|Year : 2021 | Volume
| Issue : 4 | Page : 271-274
A 5 years assessment of patients with acute digoxin poisoning: A toxicoepidemiology study in Iran
Mitra Rahimi1, Arezou Mahdavinejad1, Shahin Shadnia1, Ali Saffaei2
1 Toxicological Research Center, Department of Clinical Toxicology, Shahid Beheshti University of Medical Sciences, Loghman Hakim Hospital, Tehran, Iran
2 Skull Base Research Center, Loghman Hakim Hospital, Shahid Beheshti University of Medical Sciences; Department of Clinical Pharmacy, School of Pharmacy, Shahid Beheshti University of Medical Sciences, Tehran, Iran
|Date of Submission||02-Apr-2021|
|Date of Acceptance||20-Dec-2021|
|Date of Web Publication||11-Feb-2022|
Dr. Shahin Shadnia
Department of Clinical Toxicology, Toxicology Research Center, Excellence Center of Clinical Toxicology, Loghman Hakim Hospital, Kamali St, Tehran
Source of Support: None, Conflict of Interest: None
| Abstract|| |
Background: Digoxin poisoning leads to the development of cardiac and noncardiac complications. Digoxin immune fab is a safe and effective antidote, but clinical trials have not been performed in this regard, and most of the evidence is based on prospective studies. Understanding the toxicoepidemiology pattern of digoxin poisoning could provide valuable context for better managing its acute poisoning.
Objectives: This study aimed to assess the toxicoepidemiology pattern of acute digoxin poisoning through a 5-year assessment in Iran.
Methodology: In this observational study, the records of 97 patients who were referred with acute digoxin poisoning between 2010 and 2015 were evaluated. Demographic characteristics, past medical history, drug history, chief complaints, vital signs, paraclinical findings, digoxin immune fab administration, and clinical outcomes recorded.
Results: The mean age of patients was 34.02 ± 17.87 years old. About 24.7% of patients had underlying diseases, and among them, heart failure was the most prevalent disease (29.2%) 42.3% of patients needed intensive care unit (ICU) admission. The mean duration of ICU stay was 4.00 ± 2.29 days. Digoxin immune fab was administered for 4.1% of patients, and an average of 6.2 ± 2.2 vials were used for them. All patients survived, and no mortality was reported.
Conclusions: Digoxin immune fab administration did not alter the mortality rate. Hence, it can be concluded digoxin immune fab is not appropriate in acute poisoning, but it may be considered in chronic poisoning. Furthermore, acute digoxin poisoning is more common in Iran, and it responds appropriately to conventional treatment.
Keywords: Digital, digoxin, digoxin immune fab, poisoning, toxicoepidemiology, toxicology
|How to cite this article:|
Rahimi M, Mahdavinejad A, Shadnia S, Saffaei A. A 5 years assessment of patients with acute digoxin poisoning: A toxicoepidemiology study in Iran. Heart Views 2021;22:271-4
|How to cite this URL:|
Rahimi M, Mahdavinejad A, Shadnia S, Saffaei A. A 5 years assessment of patients with acute digoxin poisoning: A toxicoepidemiology study in Iran. Heart Views [serial online] 2021 [cited 2022 May 28];22:271-4. Available from: https://www.heartviews.org/text.asp?2021/22/4/271/337548
| Introduction|| |
Digoxin is the oldest existing treatment for heart failure. Its administration has declined compared to other agents because the newer agents have established benefits in mortality reduction. However, digoxin remains an adjunctive agent for patients with refractory symptoms.,
One of the main limitations to digoxin administration is related to its narrow therapeutic window as it leads to the development of cardiac and noncardiac poisoning (e.g., gastrointestinal and central nervous system toxicities). The clinical manifestations of digoxin poisoning are usually nonspecific. Lethargy, confusion, anorexia, vomiting, nausea, diarrhea, and abdominal discomfort occurred in digoxin poisoning. Blurred vision and color disturbances are among rare presentations. Most deaths are due to cardiac arrhythmias. There are no evidence-based guidelines for managing mild-to-moderate digoxin poisoning; hence wide variations in treatment strategies are present. Severe poisoning requires hospitalization, and evidence recommended digoxin immune fab in specific situations. Although digoxin immune fab is safe and effective, clinical trials have not been performed in this regard, and most of the evidence is based on prospective studies. Understanding the current toxicoepidemiology pattern of digoxin poisoning could provide valuable context for better managing its acute poisoning. This study aimed to assess the toxicoepidemiology pattern of acute digoxin poisoning through a 5-year assessment in Iran.
| Methodology|| |
This study was a retrospective observational study done in Loghman Hakim Hospital, Tehran, Iran. This center is the primary referral center for toxicity in Iran. The records of patients with acute digoxin poisoning who were hospitalized between March 2010 and March 2015 were included. The ethics committee of Shahid Beheshti University of Medical Sciences approved the protocol of the current study.
The inclusion criteria were as follows: (1) patients with acute or acute on chronic digoxin poisoning who were referred to the emergency department; (2) patients were 18 years old or older. The patients with concurrent toxicity with other pharmaceutical agents were excluded. Furthermore, all efforts were employed to complete the medical records of patients. The incomplete medical records were excluded from the study. A patient case report form was designed to extract the necessary data from each record. This form contains several sections including demographic characteristics, past medical history, drug history, chief complaints, vital signs at admission, and para-clinical findings (laboratory results, imaging findings, electrocardiography, etc.). The poisoning characteristics such as amount of ingested digoxin, the timeline of poisoning, and plasma level of digoxin were recorded. The treatment strategies and clinical outcomes of all patients were also assessed in all patients. The hospitalization duration and mortality rate were considered as indicators for clinical outcomes.
Finally, the extracted data were imported into SPSS software version 23.0 (IBM, USA). The descriptive statistics presented and Kolmogorov–Smirnov test was used to determine the normal distribution. The Chi-square or Fisher's exact test was employed to find the probable association between qualitative variables. For all the tests, the significance level was considered 5% and results were reported as mean ± standard division or percent.
| Results|| |
In 5 years, 97 patients with the above-mentioned criteria were included in this study. The demographic characteristics of patients revealed that 23 (23.7%) were male. The mean age of patients was 34.02 ± 17.87 years old. 24 (24.7%) of the patients had at least one underlying disease, and among them, heart failure was the most prevalent disease (29.2%). About half of patients (46.4%) were taking other medications concurrently. Cardiovascular medications and benzodiazepines were the most used medications among the patients. 17 (17.5%) of patients had a history of digoxin consumption, and the rest of them ingested the digoxin for the first time. 93 (95.9%) of patients were aware of the ingested amount. These patients ingested 39.00 ± 35.52 tablets of digoxin. The mean time from ingestion and admission was 7.95 ± 11.12 h (minimum: 25 min; maximum: 96 h). The baseline characteristics of included patients are shown in [Table 1]. The laboratory result and digoxin plasma level were also recorded. The laboratory results of patients and vital signs are summarized in [Table 2].
|Table 1: The baseline characteristics of included patients stratified according to electrocardiogram findings|
Click here to view
|Table 2: The results of laboratory findings in patients with digoxin poisoning|
Click here to view
The electrocardiography (ECG) findings showed that 85.56% of patients had sinus rhythm, and 12.37% had atrial fibrillation. The most common ECG changes were T changes, Salvador Dali sagging, and ST-segment changes. About 91.75% of patients also had a normal axis in ECG. The ECG presentations of studied patients are summarized in [Table 3].
The clinical outcomes for the treatment indicated that 42.3% of patients needed intensive care unit (ICU) admission. The mean duration of ICU stay was 4.00 ± 2.29 days. Digoxin immune fab was administered for 4.1% of patients, and an average of 6.2 ± 2.2 vials were used for them. All patients survived, and no mortality was detected in this study. However, 27.83% of patients were discharged with their permission.
| Discussion|| |
This observational study aimed to assess the pattern of acute digoxin poisoning. The main finding of the current study was the zero mortality rate. The mean age of patients in this study was 34 years old. However, other studies showed that the mean age for digoxin poisoning was 65 years old. The elderly population is more prone to be toxicity with digoxin. This phenomenon is due to decreasing kidney function and decreasing the volume of distribution. Bahravand et al. found a linear association between age and plasma level of digoxin.
Most of the patients in the current study were female; similar results were seen in Limon et al. study. They found that women are more prone to be toxic with digoxin. The plasma level of digoxin revealed that most patients had a level of >2 ng/mL. This finding confirms the value of digoxin level for diagnosis and treatment follow-up. Similar results were also reported by Salehi Omran et al. However, Cristodorescu et al. found that digoxin poisoning could be seen in digoxin levels <2 ng/mL. In the current study, most patients with digoxin levels <2 ng/mL were young. However, most of the patients in the above-mentioned study were old. Hence, the plasma level of digoxin is not a reliable diagnostic indicator in the elderly population.
Most of the patients in the current study did not have heart failure in their past medical history. However, other studies showed that heart failure was more prevalent in their patients. These differences may probably be due to the underlying cause of poisoning. Most patients in the current study consumed digoxin for intentional suicide.
The number of patients with atrial fibrillation in this study was less than patients in Limon et al. study. This difference may be due to other underlying causes such as electrolytes misbalance, alkalosis, hyperthyroidism, etc. Valizadeh et al. reported that erythromycin and clarithromycin might lead to increasing the plasma level of digoxin. This elevated level may lead to atrial fibrillation. In the current study, most patients did not have any past drug history or other underlying causes. Hence, atrial fibrillation was not dominant.
Another finding of the current study showed that digoxin immune fab is not necessary for acute poisoning. The digoxin immune fab is not readily available in the pharmaceutical market of Iran, and most of the patients did not receive digoxin immune fab. Only four patients received digoxin immune fab. The mortality rate was not different between these two groups, and all patients survived. Hence, it seems that digoxin immune fab is not indicated in acute digoxin poisoning and it should be reserved for the patient with chronic digoxin poisoning. Current results also confirm the findings of Hauptman et al., who studied patients with digoxin poisoning. They found one-fifth of patients received digoxin immune fab, most within 2 days of admission and there was no difference for mortality rate or length of hospitalization compared with patients not receiving digoxin immune fab.
| Conclusion|| |
The findings of the current study showed that the digoxin immune fab administration did not alter the mortality rate. Hence, it can be concluded digoxin immune fab is not appropriate in acute poisoning situation; however, it is maybe an appropriate agent in the chronic poisoning situation.
Financial support and sponsorship
Conflicts of interest
There are no conflicts of interest.
| References|| |
Gheorghiade M, Harinstein ME, Filippatos GS. Digoxin for the treatment of chronic and acute heart failure syndromes. Acute Card Care 2009;11:83-7.
Vivo RP, Krim SR, Perez J, Inklab M, Tenner T Jr., Hodgson J. Digoxin: Current use and approach to toxicity. Am J Med Sci 2008;336:423-8.
Goldberger ZD, Goldberger AL. Therapeutic ranges of serum digoxin concentrations in patients with heart failure. Am J Cardiol 2012;109:1818-21.
Kanji S, MacLean RD. Cardiac glycoside toxicity: More than 200 years and counting. Crit Care Clin 2012;28:527-35.
Bauman JL, Didomenico RJ, Galanter WL. Mechanisms, manifestations, and management of digoxin toxicity in the modern era. Am J Cardiovasc Drugs 2006;6:77-86.
Kirrane BM, Olmedo RE, Nelson LS, Mercurio-Zappala M, Howland MA, Hoffman RS. Inconsistent approach to the treatment of chronic digoxin toxicity in the United States. Hum Exp Toxicol 2009;28:285-92.
Aronson JK, Grahame-Smith DG. Altered distribution of digoxin in renal failure – A cause of digoxin toxicity? Br J Clin Pharmacol 1976;3:1045-51.
Bharvand B, Namdari M, Sherkhani Y, Nazari A. Inspection of Digoxin level in cardiac heart failure patients refer to Taemin Ejtemai and Shohadaye Ashaer clinic. Sci Mag Yafte 2006;7:43-9.
Limon G, Ersoy G, Oray NC, Bayram B, Limon O. Retrospective evaluation of patients with elevated digoxin levels at an emergency department. Turk J Emerg Med 2016;16:17-21.
Salehi Omran M, Khosoosi Niaki M, Hashemi S, Saberian F. The measurement of Digoxin Serum Level (DSL) in patients with heart disease and its relation with age. J Babol Univ Med Sci 2005;7:69-72.
Cristodorescu R, Deutsch G, Drăgan S. Clinical utility of plasma digoxin measurements. Med Interne 1989;27:25-32.
Valizadeh H, Mehtari M, Zakeri-Milani P. Evidence for enhanced intestinal absorption of Digoxin by P-glycoprotein inhibitors. Trop J Pharm Res 2012;11:939-45.
Hauptman PJ, Blume SW, Lewis EF, Ward S. Digoxin toxicity and use of digoxin immune fab: Insights from a National hospital database. JACC Heart Fail 2016;4:357-64.
[Table 1], [Table 2], [Table 3]