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Improvement of initially witnessed side effects was reported with both medications, but phenobarbital still appeared to be better tolerated, with 20% of the patients receiving bromide continuing to experience vomiting by the end of the study (16). Despite this, therapeutic serum concentrations can still be achieved before reaching steady-state concentrations, what can justify the administration of initial loading doses in selected patients (35). In addition to phenobarbital, imepitoin and potassium bromide are the only approved ASM for the treatment of canine epilepsy in Europe (11).

Bromoethane, sometimes known as ethyl bromide, is a haloalkane chemical compound. Potassium bromide (KBr) is a common salt used as an anticonvulsant and sedative. Bromargyrite, a natural, crystalline silver bromide that is still fairly rare, is the most prevalent bromide mineral. Bromide was first offered to dogs in 1907, but its promise as an anticonvulsant was not found until 1986. By the twentieth century, the term “bromide” had come to be used figuratively to refer to anything or someone so monotonous or commonplace that it may put someone to sleep.

• While conducting this research she discovered that bromide caused symptoms of mental illness, leading to a major reduction in its usage.
• Despite this, clinical studies evaluating the safety and efficacy of intravenous bromide administration in veterinary patients are still lacking.
• From 1954 to 1977, the Australian biochemist Shirley Andrews was researching safe ways to use lithium for the treatment of manic depressive illnesses while working at the Royal Park Psychiatric Hospital in Victoria.
• A bromide is a statement so worn and trite as to be ineffective when it’s offered to make someone feel better.
• Mercurial diuretics can increase bromide elimination, suggesting that bromide reabsorption might occur via the chloride channels in the thick ascending limb of Henle (47, 48).
• However, cats may develop an eosinophilic bronchitis which makes bromide use in cats not advisable, what also limits the current available studies in this species (62).

Nodular pulmonary lesions and endogenous lipid pneumonia with secondary pneumothorax were also previously described (62). Bromide should not be used in pregnant or lactating animals since its safety is yet to be assessed in these patients. Cutaneous lesions included nonsuppurative white macules with scales and pustular dermatitis (63).

Methyl bromide is a colorless, odorless gas that is used as a fumigant for insect management in agriculture and transportation. At normal temperature and pressure, potassium bromide is a white crystalline powder. The use of methyl dibromide and ethylene dibromide in soil fumigation can leave traces of these chemicals in harvested crops.

Lithium Bromide

Subsequently, another assessment should be performed one-month post-loading to determine the appropriate ongoing maintenance dose (51, 52). Adequate monitoring allows individualization and optimization of treatment due to the narrow therapeutic ranges and known pharmacokinetic variability between individuals (52). In horses, bromide has also a sedative and calming effect that can lead to its misuse in competition animals (73). Bromide dose reduction, intravenous fluid therapy and induction of diuresis with saline solution (0.9% NaCl) can lead to a quicker improvement in a matter of hours (63, 68). Throughout different species, severe bromide toxicity results in manifestations such as depression, alterations in behavior, ataxia, hind limbs paresis, mydriasis, stupor, and coma (63).

• Despite this, when compared to bromide, phenobarbital revealed a higher efficacy, leading to the eradication of seizures in 85% of dogs.
• Bromargyrite—natural, crystalline silver bromide—is the most common bromide mineral known but is still very rare.
• Air vapor concentrations must not exceed 0.1 parts per million.
• Bromide concentration in standard seawater (35 PSU) is about 65 mg/L, or around 0.2% of total dissolved salts.
• In horses, bromide has also a sedative and calming effect that can lead to its misuse in competition animals (73).

Bromides: History, sources, types, applications and hazards

Additionally, this method is laborious and nowadays most laboratories prefer the use of mass spectrometry. This method carries a risk of falsely record elevated bromide levels due to the presence of other iodides (78). This assessment should be anticipated if seizure frequency increases with more than 3 seizures before the next scheduled assessment or if toxicity is suspected (11).

In this study, bromide led to an improvement in seizure control in 11 of the 22 dogs that composed the cohort, 4 become seizure free and 7 had a reduction of seizure frequency of at least 50% (26). Despite having a currently more limited role in human epilepsy, bromide can still be considered and have an important role in the treatment of refractory pediatric epilepsy (24, 25). Neither of the attempted alternatives revealed increased efficacy in the control of seizures or decreased adverse effects, which became one of the main drawbacks of bromide therapy (21). The information presented in this review aims to enhance the understanding of primary practitioners and veterinary neurologists regarding the current insights into the use of bromide in epileptic patients. International veterinary epilepsy task force (IVETF) current indications to recommend maintenance ASM treatment (9).

Final Thoughts on Bromide Detoxification

Despite this, the impact of bromide in contributing to hypertriglyceridemia is currently unknown and evidence to support a clear causal relationship between bromide treatment and pancreatitis also seems to still be lacking. Phenobarbital alone or in combination with bromide can also lead to the development of hypertriglyceridemia in dogs, a known risk factor for pancreatitis (67). Based on anecdotal reports regarding the gastric irritant effect of bromide salts (28), administration in divided smaller doses or in association with food might help preventing vomiting (44, 63). Although weight variations in patients treated with bromide are currently not clear, eating habits and body weight should be closely monitored (63). Royaux et al. (61) described possible benefits of the addition of bromide to epileptic dogs receiving imepitoin.

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Bromargyrite—natural, crystalline silver bromide—is the most common bromide mineral known but is still very rare. Although uncommon, chronic toxicity from bromide can result in bromism, a syndrome with multiple neurological symptoms.

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Many bromide salts, including sodium bromide and potassium bromide, are colorless crystalline solids. This article clarifies what bromide is, where it naturally occurs, its common uses, and its impact on human health. Bromide is a chemical entity found in nature and used in many human applications.

Bromide: the good, the bad, and the ugly of the oldest antiseizure medication

If used as an add-on treatment, in association with phenobarbital or primidone, bromide serum concentrations between 700 and 2,000 mg/L (26) and 880–2,470 mg/kg (23) proved to be effective in improving seizure control. A “mini” loading dose of 225–250 mg/kg was also suggested to provide rapid adjustments on bromide serum concentrations in patients where this might be required (44). Given bromide’s extended elimination half-life, a loading dose can be administered to reach the desired therapeutic serum concentrations levels faster in selected patients (14, 44, 51). Schwartz-Porsche and Jürgens (26) described the use of potassium bromide as an effective add-on therapy (in addition to phenobarbital and/or primidone) to treat canine patients with refractory epilepsy for the first time in veterinary medicine in 1991.

Neurological and behavioral signs were the most reported adverse effects among different veterinary species (63). Studies assessing the efficacy of bromide as an antiseizure medication in horses are currently lacking. According to Podell et al. (11), bromide receives a moderate recommendation for its’ use in monotherapy and this medication is “most likely” expected to provide an effective treatment. The use of bromide in monotherapy, as a first-line antiseizure treatment in alternative to phenobarbital, was also previously described (28).

Dissociation of bromide salts

Despite this, when compared to bromide, phenobarbital revealed a higher efficacy, leading to the eradication of seizures in 85% of dogs. Currently there is only one study evaluating bromide’s efficacy in monotherapy for the treatment of epilepsy in dogs and comparing it with phenobarbital (16). In a study by Trepanier et al. (27) addition of bromide made possible to discontinue barbiturate treatment (phenobarbital or primidone) in 19% of the dogs.

Trace amounts of bromide are naturally present in the human body, with an average concentration in blood around 5.3 ± 1.4 milligrams per liter. Seawater contains significant concentrations of bromide, typically around 65 milligrams per liter, accounting for about 0.2% of all dissolved salts. The severity of adverse effects can be such that bromide was largely abandoned in human medicine and is currently contraindicated in cats.

A study by Lichtenauer et al. (90) evaluated a possible relationship between the proximity of a dog’s residential area to bromide detox the coast and the dose of potassium bromide required to maintain adequate serum bromide concentrations (90). Dogs with adequate seizure control can experience recurrence of seizures after a sudden increase in chloride intake through a diet change and consequent drop in serum bromide concentrations (89). For this reason, there is a general recommendation for the ingestion of chloride to be maintained constant in human and veterinary patients receiving treatment with bromide (87, 88).

Following its initial use as an add-on therapy in association with phenobarbital, reports on the use of bromide as an effective alternative first-line antiepileptic also became available (16, 28). Bromide continued to be the only effective ASM used in human medicine until 1912, when the antiseizure properties of phenobarbital were discovered (18). Reckless use of this medication with excessively high doses and lack of adequate follow-up were also one of the suspected reasons behind the development of unacceptable mental dullness and apathy in people (21).

Chemical compound or ion From Wikipedia, the free encyclopedia To add bromide to a word list please sign up or log in. All claims expressed in this article are solely those of the authors and do not necessarily represent those of their affiliated organizations, or those of the publisher, the editors and the reviewers.

The dose for NaBr is approximately 15% less of that of KBr, since potassium has a higher molecular weight than sodium, making 1 g of NaBr to contain more bromide than 1 g of KBr (28, 44, 51). After glomerular filtration, bromide suffers extensive tubular reabsorption leading to its long elimination half-life (39). Canine thyroid function also does not seem to become affected by the chronic use of bromide (37, 38). Although an active transport system in the choroid plexus can remove accumulation of bromide from the CSF and CNS, this system can be overwhelmed if administration of bromide is high enough (33).

Use in monotherapy can be particularly interesting in patients that have a contraindication for the treatment with first line ASM (e.g., phenobarbital in case of hepatic disease; structural epilepsy in case of imepitoin). Since its introduction by Schwartz-Porsche and Jürgens (26) that bromide continued to have an important role in the treatment of epileptic dogs, refractory to phenobarbital therapy. This contrasted with the combination of phenobarbital (alone or in association with bromide) with levetiracetam, which led to an increased clearance and lower levetiracetam plasma concentrations (86). Muñana et al. (86) assessed the possible influence of a combination of phenobarbital and/or bromide in the clearance of levetiracetam of epileptic dogs receiving multidrug treatment. Inspired by these results, Rossmeisl et al. (77) studied the existence of a possible similar relationship between the magnitude of pseudohyperchloremia and bromide serum concentration in bromide treated epileptic dogs.

• Bromide is rarely mentioned in the biochemical context.
• Before the sigh-inducing type, though, bromides were most familiar in compounds like potassium bromide, used in the late 19th century as a sedative to treat everything from epilepsy to sleeplessness.
• The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.
• Iodine, particularly in its iodide form, is another essential nutrient that can combat bromide toxicity by promoting antioxidant activity and reducing oxidative stress.

Dosage and administration routes

The patient’s maintenance dose should be increased if there is a decrease of more than 10% in bromide serum concentration between these two measurements (76). Bromide serum concentrations should be measured once a steady-state concentration is reached between 6 and 12 weeks after the beginning of treatment with a maintenance dosage (11, 51, 52). In a retrospective study, Boothe et al. (41) reported adverse effects in 8 out of 17 feline patients receiving bromide.

Natural Presence and Common Uses

Despite this, clinical studies evaluating the safety and efficacy of intravenous bromide administration in veterinary patients are still lacking. In contrast with other antiseizure medications, bromide does not go through hepatic biotransformation and has no hepatotoxic effects (29). bromide detox Medications like barbiturates (e.g., phenobarbital), which boost chloride conductance through GABA-ergic activity, may work together with bromide to elevate the seizure threshold (29).

What Is Bromide? Its Natural Presence and Common Uses

Most analytical methods that are currently used to assess chloride concentrations measure the total halide ion concentration, what includes chloride and bromide. Equally (as previously discussed), concentrations above this range do not necessary result in severe side effects or bromism in all patients (16). It is important to mention that the suggested bromide therapeutic serum concentrations should not be seen as an absolute truth.

Bromide Toxicity and the Best Supplements to Combat It

• This ion is involved in biological processes, such as its use by eosinophils in fighting multicellular parasites.
• Due to bromide’s long elimination half-life, dosing can be performed only once daily, what might help increasing owner’s compliance (44).
• A study by Lichtenauer et al. (90) evaluated a possible relationship between the proximity of a dog’s residential area to the coast and the dose of potassium bromide required to maintain adequate serum bromide concentrations (90).
• Potassium bromide (KBr) is a common salt used as an anticonvulsant and sedative.

It seeks to raise awareness about both the positive and negative aspects of this substance, empowering clinicians to make more informed decisions when utilizing this well-established ASM. Although the exact point prevalence is not known, this was estimated to be between 0.6 and 0.75% in the general dog population (1). A systematic review and metanalysis by Fiest et al. (2) identified a point prevalence of active epilepsy of 6.38 per 1,000 people. The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice.

It helps the body reduce oxidative stress and inflammation by neutralizing reactive oxygen species (ROS) and protecting cells from damage. This is where detoxification support through targeted supplementation becomes crucial. Exposure to even small amounts over time can accumulate in the body, leading to disruptions in thyroid function, oxidative stress, and hormonal imbalances. Most bromide exposure arises from contaminated food, beverages, and certain consumer products.

7. Non-canine patients

Bromide exhibits its most significant and well-known interaction with chloride, which in turn is influenced by the patient’s diet. The combination of bromide with levetiracetam did not result in any significant recorded pharmacokinetic interaction. Due to bromide’s long elimination half-life, timing of blood sample collection after oral administration is not critical, although samples collected more than 2 h after dosing should help avoiding peak effect variability (35).

Primary Sources of Bromide Exposure

On the other hand, Pu/Pd is a commonly reported adverse effect in the clinical experience of one of the authors (GBC). Polyphagia can be severe to lead to garbage and foreign body ingestion, leading to secondary complications (44, 63). Doses between 30 and 40 mg/kg/day can be adequate when using bromide in monotherapy (11, 51, 52). The unchanged halide of bromide is eliminated in the urine after being filtered from the bloodstream at the level of the glomerulus (39). GABA release, binding, transport or metabolism, however, does not appear to be affected by acute or chronic exposure to bromide (34). This facilitates its intracellular accumulation in the neurons and increased gamma-aminobutyric acid (GABA) inhibition due to hyperpolarization of the membrane (29–32).

Adverse effects affecting the patient’s skin also became well recognized, with the development of cutaneous eruptions (bromoderma) that added significant morbidity to human patients treated with this medication (22). Despite the lack of any randomized studies at that time, the available clinical data is considered enough to name bromide as the first effective ASM, marking the beginning of the modern treatment of human epilepsy (19). In the United States potassium bromide (KBroVet-CA1) and phenobarbital (Fidoquel-CA1) are currently the only two medications that received conditional approval by the Food and Drug Administration (FDA) in January 2021 and September 2023, respectively (9, 12).

The use of antiseizure medications (ASMs) is the current mainstay for the treatment of epilepsy. In addition to this, seizure frequency might increase overtime in untreated patients suffering from idiopathic epilepsy, emphasizing another possible advantage of initiating treatment in a timely fashion (Table 1) (7, 10). In veterinary medicine, bromide continues to be used in the management of epileptic patients for over 30 years, yet adverse effects can impact owners and patients alike. When potassium bromide is dissolved in water, it has a sweet flavour at low concentrations, a bitter flavour at medium concentrations, and a salty flavour at high concentrations. It has been the only anticonvulsant medication for certain humans and canine patients with hepatic impairment in recent years. This combination offers a unique and promising approach to reducing the adverse effects of bromide toxicity by addressing both gut health and oxidative stress.

Final Thoughts on Bromide Detoxification

The author(s) declared that they were an editorial board member of Frontiers, at the time of submission. The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest. The author(s) declare that no financial support was received for the research, authorship, and/or publication of this article. Studies assessing bromide efficacy are also (and should continue to be) limited due to this (41, 62). The value of monitoring the patient’s triglyceridemia in preventing or anticipating signs of pancreatitis is also unknown and could reveal an interesting field for future studies.

Evidence regarding the frequency of polyuria and polydipsia (Pu/Pd) in dogs treated with bromide is controversial. However, cats may develop an eosinophilic bronchitis which makes bromide use in cats not advisable, what also limits the current available studies in this species (62). Longer loading periods with more fractioned dosages might reduce the risk of gastrointestinal signs (44). Only 5% of the patients in this study vomited during the loading period, without this being impeditive to finish the loading protocol (14). This approach results in a total loading dose of 625 mg/kg by the end of the 5-day period (51). Due to bromide’s long elimination half-life, dosing can be performed only once daily, what might help increasing owner’s compliance (44).

Despite this, bromide tolerance seems to vary among individuals and, as a result, cases of toxicosis were also reported with low serum concentrations (40). Bromide toxicosis (bromism) appears to be dose-dependent and linked to high serum bromide concentrations (63, 68). Dermatologic adverse effects are only rarely reported in canine patients and do not appear to be a significant problem in patients receiving bromide therapy (63). Podell and Fenner (23) reported Pu/Pd in 13 out of 23 dogs receiving potassium bromide in combination with phenobarbital (23).

Care should be taken while administering intravenous fluid therapy and this should be performed in association with serial monitoring of serum bromide concentrations (68). In cases where bromide is given in association with phenobarbital, a decrease of 10–30% of the dosage of phenobarbital can reduce the severity of neurological adverse effects in a few days. Serum bromide concentrations should be regularly assessed to identify possible changes in concentration trends and allow intervention before the development of signs of bromism or breakthrough seizures (68).

Although Trepanier (28) reported doses between 50 and 80 mg/kg/day to be possibly needed in some patients treated with bromide alone, the authors believe these doses are most likely excessively high and not indicated in most patients. Sodium bromide (NaBr) constitutes an alternative, less common formulation that can also be used in veterinary patients. As with any medication, a steady-state serum concentration is reached after about four to five eliminations half-lives of regular administration (43). Elimination half-life is variable and reported between 15 (40) and 46 days in dogs (35), approximately 11 days in cats (41) and 12 days in humans (42).

While selenium, probiotics, and iodine all offer valuable support against bromide toxicity, their effectiveness and safety depend on your individual health status. Optimal iodine supplementation has also been linked to improved antioxidant status, particularly in pregnant women and those managing chronic health conditions (Vidal et al., 2014). It is particularly beneficial for thyroid health, an area often compromised by bromide exposure. Iodine, particularly in its iodide form, is another essential nutrient that can combat bromide toxicity by promoting antioxidant activity and reducing oxidative stress. The innovative use of probiotics paired with selenium nanoparticles has recently gained attention for their dual benefits in tackling inflammation and oxidative stress.

Since bromide is still used in veterinary medicine in the United States, veterinary diagnostic labs can routinely measure blood bromide levels. The half-life of bromide in the human body (12 days) is long compared with many pharmaceuticals, making dosing challenging to adjust. This use gave the word “bromide” its colloquial connotation of a comforting cliché.

A study by Woody et al. (79) showed that, in human patients, the degree of pseudohyperchloremia could be used as an indirect method to assess bromide serum concentration in a quicker manner (79). Prospective dose titrating studies are still currently lacking, and it is possible for adequate seizure control to occur with concentrations below those of the expected therapeutic range. Similarly, Trepanier et al. (27) found serum concentrations between 810 and 2,400 mg/L to be adequate when bromide was used in association with phenobarbital, and 880–3,000 mg/L when bromide was used in monotherapy.