, with 23.1% of interruptions. Multivariate analysis shows that treatment interruption was significantly associated with the severity of ADRs, eosinophilia and the dose, followed by female sex, as a fourth possible associated factor, although it was not strictly statistically significant. Meanwhile, female sex, dose were related with severe ADRs.

In the present study, it was evident that severe ADRs predict treatment interruption compared with non-severe ADRs. An association of severity of ADRs with premature interruption had been also previously described for BZN [9]. Of 224 patients who received BZN, 91.5% had at least one ADR. A similar incidence of ADRs, 87.5%, was reported in a previous prospective longitudinal research conducted in Brazil [27]. Others studies had reported lower incidences of 48.7 and 48.9% in Brazil [9,13]. Coinciding with previous findings in adult patients treated with BZN [9,28], this study found that dermatological alterations and gastrointestinal disturbances were predominant.

Out of the identified risk factors, only dose is considered as a potentially modifiable. Indeed, this study shows that a dose of BZN ≥ 6 mg/kg/day is an important predictor of both severe ADRs and treatment interruption. It is also associated with significantly higher incidence of dermatological ADRs, such as rash, itching, urticaria, angioedema, photosensitivity, bullous eruption and skin peeling. Currently there is no published evidence on the consequences of decreasing the dose of BZN on the effectiveness of treatment. Nevertheless, there are a few ongoing studies in this regard [29].

On the other hand, BZN was administered in this study for the recommended duration in ambulatory care (60 days) as most of the treatment regimens in clinical studies and clinical guidelines [10,11,30,31]; therefore, treatment interruption is defined in comparison with that recommendation. However, there are a few studies that have considered a shorter course of treatment [8]. A recent study in chronically T. cruzi infected patients evaluated a new scheme of BNZ administration with intermittent doses at 5mg/kg/day every 5 days for a total of 60 days (12 days of intermittent treatment). With this new scheme, reported a definite discontinuation in only one patient (1/20). The intermittent treatment of BNZ emerges as a potential solution to improve the safety of administering BNZ [32]. However, it might be of great importance to evaluate their parasitological efficacy compared with the standard duration.

In this study, 9.4% of patients presented eosinophilia during the treatment period without any associated symptoms. Two patients experienced eosinophilia and systemic symptoms—Drug Reaction with Eosinophilia and Systemic Symptoms (DRESS). Previous studies had reported the appearance of this syndrome in 3.7% (3/81) of patients in a cohort treated with Nifurtimox [14]. However, this had not been previously reported for BZN. The presence of eosinophils in the skin is common in dermatological disorders associated with adverse drug reactions and it has been hypothesized that eosinophils might contribute to pathogen defense and regulate inflammatory responses [33,34]. Drugs, either directly or after processing by dendritic cells, activate T cells which can produce cytokines and cytotoxins resulting in tissue damage and an inflammatory response [33,34].

Female sex was found as a predictor of severe ADRs and definitive interruption of BZN (Not statistically significant), a finding that had been previously reported as a strong and independent factor for treatment interruption (OR 2.3; 95% CI: 1.2–4.3) and the most important predictor for overall ADRs (OR 2.9; 95% CI 1.5–5.4) [13]. Recent studies suggest that pharmacokinetic differences between women and men that can impact ADRs development are: lower body weight, lower glomerular filtration rate and higher percentage of body fat [35,36]. Interestingly, for Nifurtimox, no relation with sex has been found in previous studies [37].

The main limitations of this study include a possible information bias and the presence of confounding factors (e.g., other drugs used). Due to its retrospective nature, this study relies on the quality of the original records. This quality can be granted given the standard protocol that was used for treatment indications, lab tests and follow-up over the years. Other measures taken to address the limitations, due to the retrospective nature of the study, were double checking on the review process and a consensus when disagreement. As only five patients (2.2%) were lost to the follow-up, they were not included in the analysis.

Even though the use of BNZ in adults chronically T. cruzi infected and with established Chagas’ cardiomyopathy showed no significantly reduce cardiac clinical deterioration, the efficacy in adult patients in chronic phase without cardiomyopathy it is still under discussion. One of the most striking problems for assessing its effectiveness and for recommending this drug in clinical practice is the high frequency of ADRs that lead to an important rate of treatment abandonment. In this study, although the frequency of ADRs during administration of BZN was high (91.5%), most of the ADRs were considered as mild and only 23.2% of cases required definitive treatment interruption. As the only modifiable factor related to severe ADRs and treatment interruption was the dose of BZN, a next and needed step is to test the efficacy of BZN at a lower dose. For clinical practice, we recommend the beginning of the clinical controls on the first week of treatment in order to document earlier the number of ADRs before turning into severe and therefore minimize the risk of treatment interruption. Since some of the severe ADRs are of insidious onset, patient awareness could also contribute to avoid or stop some of them.

STROBE checklist.

(DOCX)

Click here for additional data file.