Clinical spectrum of yellow phosphorous poisoning in a tertiary care centre in South India: a case series

Liver Transplantation for Acute Liver Failure Due to Yellow Phosphorus Poisoning - A Comprehensive Review

Yellow phosphorus or metal phosphide (YP-MP) rodenticide poisoning has been a known cause of acute liver failure (ALF) in many countries of Asia and North and South America over the last decade. It is a highly toxic compound and is a well-known cause of intentional or accidental poisoning in both adults and children. In lower doses, it causes gastrointestinal symptoms and mild hepatic injury, and patients may spontaneously recover. In higher doses, hepatic necrosis and fatty infiltration may cause significant injury and may even lead to ALF, characterized by hepatic encephalopathy, coagulopathy, and lactic acidosis. Cardiotoxicity, rhabdomyolysis, and neutropenia are other well-documented complications. If untreated, it may lead to multi-organ dysfunction and death. Plasmapheresis and continuous renal replacement therapy (CRRT) have been used with limited success in patients who do not recover spontaneously. However, patients who develop ALF often need liver transplantation (LT). Liver transplantation has been successfully performed in ALF due to YP-MP poisoning in several countries, with good results in both adult and pediatric patients. Separate criteria for LT are important to ensure early and rapid listing of critical patients on the waiting list. The success rates of LT for ALF due to YP-MP rodenticide poisoning are very promising, provided there are no contra-indications to transplant. Plasma exchange, CRRT, or cytosorb can be used as a bridge to transplant in selected patients. In the long term, only with an increase in public awareness and sale restrictions can we prevent the intentional and accidental poisoning caused by this easily available, highly toxic compound.

Improving Transplant-free Survival With Low-volume Plasma Exchange to Treat Children With Rodenticide Induced Hepatotoxicity

Background

In a prior report, no patient with rodenticidal hepatotoxicity who met Kochi criteria (MELD score ≥36 or baseline INR ≥6 with hepatic encephalopathy) (PMID: 26310868) for urgent liver transplantation survived with medical management alone. Plasma exchange (PLEX) may improve survival in these patients.

Objectives

We describe our experience with low-volume PLEX (PLEX-LV) in treating rodenticide ingestion induced hepatotoxicity in children.

Methods

From prospectively collected database of rodenticidal hepatotoxicity patients managed as in-patient with department of Hepatology from December 2017 to August 2021, we retrospectively studied outcomes in children (≤18 years). Hepatotoxicity was categorized as acute liver injury (ALI, coagulopathy alone) or acute liver failure (ALF, coagulopathy and encephalopathy). Kochi criteria was used to assess need for urgent liver transplantation. The primary study outcome was one-month survival.

Results

Of the 110 rodenticidal hepatotoxicity patients, 32 children (females: 56%; age: 16 [4.7-18] years; median, range) constituted the study patients. The study patients presented 4 (1-8) days after poison consumption (impulsive suicidal intent:31, accidental:1). Twenty children (62%) had ALI [MELD: 18 (8-36)] and 12 (38%) had ALF [MELD: 37 (24-45)].All children received standard medical care, including N-acetyl cysteine; ALF patients also received anti-cerebral edema measures. None of the patient families opted for liver transplantation. Seventeen children (ALI: 6, ALF: 11) were treated with PLEX-LV (3 [1-5] sessions, volume of plasma exchanged per session: 26 [13-38] ml/kg body weight) and peri-procedure low dose prednisolone.At 1 month, 28 of the 32 children (87.5%) were alive (4 ALF patients died). Of 10 children who met Kochi listing criteria for urgent liver transplantation, two children were ineligible for PLEX-LV (due to hemodynamic instability) and of the remaining 8 children treated by PLEX-LV, 6 (75%) survived.

Conclusions

PLEX-LV shows promise as an effective non-liver transplant treatment in children with rodenticidal hepatotoxicity.

Unique granulated leucocytes in peripheral blood in yellow phosphorous poisoning: An interesting tool for monitoring therapeutic response

Yellow phosphorus is one of the most commonly used rodenticides in India for household pest control. It is available as pastes containing 2% to 5% of yellow phosphorus. Yellow phosphorous-containing rodenticides are easily available and account for one of the most common causes of suicidal poisoning in India. We describe a case of yellow phosphorus poisoning in a 17-years-old child who recovered from hepatic encephalopathy and showed unique peripheral smear findings in the form of spurious monocytosis and hypergranulosis of these granulocytes.

Outcome of Plasma Exchange in Acute Liver Failure due to Yellow Phosphorus Poisoning: A Single-center Experience

Background

Yellow phosphorus (YP) is a protoplasmic poison that causes acute liver failure (ALF) for which liver transplantation is the definitive modality. Hereby, we present our clinical data on the role of plasma exchange (PE) in ALF due to YP poisoning when liver transplantation is not readily available.

Methods

Our study is a prospective observational type, conducted between January 2017 and January 2020, which included patients with ALF due to YP poisoning requiring PE. Clinical features, quantity of poison consumed, and laboratory data before and after PE were noted, and the outcome was documented.

Results

This study had 10 patients. The mean age was 30 years. The ratio of male to female being 1.5:1. The amount of YP consumed (median) was 10 gm. Six patients consumed ≤10 gm and four consumed >10 gm. The mean of total PE sessions was 3.3. Seven patients (70%) had recovery from ALF, out of which five had consumed <10 gm of YP. Among patients who recovered after consuming YP, the mean day to get admitted to the hospital was 3.6 ± 1.81 (p = 0.017) and the time to start PE was 4.86 ± 1.67 days (p = 0.033). Three patients did not recover from ALF, of whom two expired. Peak total bilirubin (mg/dL) decreased to 2.76 from 9.29 (p = 0.005), serum glutamic oxaloacetic transaminase to 53.5 from 530 (IU/L) (p = 0.005), serum glutamic pyruvic transaminase to 54.5 from 378 (IU/L) (p = 0.005), international normalized ratio to 1.08 from 2.26 (p = 0.008), prothrombin time(s) decreased to 13.3 from 25.5 (p = 0.013), and activated partial thromboplastin time(s) to 24.6 from 40.8 (p = 0.007) post-PE sessions.

Conclusions

Our study revealed that the patient outcome depends on the quantity of poison consumed, duration of hospitalization, and time to start PE from the day of YP consumption. PE may be considered as a bridge to liver transplant in ALF patients.

How to cite this article

Angraje S, Sekar M, Mishra B, Matcha J. Outcome of Plasma Exchange in Acute Liver Failure due to Yellow Phosphorus Poisoning: A Single-center Experience. Indian J Crit Care Med 2021;25(9):1020-1025.

Rodenticide ingestion is an important cause of acute hepatotoxicity in Tamil Nadu, southern India

BACKGROUND AND AIM

Though rodenticidal hepatotoxicity is reported from India, there is no systematic study to assess its magnitude. This study aimed to assess exposure to rodenticide as a risk factor for acute hepatotoxicity in Tamil Nadu, India.

METHODS

We retrospectively analyzed acute hepatotoxicity caused by ingestion of hepatotoxin or potentially hepatotoxic drug overdose across 15 hospitals in 6 districts of Tamil Nadu from 1 January 2019 to 30 June 2019. Study exclusion criteria were idiosyncratic drug-induced liver injury and chronic liver diseases.

RESULTS

Of the 702 patients, 685 gave history of consuming rodenticide; hepatotoxicity in the other patients resulted from paracetamol overdose (n=10) and due to other drugs (n=7); 97% patients had a suicidal intent. Of 671 patients with complete data, ratio of number of patients with hepatotoxicity due to rodenticide to paracetamol overdose was 450:6 (i.e. 75:1). The 451 rodenticidal hepatotoxicity patients (255 males, 75% were 15-34 years old) underwent conservative management (n=396), plasma exchange (n=54) and plasma exchange followed by liver transplant (n=1); 159 patients (35%) had poor outcome (131 died, 28 discharged in moribund state). Based on our observations, we estimate a case burden of 1584 rodenticidal hepatotoxicity patients (95% CI: 265-6119) with poor outcome in 554 patients in Tamil Nadu from January 2019 to June 2019. Population attributable risk for rodenticide as cause of hepatotoxicity was 22.7%.

CONCLUSION

Rodenticide ingestion was an important cause of acute hepatotoxicity in Tamil Nadu. Most patients were young and one-third had poor outcome. Public health interventions are needed to address this.

Importance of pesticides for lethal poisoning in India during 1999 to 2018: a systematic review

BACKGROUND

Poisoning is a major problem in India. However, there is little systematic information on the key poisons responsible for most deaths by geographical area and over time. We aimed to review the literature to identify the poison classes causing the greatest number of deaths in India over the last 20 years.

METHODS

We performed a systematic literature review in Medline, Embase and Google Scholar (1999-2018), and Indian online medical journals, to find papers that reported deaths from all forms of poisoning in India, with last search 20 April 2020. We included epidemiological studies, observational studies, randomised trials, interventional studies, and case series published from 1999 to 2018 that showed the number of deaths and autopsy studies indicating the specific poisons or poison classes. Studies providing the case fatality for specific poisons or classes, which enabled calculation of the number of deaths, were also included. We excluded deaths due to animal bites and stings, ethanol or methanol poisoning, and gas inhalation as well as papers reporting a single death (case study of single patient). We grouped the papers into 5-year intervals and identified the two most common poison classes in each paper. We used descriptive statistics to summarise the findings over time based on the causative poison and the location of the study.

RESULTS

We identified 186 papers reporting 16,659 poisoning deaths between 1999 and 2018. The number of publications per 5-year interval showed no clear trend over the period (48, 38, 67, and 36 for consecutive periods). Half of the deaths (n = 8338, 50.0%) were reported during the first 5 years of the study (1999-2003), the number of deaths declining thereafter (to n = 1714 in 2014-2018). Deaths due to pesticide poisoning (94.5%) were dominant across the study period compared to other classes of poison [hair dye paraphenylenediamine poisoning (2.6%), medicine overdose (1.4%) or plant poisoning (1.0%)]. Among the pesticides, aluminium phosphide was the most important lethal poison during the first 10 years before declining markedly; organophosphorus insecticides were important throughout the period, becoming dominant in the last decade as aluminium phosphide cases declined. Unfortunately, few papers identified the specific organophosphorus insecticide responsible for deaths.

CONCLUSION

Use of the published literature to better understand the epidemiology of lethal poisoning in India has clear limitations, including secular variation in publishing practices and interest in poisoning. Unfortunately, there are no long-term detailed, combination hospital and community studies from India to provide this information. In their absence, our review indicates that pesticides are the most important poison in India, with organophosphorus insecticides replacing aluminium phosphide as the key lethal poison after government regulatory changes in 2001 reduced the latter's lethality. Plant and hair dye poisoning and medicines overdose caused few deaths. Aluminium phosphide deaths mostly occurred in northern Indian states, whereas deaths from organophosphorus insecticide poisoning occurred throughout India. Paraquat poisoning has become a clinical problem in the last 10 years. Lethal pesticide poisoning remains alarmingly common, emphasising the need for additional regulatory interventions to curtail the burden of pesticide poisoning deaths in India. More detailed reporting about the specific pesticide involved in lethal poisoning will be helpful to guide regulatory decisions.

Liver Transplantation Society of India Guidelines for the Management of Acute Liver Injury Secondary to Yellow Phosphorus-Containing Rodenticide Poisoning Using the Modified Delphi Technique of Consensus Development

BACKGROUND

Acute liver failure caused by the ingestion of yellow phosphorus-containing rodenticide has been increasing in incidence over the last decade and is a common indication for emergency liver transplantation in Southern and Western India and other countries. Clear guidelines for its management are necessary, given its unpredictable course, potential for rapid deterioration and variation in clinical practice.

METHODS

A modified Delphi approach was used for developing consensus guidelines under the aegis of the Liver Transplantation Society of India. A detailed review of the published literature was performed. Recommendations for three areas of clinical practice, assessment and initial management, intensive care unit (ICU) management and liver transplantation, were developed.

RESULTS

The expert panel consisted of 16 clinicians, 3 nonclinical specialists and 5 senior advisory members from 11 centres. Thirty-one recommendations with regard to criteria for hospital admission and discharge, role of medical therapies, ICU management, evidence for extracorporeal therapies such as renal replacement therapy and therapeutic plasma exchange, early predictors of need for liver transplantation and perioperative care were developed based on published evidence and combined clinical experience.

CONCLUSION

Development of these guidelines should help standardise care for patients with yellow phosphorus poisoning and identify areas for collaborative research.

Yellow phosphorous ingestion cause liver dysfunction and internal bleeding: a case study

OBJECTIVE

The purpose of this case report was to create awareness among scientific fraternity and those who are in the regular usage of the yellow phosphorous compound. Yellow phosphorus is an inorganic element that is poisonous to humans (yellowish, waxy, crystal-clear solid with a pungent odor).

CASE PRESENTATION

The patient treatment chart was reviewed and the patient's condition was evaluated daily. Consumption of toxic doses causes shock and cardiovascular failure within 2-3 h of ingestion, and peak levels are reached when distributed to all tissues after absorption. Here, we report a case of self-harm with the ingestion of rat killer paste, and the patient suffered internal bleeding and acute liver failure.

CONCLUSION

Rodenticides remain the primary cause of morbidity and mortality, internal bleeding is the major risks of rodenticide poisoning.

Acute liver failure secondary to yellow phosphorus rodenticide poisoning: Outcomes at a center with dedicated liver intensive care and transplant unit

Accidental or suicidal poisoning with yellow phosphorus or metal phosphides (YPMP) such as aluminum (AlP) zinc phosphide (Zn3P2) commonly cause acute liver failure (ALF) and cardiotoxicity. These are used as household, agricultural and industrial rodenticides and in production of ammunitions, firecrackers and fertilizers. In absence of a clinically available laboratory test for diagnosis or toxin measurement or an antidote, managing their poisoning is challenging even at a tertiary care center with a dedicated liver intensive care unit (LICU) and liver transplant facility.

PATIENTS AND METHODS

Patients with YPMP related ALF were monitored using standardized clinical, hemodynamic, biochemical, metabolic, neurological, electrocardiography (ECG) and SOFA score and managed using uniform intensive care, treatment and transplant protocols in LICU. Socio-demographic characteristics, clinical and biochemical parameters and scores were summarized and compared between 3 groups i.e. spontaneous survivors, transplanted patients and non-survivors. Predictors of spontaneous survival and the need for liver transplant are also evaluated.

RESULTS

Nineteen patients with YPMP related ALF were about 32 years old (63.2% females) and presented to us at a median of 3 (0 - 10) days after poisoning. YPMP related cardiotoxicity was rapidly progressive and fatal whereas liver transplant was therapeutic for ALF. Spontaneous survivors had lower dose ingestion (<17.5 grams), absence of cardiotoxicity, < grade 3 HE, lactate < 5.8, SOFA score < 14.5, and increase in SOFA score by < 5.5. Patients with renal failure need for CVVHDF and KCC positivity on account of PT-INR > 6.5 had higher mortality risk. Patients undergoing liver transplant and with spontaneous recovery required longer ICU and hospital stay. At median follow-up of 3.4 (2.6 - 5.5) years, all spontaneous survivors and transplanted patients are well with normal liver function.

CONCLUSIONS

Early transfer to a specialized center, pre-emptive close monitoring, and intensive care and organ support with ventilation, CVVHDF, plasmapheresis and others may maximize their chances of spontaneous recovery, allow accurate prognostication and a timely liver transplant.

Rodenticide Poisoning: Critical Appraisal of Patients at a Tertiary Care Center

Importance

Rodenticide poisoning is a common occurrence in India. Of the different classes of rodenticides available, yellow phosphorus is considered highly toxic. There are scarce epidemiological data regarding the ingestion of yellow phosphorus in the subcontinent.

Objectives

This study aimed to identify the clinical profile of rodenticide-poisoned patients and delineate mortality predictors.

Design

Prospective observational study.

Setting and participants

Study was conducted at the Department of Internal Medicine, Government Villupuram Medical College and Hospital. All adult inpatients with a history of rodenticide poison exposure were eligible participants. A total of 99 patients completed the study protocol.

Main outcome

Survival with or without morbidity and death.

Results

In all, 90.91% of patients consumed the paste formulation of rodenticide [yellow phosphorus (67.2%) and yellow phosphorus + zinc phosphide (24%)].The time to resuscitation showed significance to mortality. Survival rate among patients instituted gastric decontamination within 2 hours of exposure (97.87%) was significantly higher than those who were not (84.62%) (p = 0.033). The clinical picture revealed conspicuous absence of signs and symptoms during the first 24 hours. In all, 72.73% (n = 72) manifested with toxidrome after a lag period of 24–36 hours (range 18–72 hours). The dominant clinical manifestations included abdominal pain (52.53%), jaundice (22.21%), coagulopathy (15.15%), encephalopathy (10.10%), shock (10.10%), acute kidney injury (AKI; 7.08%), and multi-organ failure (17.17%). Laboratory data showed elevated aspartate transaminase (AST; 48.47%), alanine aminotransferase (ALT; 49.50%), bilirubin levels (22.21%), metabolic acidosis (10.12%), serum creatinine (7.08%), prothrombin time prolongation (PT/INR; 15.15%), and activated partial thromboplastin time (aPTT) (3.30%). The mortality was 9.1% (n = 9) of which 77.78% (n = 7) died of fulminant hepatic failure. The mean time for death was 4.22 days since exposure (range 2–8 days).

Conclusion

Rodenticide poisoning in Southern India is dominated by yellow phosphorus. In this study, we identified delayed resuscitation, jaundice, hepatic encephalopathy, elevation of AST and ALT to >1000 IU/L, metabolic acidosis, and refractory shock as reliable predictors of bad outcome in this patient population. The common mode of death was fulminant hepatic failure.

Relevance

Rodenticide poisoning ranks second in mortality hierarchy at our institute, and systematic analysis of this patient population is an urgent need.

How to cite this article

Gopalakrishnan S, Kandasamy S, Iyyadurai R. Rodenticide Poisoning: Critical Appraisal of Patients at a Tertiary Care Center. Indian J Crit Care Med 2020;24(5):295–298.

Rodenticidal hepatotoxicity: Raised plasma Von Willebrand factor levels predict in-hospital survival and preliminary report of the outcome of Von Willebrand factor reducing management protocol

BACKGROUND

High Von Willebrand factor (VWF) levels may predispose to multi-organ failure in acute liver failure (ALF). In rodenticide-induced hepatotoxicity patients, we analyzed if plasma VWF levels predicted survival and also the outcome of VWF lowering by N-acetyl cysteine (NAC), fresh frozen plasma (FFP) infusions, and plasma exchange (PLEX).

METHODS

We retrospectively analyzed prospectively collected data. Hepatotoxicity was classified as uncomplicated acute hepatitis (UAH), acute liver injury (ALI), and ALF. ALF patients, if not opting for liver transplantation, had PLEX and NAC; ALI patients received NAC ± FFP (PLEX, if worsening); UAH patients had NAC. Plasma VWF antigen was measured (normal, 50% to 150%). In-hospital survival was analyzed as discharged alive or died/discharged in a terminal condition (poor outcome).

RESULTS

Twenty-four consecutive rodenticide-induced hepatotoxicity patients (UAH in 1, ALI in 20, ALF in 3) from December 2017 to January 2019 were studied. Baseline VWF levels were 153%, 423 (146-890)% median (range), and 448 (414-555)% in UAH, ALI, ALF patients; model for end-stage liver disease (MELD) scores were 11, 24 (12-38), 36 (32-37) and in-hospital survival rates were 100%, 85%, 67%, respectively. VWF levels were higher in patients with poor outcome (555 [512-890]%) than in those discharged alive (414 [146-617]%) (p-value = 0.04). The area under the receiver operating curve of the VWF level, MELD score, and sequential organ failure assessment score to predict survival was 0.92, 0.84, and 0.66, respectively. Of 4 patients meeting criteria for liver transplantation (none had transplantation), 3 (75%) survived.

CONCLUSIONS

High VWF levels predict poor outcome in rodenticide-induced hepatotoxicity. VWF reduction may be useful in such patients.