Gas embolism produced by hydrogen peroxide

From Household Chemical to Medical Emergency: Stroke Induced by Hydrogen Peroxide Ingestion

Hydrogen peroxide (H₂O₂) ingestion can lead to severe systemic complications, including neurological sequelae such as acute embolic stroke. We present a case of a 49-year-old male who accidentally ingested approximately 50-60 mL of 50% w/w hydrogen peroxide, resulting in encephalopathy, upper motor neuron quadriparesis, and pulmonary artery thrombosis. The patient's altered sensorium progressed to a stupor, accompanied by acute respiratory distress and abdominal gaseous distension. Imaging revealed multifocal hypodensities in the brain and saddle thrombus in the pulmonary arteries. Hyperbaric oxygen therapy initiated after diagnosis led to a significant improvement in motor power and resolution of abdominal distension during hospitalization. The pathophysiology involves gas embolization and oxidative stress-induced thrombosis. Management includes stabilizing the patient, dilution therapy, and supportive care, with hyperbaric oxygen therapy for severe cases. Prevention strategies focus on education and proper storage. Continuous monitoring and follow-up are essential for managing hydrogen peroxide poisoning. This case underscores the need for awareness and prompt intervention in hydrogen peroxide toxicity.

Simultaneous gas embolism and pneumocephalus after paravertebral irrigation with hydrogen peroxide: A rare case report

INTRODUCTION

Gas embolism is a rare but fatal clinical emergency. Hydrogen peroxide (H2O2) can cause gas embolism when improperly used in closed cavities or for deep and large wound irrigation.

PRESENTATION OF CASE

A 31-year-old woman was diagnosed with lumbar-3 tuberculosis and paravertebral abscess and underwent emergency spinal surgery in a prone position. After removing the tuberculous pus, 200 mL of H2O2 (3 % v/w) was used to repeatedly irrigate the abscess cavity. Immediately after irrigation, the patient suffered cardiac arrest. During cardiopulmonary resuscitation, transesophageal echocardiography revealed that the right cardiac cavity was filled with a diffuse "Snowflake-Like" gas embolus, and cranial computed tomography showed a multi-point pneumocephalus in the frontal lobes. The patient eventually suffered brain death despite the return of spontaneous circulation after active resuscitation.

DISCUSSION

H2O2 can quickly release abundant oxygen and water upon contact with catalase. Oxygen bubbles enter the vascular lumen and cause mechanical obstruction of the right cardiac circulation. In addition, H2O2 and oxygen bubbles may migrate upwards and enter the intracranial tissue through the epidural space or subdural space, resulting in intracranial pneumatosis. Diagnosis and treatment of gas embolism are extremely difficult. Some suggestions are that H2O2 should not be used in closed cavities or on deep and large wounds due to the potential risk of fatal gas embolism.

CONCLUSION

The fatal complications of gas embolism and pneumocephalus rarely occur simultaneously in one patient, and we aim to highlight this potential risk of intraoperative H2O2 use in spinal surgery.

Agents that can be used in medical treatment of meconium ileus and comparison of their efficacy

Background

Aim: This study was conducted to determine the efficacy of medical agents currently used or potentially used in the medical treatment of meconium ileus and to contribute to the medical treatment of meconium ileus.

Materials and method

In our study, meconium causing meconium ileus or normal meconium obtained voluntarily from healthy newborns at birth was used. A total of 2 g meconium sample was placed in each test tube. Six experimental groups were formed by adding saline solution, N-acetylcysteine, amidotrizoate, pancreatic enzymes, fibrinolytic enzyme, and probiotic bacteria on the meconium samples. All experimental groups were kept at 36 °C and over 90% humidity for 6 h. The resulting mixtures were centrifuged at 2500 rpm for 5 min.

The solid gel-like part and the liquid part were separated. The volumes of the liquid portions and the weights of the gel portions were measured. Gels were placed on a glass substrate to compare the flowability of the gel portions. After 30 min, how much the gel-like meconiums moved from the starting point was recorded. Liquid volumes were measured in milliliters (ml), weights in grams (g), and distance in millimeters (mm).

Results

It was determined that the solid part weights of N-acetylcysteine and amidotrizoate groups increased, while the solid part weights of the other groups decreased. It was determined that the decrease in solid part weights was mostly in the probiotic bacteria group. Test correlation between liquid fraction volume and solid weight was statistically determined. The group that moved the most on the glass substrate was the N-acetylcysteine group.

Conclusions

Our study also showed that the gastrographin and NAC groups do indeed attract liquid to solid meconium. They cause an increase in solid part weight. Probiotic bacteria and pancreatic enzymes were found effective in terms of movement on the glass surface in the meconium samples they were applied to. The fibrinolytic enzyme produced for in vivo environment was found to be ineffective in the in vitro environment in our study.

We think that pancreatic enzymes and probiotic bacteria can also be used in the medical treatment of meconium ileus.

Severe Acute Lung Injury After H2O2 Irrigation of an Aneurysmal Bone Cyst in an 8-Year-Old Girl: A Case Report

An 8-year-old girl developed severe acute lung injury after irrigation of a pelvic aneurysmal bone cyst with H2O2 and filling with bone cement. Sudden profound oxygen desaturation occurred on the operating table when the patient was turned from the prone to the supine position. After a brief improvement in her oxygenation, the girl developed rapidly progressing severe respiratory failure necessitating reintubation and hour-long manual ventilation, while copious amounts of hemorrhagic frothy fluids were aspirated through the endotracheal tube. The patient started to improve after 24 hours and eventually made a full recovery. We hypothesize that the incident was caused by gas embolization and pulmonary endothelial damage by H2O2.

Hydrogen Peroxide Enema-induced Proctitis in a Young Female: A Case Report

Hydrogen peroxide is a disinfectant commonly used for cleansing superficial wounds due to its oxidizing capacity. In the past, it has also been used for the management of meconium ileus in children as the oxidizing action of hydrogen peroxide potentiates peristalsis that relieves ileus or fecal impaction. The potential dangers were unknown till Pumphrey, in 1951, described the harmful effects of its use as an enema. We present a case of a 32-year-old female who was admitted for complaints of perianal pain. She used an enema, consisting of water and hydrogen peroxide, for constipation. It improved her symptoms but subsequently, she developed a burning sensation in her rectum. The patient had a colonoscopy which revealed severe proctitis up to 15 cm from the anal verge manifested by superficial mucosal ulceration, marked erythema, and edema with friable mucosa and hemorrhage. The patient was subsequently given mesalamine, and the symptoms resolved.

An Emergency Department Presentation of Severe Colitis After a Home Hydrogen Peroxide Enema

BACKGROUND

Health information found on open access Internet platforms is often unscrutinized, unreliable, and can lead to considerable morbidity for patients and their presentation to the emergency department. Currently, home treatments for constipation and other gastrointestinal ailments featuring the use of hydrogen peroxide (H₂O₂) enemas are readily available.

CASE REPORT

We present a case of a 48-year-old female with a history of fibroids who presented to the emergency department with acute abdominal pain after self-administering a 3% H₂O₂ enema, which she learned about on the Internet as a treatment for constipation. She subsequently developed a severe colitis with evidence of pneumatosis and focal perforation. WHY SHOULD AN EMERGENCY PHYSICIAN BE AWARE OF THIS?: Although toxicity from oral ingestions of H₂O₂ is well described in the literature, there are few reports of the sequelae related to rectal administration. Due to its significant morbidity and the public health concerns related to this mechanism of toxicity, emergency physicians are at the frontlines for diagnosing and properly managing these patients. This case report reviews the patient's presentation, findings, and management.

Neurologic Complications in the Intensive Care Unit

Complications involving the central and peripheral nervous system are frequently encountered in critically ill patients. All components of the neuraxis can be involved including the brain, spinal cord, peripheral nerves, neuromuscular junction, and muscles. Neurologic complications adversely impact outcome and length of stay. These complications can be related to underlying critical illness, pre-existing comorbid conditions, and commonly used and life-saving procedures and medications. Familiarity with the myriad neurologic complications that occur in the intensive care unit can facilitate their timely recognition and treatment. Additionally, awareness of treatment-related neurologic complications may inform decision-making, mitigate risk, and improve outcomes.

Clostridium perfringens septicemia in a long-beaked common dolphin Delphinus capensis: an etiology of gas bubble accumulation in cetaceans

An adult female long-beaked common dolphin Delphinus capensis live-stranded in La Jolla, California, USA, on July 30, 2012 and subsequently died on the beach. Computed tomography and magnetic resonance imaging revealed gas bubble accumulation in the vasculature, organ parenchyma, mandibular fat pads, and subdermal sheath as well as a gas-filled cavity within the liver, mild caudal abdominal effusion, and fluid in the uterus. Gross examination confirmed these findings and also identified mild ulcerations on the palate, ventral skin, and flukes, uterine necrosis, and multifocal parenchymal cavitations in the brain. Histological review demonstrated necrosis and round clear spaces interpreted as gas bubbles with associated bacterial rods within the brain, liver, spleen, and lymph nodes. Anaerobic cultures of the lung, spleen, liver, bone marrow, and abdominal fluid yielded Clostridium perfringens, which was further identified as type A via a multiplex PCR assay. The gas composition of sampled bubbles was typical of putrefaction gases, which is consistent with the by-products of C. perfringens, a gas-producing bacterium. Gas bubble formation in marine mammals due to barotrauma, and peri- or postmortem off-gassing of supersaturated tissues and blood has been previously described. This case study concluded that a systemic infection of C. perfringens likely resulted in production of gas and toxins, causing tissue necrosis.

"STOP, LOOK, and LISTEN." Hepatic Portal Venous Gas: Time for Clinical Assessment!

Pneumatosis intestinalis and portal venous gas are findings usually associated with intra-abdominal surgical catastrophes that frequently require emergent surgical intervention. Herein we present a case of a patient who presented in septic shock, with extensive portal vein gas, diffuse intestinal wall thickening, and atherosclerotic vascular insufficiency in the absence of pneumatosis intestinalis. Given his advanced age, multiple comorbidities, magnitude of the initial findings, and his dramatic clinical response to aggressive fluid resuscitation, a cognitive decision was made to continue with nonoperative management. The patient recovered uneventfully and was discharged home in a stable condition.

A rare case of portal vein gas: accidental hydrogen peroxide ingestion

Hydrogen peroxide (H(2)O(2)) is a colourless and odourless liquid with oxidant characteristics used for various purposes. Whereas in lower concentrations (3%), H(2)O(2) is used as a disinfectant in home cleaning products and wound care, in higher concentrations (35%) it is used in textile and paper industry as a bleaching agent and is diluted for use in lightening hair dyes. Like other caustic substances, direct injuries may develop if H(2)O(2) is swallowed and systemic air embolisms may occur due to the resultant gaseous oxygen. This study discusses a patient who was detected with the presence of gas in the portal venous system due to H(2)O(2) intoxication and was treated conservatively.

[A case of chemical colitis caused by hydrogen peroxide enema]

Hydrogen peroxide is commonly used as a disinfectant that has been reported to cause chemical colitis. We report a case of 49 year-old man who presented with chemical colitis caused by self-inflicted hydrogen peroxide enema. In the sigmoidoscopic examination, diffuse erythematous and edematous mucosal change with multiple ulcerations and easy touch bleeding was noted from the rectum to the proximal sigmoid colon. Abdominal computed tomography showed diffuse wall thickening of the rectum and the sigmoid colon with inflammatory and reactive change at surrounding. The patient was treated with NPO, intravenous fluid, and antibiotic therapy. On 5th hospital day, abdominal pain and bloody stool disappeared, and the patient started oral feeding. He discharged on 6th hospital day with fully recovered state.

Hydrogen Peroxide – A Party Trick from the Past?

Hydrogen peroxide solutions are found in almost every operating theatre and are used by many surgical specialties, often with little knowledge of their inherent risk. We reviewed the literature and evidence related to the use of hydrogen peroxide in surgery. We found little evidence supporting the use of hydrogen peroxide solutions intraoperatively, a large number of reports of sometimes-fatal oxygen embolism and other evidence of tissue toxicity. We conclude that the use of hydrogen peroxide as an antiseptic has no direct benefit, but is associated with significant risk, and therefore should be reconsidered.

Hepatic portal venous gas: Physiopathology, etiology, prognosis and treatment

Hepatic portal venous gas (HPVG), an ominous radiologic sign, is associated in some cases with a severe underlying abdominal disease requiring urgent operative intervention. HPVG has been reported with increasing frequency in medical literature and usually accompanies severe or lethal conditions. The diagnosis of HPVG is usually made by plain abdominal radiography, sonography, color Doppler flow imaging or computed tomography (CT) scan. Currently, the increased use of CT scan and ultrasound in the inpatient setting allows early and highly sensitive detection of such severe illnesses and also the recognition of an increasing number of benign and non-life threatening causes of HPVG. HPVG is not by itself a surgical indication and the treatment depends mainly on the underlying disease. The prognosis is related to the pathology itself and is not influenced by the presence of HPVG. Based on a review of the literature, we discuss in this paper the pathophysiology, risk factors, radiographic findings, management, and prognosis of pathologies associated with HPVG.

Cardiac arrest following hydrogen peroxide irrigation of a breast wound

Hydrogen peroxide is commonly used for the decontamination of wounds. We report a case of a probable venous oxygen embolism resulting in cardiovascular collapse following irrigation of a necrotic breast wound with hydrogen peroxide. We discuss the differential diagnosis, mechanism of oxygen embolism and question the relative advantages versus disadvantages of using hydrogen peroxide for wound decontamination.

[Hepatic portal venous gas. Clinical significance and review of the literature]

Hepatic portal venous gas in adults is a rare entity. The most frequent cause is intestinal ischemia. However, an increasing number of cases associated with benign conditions suitable for conservative treatment are being reported. We review the literature to define the clinical significance of portal venous gas, the role of computed tomography, and the need to perform emergency exploratory laparotomy.

Severe acute haemorrhagic gastritis controlled by hydrogen peroxide

A 92-year-old woman presented with severe acute haemorrhagic gastritis due to abuse of non-steroidal anti-inflammatory drugs (NSAIDs). She was treated with instillation of 150 ml 3% hydrogen peroxide (H2O2) every 2 h via a nasogastric tube. The copious amount of bright red blood through the nasogastric tube started to decline substantially after the first administration of H2O2 and continued to reveal clear material during the second and third instillation of H2O2. The total amount of H2O2 administered was 600 ml. No rebleeding and only a few flame-shaped intramucosal haemorrhages were observed on the following four consecutive daily endoscopic evaluations. These are promising observations which will have to be confirmed with respect to the safety and efficacy of H2O2 treatment by further controlled studies.

Venous oxygen embolism produced by injection of hydrogen peroxide into an enterocutaneous fistula

We report a venous oxygen embolism that occurred in a 66-yr-old man after 60 mL of 3% hydrogen peroxide was injected into a perianal fistula intraoperatively to locate its internal opening. The diagnosis was made after detecting hypoxemia, decreased end-tidal carbon dioxide tension, systemic hypotension, increased central venous pressure, and a new heart murmur. The patient recovered quickly and had no long-term sequelae. Oxygen embolism is a potentially fatal complication that can develop when hydrogen peroxide is used near venous spaces, and clinicians should be aware of the potential dangers when using this seemingly innocuous chemical.

Hydrogen Peroxide Poisoning

Hydrogen peroxide is an oxidising agent that is used in a number of household products, including general-purpose disinfectants, chlorine-free bleaches, fabric stain removers, contact lens disinfectants and hair dyes, and it is a component of some tooth whitening products. In industry, the principal use of hydrogen peroxide is as a bleaching agent in the manufacture of paper and pulp. Hydrogen peroxide has been employed medicinally for wound irrigation and for the sterilisation of ophthalmic and endoscopic instruments. Hydrogen peroxide causes toxicity via three main mechanisms: corrosive damage, oxygen gas formation and lipid peroxidation. Concentrated hydrogen peroxide is caustic and exposure may result in local tissue damage. Ingestion of concentrated (>35%) hydrogen peroxide can also result in the generation of substantial volumes of oxygen. Where the amount of oxygen evolved exceeds its maximum solubility in blood, venous or arterial gas embolism may occur. The mechanism of CNS damage is thought to be arterial gas embolisation with subsequent brain infarction. Rapid generation of oxygen in closed body cavities can also cause mechanical distension and there is potential for the rupture of the hollow viscus secondary to oxygen liberation. In addition, intravascular foaming following absorption can seriously impede right ventricular output and produce complete loss of cardiac output. Hydrogen peroxide can also exert a direct cytotoxic effect via lipid peroxidation. Ingestion of hydrogen peroxide may cause irritation of the gastrointestinal tract with nausea, vomiting, haematemesis and foaming at the mouth; the foam may obstruct the respiratory tract or result in pulmonary aspiration. Painful gastric distension and belching may be caused by the liberation of large volumes of oxygen in the stomach. Blistering of the mucosae and oropharyngeal burns are common following ingestion of concentrated solutions, and laryngospasm and haemorrhagic gastritis have been reported. Sinus tachycardia, lethargy, confusion, coma, convulsions, stridor, sub-epiglottic narrowing, apnoea, cyanosis and cardiorespiratory arrest may ensue within minutes of ingestion. Oxygen gas embolism may produce multiple cerebral infarctions. Although most inhalational exposures cause little more than coughing and transient dyspnoea, inhalation of highly concentrated solutions of hydrogen peroxide can cause severe irritation and inflammation of mucous membranes, with coughing and dyspnoea. Shock, coma and convulsions may ensue and pulmonary oedema may occur up to 24-72 hours post exposure. Severe toxicity has resulted from the use of hydrogen peroxide solutions to irrigate wounds within closed body cavities or under pressure as oxygen gas embolism has resulted. Inflammation, blistering and severe skin damage may follow dermal contact. Ocular exposure to 3% solutions may cause immediate stinging, irritation, lacrimation and blurred vision, but severe injury is unlikely. Exposure to more concentrated hydrogen peroxide solutions (>10%) may result in ulceration or perforation of the cornea. Gut decontamination is not indicated following ingestion, due to the rapid decomposition of hydrogen peroxide by catalase to oxygen and water. If gastric distension is painful, a gastric tube should be passed to release gas. Early aggressive airway management is critical in patients who have ingested concentrated hydrogen peroxide, as respiratory failure and arrest appear to be the proximate cause of death. Endoscopy should be considered if there is persistent vomiting, haematemesis, significant oral burns, severe abdominal pain, dysphagia or stridor. Corticosteroids in high dosage have been recommended if laryngeal and pulmonary oedema supervene, but their value is unproven. Endotracheal intubation, or rarely, tracheostomy may be required for life-threatening laryngeal oedema. Contaminated skin should be washed with copious amounts of water. Skin lesions should be treated as thermal burns; surgery may be required for deep burns. In the case of eye exposure, the affected eye(s) shod eye(s) should be irrigated immediately and thoroughly with water or 0.9% saline for at least 10-15 minutes. Instillation of a local anaesthetic may reduce discomfort and assist more thorough decontamination.

Hydrogen peroxide neurotoxicity in childhood: case report with unique magnetic resonance imaging features

Concentrated hydrogen peroxide (H2O2) intoxication is relatively rare in children. Serious irreversible neurotoxicity generally results. The case of an 11-year-old boy who inadvertently drank a concentrated (35%) H2O2 solution is described. He exhibited signs of an acute encephalopathy with cortical visual impairment. Extensive cerebrocortical diffusion restriction with apparent gyral edema was evident at 3 days following ingestion, particularly in the parieto-occipital regions bilaterally. Spontaneous neurologic improvement quickly followed, and nearly full clinical resolution was evident 1 month later. The pattern of imaging abnormalities closely resembles that of reversible posterior leukoencephalopathy. Concentrated H2O2 neurotoxicity in children can exhibit unique patterns (a reversible posterior leukoencephalopathy) and a better than expected outcome.

Where have all the bubbles gone? An ode to Hydrogen peroxide, the champagne of all wound cleaners

Hydrogen peroxide solution can be very effective for cleaning grit filled wounds and grazes. Its use in Accident and Emergency (A&E) departments has gone out of vogue due to concerns about air emboli formation. This article discusses the truth behind these concerns and whether it is in fact safe to use hydrogen peroxide solution for wound cleaning in specific situations.

Oxygen embolism after hydrogen peroxide irrigation of a vulvar abscess

We report a case of venous oxygen embolism in a 33-yr-old healthy woman after irrigation of a vulvar abscess with 25 ml of 3% hydrogen peroxide. Venous oxygen embolism was diagnosed by the development of sudden hypoxia associated with a decrease in end-tidal carbon dioxide concentration from 5.3 kPa to 3.2 kPa, and a 'mill-wheel' sound on cardiac auscultation soon after injection of the solution. The patient responded to corrective treatment including the Trendelenburg position and 100% oxygen. She made an uneventful recovery. We discuss the possible causative mechanism of this embolism, the different diagnostic methods, and the controversial aspects of available treatments. We emphasize that hydrogen peroxide is a dangerous and unsuitable agent for routine wound irrigation and debridement.

Left-sided cardiac gas embolism produced by hydrogen peroxide: intraoperative diagnosis using transesophageal echocardiography

IMPLICATIONS

We present a case of an adult who suffered a left-sided gas embolism after surgical lavage of the thoracic cavity with hydrogen peroxide. An intraoperative diagnosis was made using transesophageal echocardiography.

[Iatrogenic gas embolism following surgical lavage of a wound with hydrogen peroxide]

The use of hydrogen peroxide (H2O2) in surgery for its antiseptic properties has been associated with life-threatening complications. We report a case of severe oxygen embolism after wound irrigation with H2O2 in a 17-year-old boy undergoing surgical dressing of a large thigh trauma under general anaesthesia. During muscle lavage with 400 mL of H2O2 3%, severe shock suddenly occurred. On the basis of clinical presentation, the diagnosis of pulmonary gas embolism was strongly suspected. Symptomatic treatment initiated immediately, restaured a normal haemodynamic state within a few minutes and the patient recovered without sequelae. The degradation of H2O2 results in considerable amounts of gaseous oxygen. One mL of H2O2 can produce in the tissues 10 mL of oxygen. This gas can enter the circulation and determine severe embolism. The treatment should be initiated without delay. The administration of H2O2 under pressure is contraindicated during surgery.

Gas embolism produced by hydrogen peroxide abscess irrigation in an infant

The production of gaseous oxygen when hydrogen peroxide interacts with tissue is a well-known phenomenon that has been reported as a rare cause of gas embolism. We present the case of an 11-month-old infant who sustained an immediate cardiorespiratory arrest following the use of this agent during a minor surgical procedure. Clinical features, radiological findings and the rapid response to resuscitation were strongly suggestive of major gas embolism. Adverse effects of inappropriate use of hydrogen peroxide, and the diagnosis and management of these problems are discussed.

[Lethal portal venous gas after cardiopulmonary arrest]

We report the case of a 51-year-old patient admitted after a transient cardiorespiratory arrest. The abdominal CT scan revealed the presence of hepatic portal venous gas. At laparotomy, a diffuse mesenteric ischaemia was diagnosed. The patient died from multiple organ failure in the subsequent hours. Necrotic bowel is associated with hepatic portal venous gas in 50% of the cases and the current mortality rate is 85%. Gas originates either through intestinal transmucosal passage, either by intraportal bacterial gas production, or through both mechanisms.

Acute cerebral gas embolism from hydrogen peroxide ingestion successfully treated with hyperbaric oxygen

CASE REPORT

We present a case of an adult who suffered an apparent stroke shortly after an accidental ingestion of concentrated hydrogen peroxide. Complete neurologic recovery occurred quickly with hyperbaric therapy. Hydrogen peroxide can produce acute gas embolism. Hyperbaric therapy is the definitive treatment for gas embolism from hydrogen peroxide ingestion as it is for all other causes of acute gas embolism. This is the first case reported in the literature of hyperbaric therapy used successfully to treat cerebral gas embolism caused by hydrogen peroxide.

Brain lipid peroxidation and hydroxy radical attack following the intravenous infusion of hydrogen peroxide in an infant

Death following peroxide administration in humans has been reported repeatedly. Hydrogen peroxide, an odorless and clear solution is considered a harmless liquid and is in use for cleaning of superficial wounds. We describe the fatal infusion of this compound by mistake leading to oxygen embolism and, subsequently, to death as a warning for the clinician. Hydrogen peroxide is suggested a major substrate for the in vivo production of the potent oxidizing free radical species "hydroxy radical." No direct evidence for its in vivo production from hydrogen peroxide has been described so far. Using the principle of o-tyrosine determination we studied the formation of the hydroxy radical in the postmortem brain of the infant given intravenous hydrogen peroxide in comparison to postmortem brain samples from five infants. o-Tyrosine is formed by hydroxy radical attack on free and bound phenylalanine and was increased twofold in the brain of the infant given hydrogen peroxide. The significant increase of brain malondialdehyde, a major product and indicator of lipid peroxidation, paralleled the findings of hydroxy radical attack, suggesting that this reactive species has been leading to elevated lipid peroxidation. We propose that the generation of lipid peroxidation and the hydroxy radical from hydrogen peroxide can take place in humans.

Hydrogen peroxide 3% exposures

OBJECTIVE

To present a child who developed gastric ulcers and duodenal erosions after ingestion of hydrogen peroxide 3% and delineate the epidemiology, medical outcomes, and toxicity of exposures to this agent managed by a poison control center.

METHODS

A retrospective chart review of exposures to hydrogen peroxide 3% reported to the Long Island Regional Poison Control Center from January 1992 to April 1995 was conducted. Data extracted included age, route of exposure, amount of agent, symptoms, therapy, and medical outcome.

RESULTS

There were 670 exposures to hydrogen peroxide 3% of 81,126 total exposures reported during the 40 months. Most exposures were by oral route (77%), occurred in children < 17 years old (67%), and were asymptomatic (85.6%). All but one exposure resulted in a benign outcome. One child, who presented with bloody emesis, developed multiple gastric ulcers and duodenal erosions after ingestion of hydrogen peroxide 2-4 oz.

CONCLUSIONS

Exposure to hydrogen peroxide 3% is usually benign, however, severe gastric injury may occur following small ingestions in children. Patients who report persistent vomiting or bloody emesis require medical evaluation and consideration of endoscopy to evaluate gastrointestinal injury.

Glutaraldehyde colitis following endoscopy: clinical and pathological features and investigation of an outbreak

Although potentially noxious compounds are used routinely to disinfect endoscopes, reports of their inadvertent introduction to the gastrointestinal tract, usually attributed to the retention of disinfectant within endoscope channels, are rare. This case report describes the clinical features of glutaraldehyde-induced colitis and the pathology of the mucosal injury in four patients, in at least one of whom the disinfectant was not retained in the endoscope itself. Within 3 months, three patients experienced severe acute proctocolitis < 6 hours after a sigmoidoscopy showing no abnormalities, performed in a small endoscopy unit. Investigation of the unit's protocols suggested that the most likely cause was retention of 2% glutaraldehyde disinfectant in the endoscope channels, and changes were made to prevent this. When a fourth case occurred 5 months later, the source of the glutaraldehyde was found to be the tubing connecting water bottles to the endoscopes, which was disinfected rigorously but flushed inconsistently between cases. Glutaraldehyde-induced colitis seems similar to ischemic colitis in biopsy specimens and cannot be diagnosed by histological analysis alone. Acute colitis occurring within 24 hours of a colonoscopy showing no abnormalities should be considered iatrogenic and should lead to an investigation of procedures in use for cleaning and disinfecting endoscopic equipment.

Hydrogen peroxide exposure--325 exposures reported to a regional poison control center

Isolated case reports have documented that hydrogen peroxide exposure can be associated with serious toxicity by various routes of exposure. The purpose of this study was to better delineate the epidemiology, medical outcome, and potential health hazards of hydrogen peroxide exposures to the general public. We performed a retrospective review of all exposures reported to a regional poison center over a 36 month period and found that of 95,052 exposures reported, 325 (.34%) were due to hydrogen peroxide. The pediatric population (< 18 years) accounted for 71% of hydrogen peroxide exposures and ingestion was the most common route of exposure (83%). Nausea and vomiting were the most common symptoms secondary to ingestion. Ocular and dermal exposures to dilute solutions resulted in transient symptoms without permanent sequelae. While most exposures by all routes resulted in a benign outcome (no effect or minor effect), there was a trend toward more severe outcomes in those who ingested a concentration greater than 10% (p = 0.011).

[Risks of hydrogen peroxide irrigation in military surgery]

Two cases of severe complications due to injection of hydrogen peroxide under pressure into areas of muscular attrition in war wounds are reported. In both cases the administration of hydrogen peroxide was associated with tachypnoea, with major arterial desaturation and a precordial "mill-wheel" murmur was heard. In one case, these symptoms were followed by hemiplegia caused by paradoxical arterial gas embolism, and in the other case by a pulmonary oedema confirmed by computerized tomography. Both patients recovered under hyperbaric oxygen therapy. The release of gaseous oxygen under the effect of tissue catalase and the membrane peroxydasic activity of hydrogen peroxide initiate such complications. The injection of hydrogen peroxide under pressure into a closed or partially closed cavity should therefore be strictly prohibited.

Contemporary management of meconium ileus

Meconium ileus was noted as an early manifestation of cystic fibrosis in 60 neonates between 1972 and 1991. There were 20 girls and 40 boys. A family history of cystic fibrosis was present in six children. Twenty-five neonates had uncomplicated meconium ileus due to inspissated meconium within the terminal ileum. Thirty-five neonates presented with 56 complications of meconium ileus, including volvulus (n = 22), atresia (n = 20), perforation (n = 6), and giant cystic meconium peritonitis (n = 8). Clinical presentation included abdominal distension, bilious vomiting, and failure to pass meconium. In two recent cases, prenatal ultrasonography detected a mass with proximal bowel distension indicative of cystic meconium peritonitis. Mechanical bowel obstruction in the other neonates was diagnosed from plain abdominal radiographs and barium enema. Ten patients with uncomplicated meconium ileus were successfully treated with a diatrizoate meglumine (Gastrografin) enema. The remaining 15 patients required a laparotomy, with 9 treated by bowel resection and enterostomy and 6 recent cases managed with enterotomy and irrigation. Complicated cases were managed by bowel resection and anastomosis (n = 15) or enterostomy (n = 20). Survival at 1 year was 92% in patients with uncomplicated meconium ileus and 89% for those with complicated meconium ileus. The therapy of choice for uncomplicated meconium ileus is nonoperative Gastrografin enema, with enterotomy and irrigation reserved for enema failures. Complicated cases require exploration and, in the absence of giant cystic meconium peritonitis, are usually amenable to bowel resection and primary anastomosis.

Portal vein gas embolism from hydrogen peroxide ingestion

A 40-year-old woman who ingested a 35% hydrogen peroxide solution presented to the emergency department with abdominal pain. Acute abdominal series showed gas in the portal vein system. The patient was admitted and treated conservatively. She was released after five days in the hospital with no major sequelae.

Ingestion of 35% hydrogen peroxide

The ingestion of hydrogen peroxide is usually benign. However, the ingestion of greater than 10% hydrogen peroxide can result in significant pathology. Two fatalities are reported in the literature involving children who ingested 27% and 40%. We report a case involving the ingestion of one mouthful of 35% hydrogen peroxide by a 26-month-old female. The child vomited spontaneously. In the Emergency Department the child was lethargic and had an episode of bright red emesis. Several hours later the child experienced a fainting episode followed by a brief respiratory arrest after which she began drooling bright red blood. The initial oral evaluation was negative. Endoscopic evaluation performed 16 hours postingestion revealed erosion of the cardia of the stomach, erythema of the lower esophageal sphincter, and an additional gastric burn. The child was observed for six days and discharged. Follow-up endoscopy performed 12 days postingestion showed only minimal hyperemia in the cardia of the stomach. Exposures to concentrated hydrogen peroxide should be managed aggressively.

Cardiac arrest following the use of hydrogen peroxide during arthroplasty

A case is reported in which cardiac arrest immediately followed the use of hydrogen peroxide during preparation of the femoral canal during hip arthroplasty. The most likely cause of the arrest was thought to be oxygen embolism. The authors suggest that the use of peroxide in an unvented femoral canal may be hazardous, as it has been shown to be in other closed cavities in the body.

Hydrogen peroxide enteritis: the "snow white" sign

Hydrogen peroxide is a useful disinfectant that has achieved widespread utility in varied clinical settings. We report an epidemic of hydrogen peroxide enteritis that developed in seven patients in our gastrointestinal endoscopy unit during a 2-week period in early 1988. During endoscopy, using recently sterilized endoscopes that were flushed with 3% hydrogen peroxide after the glutaraldehyde cycle, instantaneous blanching (the "snow white" sign) and effervescence were noted on the mucosal surfaces when the water button was depressed. No patient subsequently suffered morbidity or mortality associated with this peroxide enteritis, and the biopsy specimens revealed nonspecific inflammation. The toxicity of hydrogen peroxide when used in enema form is reviewed, as well as the pathogenesis of peroxide enteritis.

Near-fatal hydrogen peroxide ingestion

Fatal or near-fatal hydrogen peroxide ingestions are rarely encountered. We report the case of a 33-year-old woman who experienced seizure activity, respiratory arrest, and residual neurologic deficits after accidentally ingesting industrial-strength 35% hydrogen peroxide.

Adult survival with intrahepatic portal venous gas secondary to acute gastric dilatation, with a review of portal venous gas

The radiological observation of hepatic portal venous gas on plain abdominal radiography, ultrasonography or computed tomography is a highly significant finding. Its cause warrants urgent diagnosis and will usually require surgical management. Current overall mortality rate associated with this sign is 75%. A case of acute gastric dilatation with hepatic portal venous gas in an adult who survived without surgery is presented. Patients having this sign after double-contrast barium enemas with quiescent inflammatory bowel disease have also been reported to survive without surgery.

Near-fatal systemic oxygen embolism due to wound irrigation with hydrogen peroxide

Shock and coma developed suddenly in a 54-year-old male undergoing irrigation of an infected and fistulous herniorrhaphy wound with 3% hydrogen peroxide (H₂O₂). Marked ST elevation was seen in almost all electrocardiogram (ECG) leads. Within one hour the patient recovered completely, and the ECG returned to normal. The mechanism of this occurrence was most likely widespread embolization of oxygen microbubbles released from absorbed H₂O₂. The danger of hydrogen peroxide irrigation in closed spaces is emphasized.

Randomized, prospective trial of topical hydrogen peroxide in appendectomy wound infection. High risk factors

Two hundred seventeen patients were admitted to a randomized and prospective trial of the use of topical hydrogen peroxide prophylactically against wound infection after appendectomy through a gridiron incision. One hundred nine patients received topical hydrogen peroxide and 108 patients were in the control group. There was no statistically significant difference in the wound infection rates in the two groups. Risk factors found to be associated with a significantly higher wound infection rate were (1) age greater than 40 years, (2) duration of symptoms of over 36 hours, (3) generalized guarding, tenderness or rebound, (4) state of the appendix at operation, (5) serous or purulent peritoneal effusion, (6) subjective difficulty of operation as assessed by the surgeons, and (7) positive bacterial culture from the appendicular fossa.