Acute barium intoxication following ingestion of ceramic glaze

Clinical features and management strategies of acute soluble barium poisoning: a review of case reports

Soluble barium salts including barium carbonate, nitrate, acetate, and chloride are commonly used in the manufacture of ceramics, insecticides, and rodenticides. Soluble barium salts are highly toxic to humans if ingested. Acute soluble barium poisoning is an uncommon but life-threatening problem. The fatal dose of barium chloride for man has been reported to be only 0.8 to 0.9 gram. Currently, there have been no systematic studies on acute soluble barium poisoning. Based on the retrospective analysis of 55 global cases, toxicological characteristics, clinical features and management of acute soluble barium poisoning were summarized. Barium is a competitive blocker of potassium inward rectifier channels to inhibit K+ efflux, resulting in profound hypokalemia. Acute soluble barium poisoning can result in gastrointestinal effects including vomiting and diarrhea, followed by hemodynamic disturbances, cardiac arrhythmias, muscle weakness, and cardiac arrest. Respiratory failure induced by muscle paralysis is the major cause of death. Management strategies mainly include prevention of barium absorption, administration of soluble sulfates, potassium supplementation, antiarrhythmic medications, hemodialysis/CVVHDF, and cardiorespiratory support. Timely administration of decontamination and correction of hypokalemia are the two important points. This narrative review will offer crucial information for treating patients with acute soluble barium poisoning.

Association between alkali and alkaline earth elements in chorionic villus and risk for spontaneous abortion

Exposure to specific alkali and alkaline earth elements(AEs/AEEs) has been reported that are linked to an increased risk of spontaneous abortion. However, the direct evidence of exposure in the uterus are absent. Therefore, we collected chorionic villi after spontaneous abortion or induced abortion in Peking University Third Hospital. The concentrations of six alkali and alkaline earth elements in chorionic villi were measured using inductively coupled plasma mass spectrometry (ICP-MS). Through using logistic regression, Bayesian kernel machine regression (BKMR) and Weighted quantile sum regression (WQS) model, we assessed single and mixed exposure effects of alkali and alkaline earth elements on spontaneous abortion. In terms of the individual effect, high concentration group of barium (Ba) increased the risk of spontaneous abortion by 150 % (95 % CI: 1.38-4.51), whereas rubidium (Rb), cesium (Cs) and Magnesium (Mg) all clearly demonstrated dose dependency in reducing the incidence of spontaneous abortion. The BKMR model demonstrated that as the mixed exposure percentile increased, the likelihood of spontaneous abortion decreased almost linearly. For every quartile increasing in the WQS index, the risk of spontaneous abortion decreased (OR: 0.21, 95 % CI: 0.13-0.33), with Mg and Rb having the highest weights at 0.587 and 0.367, respectively. According to our findings, there were negative dose-response relationships between Mg and Rb levels and risk for spontaneous abortion, but exposure to higher concentration of Ba in the chorionic villi was positively associated with the risk of it.

Life-threatening barium carbonate poisoning managed with intravenous potassium, continuous veno-venous haemodialysis and endoscopic removal of retained ceramic glazes

INTRODUCTION

Barium poisoning is rare but potentially severe. We describe a case of acute barium carbonate poisoning with cardiac arrest, managed with intravenous potassium, dialysis and endoscopic removal of retained ceramic glazes.

CASE REPORT

A 38-year-old woman presented with vomiting 90 min after ingesting 3 cups of barium and strontium carbonate. Initial bloods noted potassium 2.8 mmol/L and creatinine 53 μmol/L. Electrocardiogram demonstrated prolonged corrected QT interval 585msec. Initial management included intravenous potassium. Four hours post-ingestion she developed proximal muscle weakness in upper limbs with a potassium of 2.2 mmol/L. At 15 h post-ingestion she developed profound muscle weakness, polymorphic ventricular tachycardia and cardiac arrest. Treatment included defibrillation, endotracheal intubation and continuous veno-venous haemodialysis (CVVHD) for metabolic derangement and enhanced elimination of barium. Chest X-ray 17 h post-ingestion demonstrated a large radio-opaque mass in the stomach, thought to be the ceramic glaze. Endoscopy removed the retained material 41 h post-ingestion. She was extubated 58 h post-ingestion and CVVHD was ceased on day 3. Serum creatinine peaked at 348 μmol/L on day 7, but normalised by discharge. Biphasic barium concentrations were noted, notably 94 μmol/L on admission, 195 μmol/L at 16 h, 95 μmol/L at 20 h, and 193 μmol/L at 30 h post-ingestion.

CONCLUSION

In barium poisoning with hypokalaemia, prompt potassium supplementation is required but rebound hyperkalaemia can occur. Endoscopic removal of ceramic glazes may be useful more than 12 h post-ingestion. Consider extracorporeal methods to enhance barium elimination in severe cases.

An unwitnessed case of foreign body aspiration of barium from an unknown source

Foreign body (FB) aspiration is potentially life-threatening in children. A variety of sources and objects have been noted in aspiration events with possible complications ranging from mild to life-threatening. While rare, barium aspiration can cause severe complications, and removal is particularly challenging. Complications of retained barium include acute respiratory distress syndrome, pneumonitis, sepsis, even death. Regardless of the foreign body's identity, substance removal is critical in management. Resourcefulness of removal techniques and an interdisciplinary approach may allow for maximally effective management. We present a case of a pediatric barium aspiration from an unknown source and review evaluation and management strategies.

Acute barium intoxication following ingestion of soap water solution

We present a rare case in which a young girl ingested a solution of a hair-removing soap. The ingestion resulted in profound hypokalemia and severe acidosis leading to flaccid paralysis, respiratory arrest and ventricular arrhythmias. Ultimately the patient made complete recovery. The soapwas found to contain barium sulfide. The degree of paralysis and acidosis appeared to be directly related to serum potassium levels.

Application of ICP-OES to the determination of barium in blood and urine in clinical and forensic analysis

Exposure to barium (Ba) mostly occurs in the workplace or from drinking water, but it may sometimes be due to accidental or intentional intoxication. This paper presents a reliable, sensitive method for the determination of Ba in blood and urine: inductively coupled plasma optical emission spectrometry (ICP-OES) after microwave digestion of samples. The overall procedure was checked using Seronorm Whole Blood L-2, Trace Elements Urine and spiked blood and urine samples (0.5-10 µg/mL of Ba). The accuracy of the whole procedure (relative error) was 4% (blood) and 7% (urine); the recovery was 76-104% (blood) and 85-101% (urine). The limits of detection and quantification (Ba λ = 455.403 nm) were 0.11 and 0.4 µg/L of Ba, respectively; precision (relative standard deviation) was below 6% at the level of 15 µg/L of Ba for blood. This method was applied to a case of the poisoning of a man who had been exposed at the workplace for over two years to powdered BaCO3, and who suffered from paralysis and heart disorders. The concentrations of Ba, in μg/L, were 160 (blood), 460 (serum) and 1,458 (urine) upon his admission to the hospital, and 6.1 (blood) and 4.9 (urine) after 11 months (reference values: 3.34 ± 2.20 µg/L of Ba for blood and 4.43 ± 4.60 µg/L of Ba for urine).

Intoxication by large amounts of barium nitrate overcome by early massive K supplementation and oral administration of magnesium sulphate

Suicide by ingestion of barium is exceptionally rare. Adverse health effects depend on the solubility of the barium compound. Severe hypokalemia, which generally occurs within 2 hours after ingestion, is the predominating feature of acute barium toxicity, subsequently leading to adverse effects on muscular activity and cardiac automaticity. We report one case of acute poisoning with barium nitrate, a soluble barium compound. A 75-year-old woman was hospitalized after suicidal ingestion of a burrow mole fumigant containing 12.375 g of barium nitrate. About 1 hour post-ingestion, she was only complaining of abdominal pain. The ECG recording demonstrated polymorphic ventricular premature complexes (VPCs). Laboratory data revealed profound hypokalemia (2.1 mmol/L). She made a complete and uneventful recovery after early and massive potassium supplementation combined with oral magnesium sulphate to prevent barium nitrate absorption.

Mass barium carbonate poisoning with fatal outcome, lessons learned: a case series

INTRODUCTION

Barium, a heavy divalent alkaline metal, has long been known to cause human toxicity. The common mode is accidental ingestion and the common compound is Barium carbonate. Here we report an incident of food poisoning in 27 law enforcement personnel with rapidly developing sequelae and a high mortality due to ingestion of Barium carbonate contaminated flour.

CASE PRESENTATION

One midnight, 27 adult males were rushed to emergency department of Chittagong Medical College Hospital with abdominal pain, vomiting, loose motion, cramps and generalized paraesthesia. The ailment started 1-2 hours after Iftar (evening meal to break day long fast during Ramadan) which included fried vegetables coated with a flour paste. On admission, twenty of them were restless, agitated. 22 reported weakness of limbs and were unable to walk. 10 had hypotension. 22 had rapid and shallow respiration. 5 had carpopedal spasm. Different grades of limb weakness were noted with loss of tendon jerks. Ten (N12) patients had hypokalaemia, three had hypoglycaemia, 4 patients had high creatine kinase. Electrocardiogram showed flat ST with U waves in 4 patients. Potassium containing intravenous fluid and Oxygen was administered. Due to limited availability of mechanical ventilators patients were put on artificial respiration using Ambu bag; manually maintained by doctors, paramedics and attendants. Four patients were transferred to another hospital for mechanical ventilation. A total of 12 patients died over next 16 hours, 4 within 3 hrs. Other patients gradually improved. Chemical analysis of the vomitus, blood and flour used for preparation of meal revealed the presence of Barium. It was assumed that the flour was contaminated with the similar looking Barium carbonate powder which was kept in the kitchen as a rodenticide.

CONCLUSION

This event exemplifies the weakness of usual health care facility in resource poor settings to cope with this kind of massive poisoning event. The multiple reported incidences of accidental Barium poisoning due to unintentional mixing with food signifies the fact that the use and availability of Barium carbonate should be restricted. We hope to draw attention to this relatively uncommon poisoning and to the need for development of poison information centre in resource poor countries.

Mass barium carbonate poisoning with fatal outcome, lessons learned: a case series

INTRODUCTION

Barium, a heavy divalent alkaline metal, has long been known to cause human toxicity. The common mode is accidental ingestion and the common compound is Barium carbonate. Here we report an incident of food poisoning in 27 law enforcement personnel with rapidly developing sequelae and a high mortality due to ingestion of Barium carbonate contaminated flour.

CASE PRESENTATION

One midnight, 27 adult males were rushed to emergency department of Chittagong Medical College Hospital with abdominal pain, vomiting, loose motion, cramps and generalized paraesthesia. The ailment started 1-2 hours after Iftar (evening meal to break day long fast during Ramadan) which included fried vegetables coated with a flour paste. On admission, twenty of them were restless, agitated. 22 reported weakness of limbs and were unable to walk. 10 had hypotension. 22 had rapid and shallow respiration. 5 had carpopedal spasm. Different grades of limb weakness were noted with loss of tendon jerks. Ten (N12) patients had hypokalaemia, three had hypoglycaemia, 4 patients had high creatine kinase. ECG showed flat ST with U waves in 4 patients. Potassium containing intravenous fluid and Oxygen was administered. Due to limited availability of mechanical ventilators patients were put on artificial respiration using Ambu bag; manually maintained by doctors, paramedics and attendants. Four patients were transferred to another hospital for mechanical ventilation. A total of 12 patients died over next 16 hours, 4 within 3 hrs. Other patients gradually improved. Chemical analysis of the vomitus, blood and flour used for preparation of meal revealed the presence of Barium. It was assumed that the flour was contaminated with the similar looking Barium carbonate powder which was kept in the kitchen as a rodenticide.

CONCLUSION

This event exemplifies the weakness of usual health care facility in resource poor settings to cope with this kind of massive poisoning event. The multiple reported incidences of accidental barium poisoning due to unintentional mixing with food signifies the fact that the use and availability of barium carbonate should be restricted. We hope to draw attention to this relatively uncommon poisoning and to the need for development of poison information centre in resource poor countries.

Acute barium nitrate intoxication treated by hemodialysis

A 22-year-old male was admitted to hospital with diarrhea and vomiting, cardiac arrhythmias, severe hypokalemia and gradual onset of muscular weakness. A potassium infusion was started, but for several hours serum potassium remained low. Evidence of toxic ingestion was initially lacking. When it became clear -- after a considerable delay -- that the patient had ingested barium nitrate, hemodialysis was started. This resulted in rapid clinical improvement with correction of hypokalemia and restored muscular function. Intoxication with barium causes hypokalemia, arrhythmias, muscular weakness and paralysis, often requiring respiratory support. This patient presented with symptoms typical of severe barium intoxication, non-responsive to potassium supplementation. There are few published reports on the use of hemodialysis in barium poisoning. This case confirms the possible benefit of hemodialysis in severe cases, where potassium supplementation alone is insufficient.

Acute barium intoxication and hemodiafiltration

We report a case of severe hypokalemia and flaccid muscle paralysis following a suicide attempt associating the calcium channel blocker amlodipine, the antidepressant fluoxetine and barium carbonate. Despite rapid correction of severe, life-threatening hypokalemia, areflexic quadriplegia persisted, suggesting a direct effect of barium on muscle cells. Continuous veno-venous hemodiafiltration (CVVHDF) was initiated. We determined barium concentration in the urine, plasma, and hemodiafiltrate during CVVHDF. We subsequently calculated the amounts of barium eliminated both by the CVVHDF and the kidneys. CVVHDF triples the measured barium elimination, reduced serum barium half-life by a factor of three, stabilized serum potassium levels, and rapidly improved motor strength, with complete neurological recovery within 24 h. Presentation and treatment of barium intoxication are discussed.