Extensive Hydrofluoric Acid Injuries: A Serious Problem

A Rare Case of Extensive Hydrofluoric Acid Burn

Hydrofluoric acid (HF) is a strongly corrosive, highly toxic, and highly dangerous mineral acid. Burns with over 1% TBSA caused by anhydrous HF can lead to deep tissue damage, hypocalcemia, poisoning, and even death. In recent years, HF has become one of the most common substances causing chemical burns and ranks as the leading cause of death from chemical burns. Herein, we report a rare case with 91% TBSA burns caused by 35% HF. The patient developed complications such as shock, severe hypocalcemia, metabolic acidosis, and respiratory failure. Multidisciplinary team consultation (burns, respiratory medicine, nephrology, infectious disease, and pharmacy) was performed immediately after admission. An individualized diagnosis and treatment plan were developed for the patient. The patient was given intensive care, blood volume monitoring, tracheotomy, fluid resuscitation, continuous blood purification, anti-infective and analgesic treatments, intravenous and percutaneous calcium supplementation, early rehabilitation training, psychological rehabilitation, and other treatments. To prevent the wound from deepening, large-area debridement and skin grafting were performed early after the injury. A large dose of 10% calcium gluconate was injected into the patient in divided doses, and the wound was continuously treated with wet dressings. Multiple surgical debridements, negative pressure wound treatment, biological dressings, and Meek skin grafting were performed. After most of the wounds (approximately 85% TBSA) healed, the patient was discharged from the hospital and continued to undergo dressing changes at a local hospital. The patient was followed up 3 months after discharge. All the wounds healed well, and the patient basically regained functional independence in daily life.

Analysis of Factors Contributing to the Occurrence of Systemic Toxicity in Patients with Hydrofluoric Acid Skin Exposure Injury: An Individual Participant Data Meta-Analysis of 125 Clinical Cases from 1979 to 2020

The purpose of this study is to analyze the factors contributing to the occurrence of systemic toxicity in patients injured after skin exposure to hydrofluoric acid (HFA) and to present guidelines for active treatment intervention based on this analysis. Data were acquired from EMBASE, PubMed, and Cochrane library for individual participant data (IPD) meta-analysis. Key searching terms included calcium gluconate (CAG), hydrofluoric acid, and case. This research consisted of case studies published between 1979 and 2020. Systemic toxicity was set as the main outcome. Data sets from 50 case studies (N = 125 participants) were analyzed. Multivariate binary logistic regression analyses of IPD found significant association effect of the total body surface area (TBSA) burned, indicating systemic toxicity [Regression coefficient estimate, 0.82; SE, 0.41; Odds ratio, 2.28; [95% confidence interval, 1.03-5.06], and p = 0.0424]. The optimal cutoff point (sensitivity; specificity) of the receiver operating characteristic curve of the total body surface area (TBSA) burned for contributing occurrence of systemic toxicity was 2.38(0.875; 0.959). IPD meta-analysis indicates that existing evidence supports the positive proportional association of the TBSA burned for systemic toxicity. If the TBSA burned (%) in patients exposed to hydrofluoric acid is greater than 2.38, early aggressive treatment intervention, including decontamination and various CAG application, should be recommended as the guideline.

Critical care management of hydrofluoric acid burns with a negative outcome

Hydrofluoric acid is a highly corrosive acid widely used in various industries. When in contact with skin it causes local and systemic reactions due to the generation of fluoride ions. Severe burns are associated with high mortality rates, approaching 100%. We present a 21-year-old man with 15% full thickness burns, severe metabolic acidosis, hypoxia and electrolyte disturbances. The burns were treated with topical and subcutaneous injections of calcium gluconate, and the patient was given intravenous fluid, calcium chloride, magnesium and insulin-glucose infusions. Continuous renal replacement therapy was initiated due to the severity of the systemic toxicity. Extracorporeal membrane oxygenation was considered as it plays a vital role when conventional therapies fail. Our patient suffered multiple cardiac arrests and cardiopulmonary resuscitation was conducted several times but despite extensive efforts, he did not survive.

Hydrofluoric Acid: Burns and Systemic Toxicity, Protective Measures, Immediate and Hospital Medical Treatment

BACKGROUND

Hydrofluoric acid is a commonly used chemical in many industrial branches, but it can also be found as an ingredient in household products such as cleaning agents. Possessing high corrosive potential, HF acid causes burns and tissue necrosis, while when absorbed and distributed through the bloodstream, its extremely high toxic potential is expressed. Acute symptoms are often followed by pain, particularly in the case of skin burns, which intensiveness does not often correlate with the expressiveness of the clinical findings. Even exposure to low-concentrated solutions or gasses, or low-doses of high-concentrated acid, may provoke delayed systemic disorder which may eventually have a lethal outcome.

AIM

Therefore, having information regarding the possible hazardous effects of hydrofluoric acid usage, a variety of symptoms, as well as a treatment approach, is of great importance in the case of HF exposure.

METHODS

Available scientific articles published in literature databases, scientific reports and governmental recommendations from the internet websites, written in English, using the following search terms "Hydrofluoric acid, skin burns, eye injury, ingestion, inhalation, systemic toxicity, decontamination, antidote, medical treatment" have been reviewed.

RESULTS

This review is useful not only for physicians but for everyone who may come in contact with a person exposed to HF acid.

CONCLUSION

It highlights the mechanism of action, presents the acute and chronic symptoms, personal and general protective measures and devices that should be used, as well as decontamination procedures, immediate, antidote and hospital medical treatment.

[Physical and chemical emergencies in dermatology]

Physical and chemical emergencies are often caused by household or work accidents. Regardless of the medical field and outside specialized clinics, the physician may be confronted with the situation for first or secondary care. The identification of the causing agent and a rapid assessment of the extent and severity of the tissue damage are essential to initiate early transfer to a specialized burn clinic. Grade 2b tissue damage is usually surgically treated. Smaller and superficial injuries can often be conservatively treated. Even supposedly safe and over-the-counter medicines can also lead to serious tissue damage.

Management of a Rare Case With Severe Hydrofluoric Acid Burns: Important Roles of Neutralizers and Continuous Renal Replacement Therapy

Hydrofluoric acid (HF), a dangerous inorganic acid, is widely used in various industries and in daily life. Chemical burns caused by HF exposure occur more frequently in some regions worldwide. It has been reported that some cases with HF burns can be lethal due to the hypertoxicity of HF. In this article, we present a case of a 24-year-old worker who suffered HF burns by 53% HF solution to his face, neck, and nasal cavity. This patient quickly developed electrolyte disturbance, that is, hypocalcemia, and hypopotassemia, and myocardial injury after exposure. Multiple measures had been taken to treat this patient, including fluid resuscitation, electrolyte replacement, timely wound treatment with neutralizers, and respiratory tract care. Moreover, continuous renal replacement therapy was also employed to remove fluoride in the circulatory system and rectify the electrolyte disturbance and acid-base imbalance. The patient smoothly pulled though and survived. High fluoride levels in the dialysate solution were confirmed, indicating that continuous renal replacement therapy is an effective and potentially lifesaving treatment for acute HF poisoning.

[Dermal and inhalation poisoning. Rare guests in our intensive care units?]

Patients with dermal and inhalation poisoning are uncommon in intensive care treatment. We describe the diagnostics and specific toxicological treatment of patients with hydrofluoric acid burns. For inhalation poisoning, we focus on smoke inhalation, especially the management of cyanide and carbon monoxide poisoning. Special attention is given to the use of hyperbaric oxygenation for the treatment of carbon monoxide poisoning.