Lead Toxicity


Article Author:
Laurie Halmo


Article Editor:
Thomas Nappe


Editors In Chief:
Dustin Constant
Donald Kushner


Managing Editors:
Orawan Chaigasame
Carrie Smith
Abdul Waheed
Frank Smeeks
Kristina Soman-Faulkner
Benjamin Eovaldi
Radia Jamil
Sobhan Daneshfar
Saad Nazir
William Gossman
Pritesh Sheth
Hassam Zulfiqar
Navid Mahabadi
Steve Bhimji
John Shell
Matthew Varacallo
Ahmad Malik
Mark Pellegrini
James Hughes
Beata Beatty
Hajira Basit
Phillip Hynes


Updated:
4/17/2019 8:44:40 PM

Introduction

Humans have been using lead for a variety of applications since millennia, and concomitant with this use has developed an ancient recognition of the adverse effects of lead on the human body. As early as the second century BCE, physicians understood the link between lead exposure and neurocognitive disease,[1] and some scholars have wondered whether the extensive use of sapa, a syrup of unfermented grape juice reduced in a leaded vessel and used as a preservative for wine, may have contributed to the downfall of the Roman Empire.[2] Though lead became a common occupational toxin with the birth of the Industrial Revolution, by the end of the 19-century childhood lead poisoning secondary to exposure to lead-based paints was beginning to be recognized.[1] As the 20 century progressed, so did the appreciation for increasingly subtle and even subclinical manifestations of lead toxicity. Today, healthcare providers and public health officials must grapple with the mounting evidence implicating lead as a potent neurotoxin with measurable negative effects on cognition at vanishingly low blood lead concentrations in the face of the difficulties surrounding the feasibility of completely eliminating lead from children’s environment.

Etiology

Because lead is not biodegradable, it demonstrates remarkable environmental persistence.[3] Despite the fact that the amount of lead in paint intended for use in or on residential buildings, furniture, or children’s toys in the United States has been restricted to 0.06% since 1978 and was further reduced to 0.009% in 2008, lead-based paint continues to be a major source of lead exposure in young children.[4] This is partially due to the fact that several million young children in the United States live in older homes in which lead-based paint was previously used, and as this old paint ages, it peels, flakes, and crumbles into dust that settles on the interior surfaces of homes and in the soil surrounding the exterior of the home.[5] The dust and soil containing these tiny paint particles inevitably make their way into children’s mouths as a result of normal childhood exploratory hand-to-mouth behavior.

Another ubiquitous potential source of lead is tap water, typically secondary to the presence of lead in plumbing. Though the US Environmental Protection Agency (EPA) banned the use of lead in pipes and solder used for plumbing in 1986, up to 10 million homes are still thought to be served by lead service lines.[4][5] In many countries outside the United States where leaded gasoline is still available, lead-contaminated air from emissions is a major source of exposure. This is because the emissions contaminate soil used to grow the food supply, and even though leaded gasoline was phased out of the US in the 1970s, the lead content in the soil in urban areas with historically high leaded gasoline emissions remains elevated.[4]

A variety of occupations and hobbies may expose adults to lead, and working parents may inadvertently bring lead home where they can expose their children second-hand. Some of the highest risk occupations and hobbies include metal welding, battery manufacturing, and recycling, shipbuilding and shipbreaking, firing range use or instruction as well as bullet salvaging, lead smelting and refining, painting and construction work, and pipe fitting and plumbing.[4][6] Finally, a variety of other less ubiquitous exposures have nonetheless been implicated in both children and adults with elevated lead concentrations, including contaminated pewter and ceramic dining ware, imported spices and cosmetics, folk remedies, and ingestion of lead foreign bodies and retained leaded bullets.[4][7]

Epidemiology

Approximately 535000 children between 1 and 5 years of age have an elevated blood lead concentration, defined by the Advisory Committee on Childhood Lead Poisoning Prevention of the Centers for Disease Control and Prevention (CDC) as greater than or equal to 5mcg/dL based on the 97.5 percentile of blood lead concentrations in the most recent National Health and Nutrition Examination Survey (NHANES) dataset.[4][8] Prevalence rates of children under 1 year of age with elevated blood lead concentrations are consistently lower than those in the 1 to 4 year age group, likely because lead is a cumulative toxin and because young children are more mobile and overall have more hand-to-mouth behavior compared to infants. In 2014 (the most recent data published by the CDC), for example, there were 444.5 per 100000 children aged 1 to 4 years in the US with a blood lead concentration of 5 to 9 mcg/dL, compared to 148.5 per 100000 children under 1 year of age in the US with a blood lead concentration in that same range. Rates of blood lead concentrations over 10mcg/dL are much lower: in 2014, 50.66 per 100000 children ages 1 to 4 years and 19.9 per 100000 children under 1 year of age had a blood lead concentration greater than 10mcg/dL.[8] In general, the rates of adults with elevated blood lead levels also tend to be relatively low; in 2013, 20.4 per 100 000 employed adults (defined as at least 16 years old) had a blood lead concentration over 10mcg/dL.[9]

Pathophysiology

Broadly speaking, lead interacts with human physiology in two significant ways: it has a strong affinity for sulfhydryl groups and electron donor groups in general, such that lead ends up bound to and affecting a wide range of proteins. Because of its similarity to other divalent cations like calcium and zinc, it interferes with the vast array of cellular mechanisms that are regulated by and mediated by these cations.[3] Because of the ubiquity of electron donor groups and divalent cations throughout the human body, the pathophysiology of lead toxicity is quite complex and involves virtually every organ system.

From a neurologic perspective, lead is thought to undermine the normal synaptic pruning process in young brains, likely underlying the cognitive and behavioral changes seen in young children with excessive lead exposure.[10] Peripheral neuropathy is a common manifestation of chronic lead toxicity in adults, but the mechanism underlying its development is poorly understood. The most severe neurologic manifestations of lead toxicity such as seizures and coma occur in acute lead encephalopathy, which is thought to be at least in part secondary to lead-induced cerebral microvascular changes leading to cerebral edema and resultant increased intracranial pressure.[11]

From a hematologic perspective, lead causes anemia by interfering with the function of several enzymes involved in heme synthesis as well as enzymes involved in maintaining erythrocyte cell membrane integrity, which leads to decreased production and increased destruction of erythrocytes, respectively.[3] The classic appearance of basophilic stippling is thought to represent clumps of degraded RNA, which is normally cleared by an enzyme known as pyrimidine-5’-nucleotidase that is inhibited by lead.[12]

From a renal perspective, lead can induce a global proximal tubule dysfunction leading to a Fanconi-like syndrome, and lead also competes with uric acid for excretion in the distal tubule, leading to higher blood concentrations of urate, which ultimately gets deposited as urate crystals in joints and is the mechanism underlying so-called “saturnine gout.” Lead is also known to be associated with the development of hypertension and subsequent cardiovascular disease; the mechanism is likely multifactorial and may involve increasing serum renin concentrations and activity as well as the development of neuropathy of the peripheral autonomic nervous system.[3][13] Lead also has a multitude of effects on the endocrine system, including impairing thyroid function, growth and skeletal development, and reproduction. Finally, though the mechanism remains poorly understood, lead is very clearly associated with GI symptoms such as abdominal pain, constipation, and anorexia.[3]

Toxicokinetics

An important feature of the toxicokinetics of lead is the differential absorption, distribution, metabolism, and elimination of lead in young children compared to adults. In both adults and children, lead is primarily absorbed via the lung (inhalation) and GI tract (ingestion). While pulmonary absorption is reasonably efficient in both age groups (about 40%), children inhale more air relative to their body size than adults do, placing them at proportionally higher risk. Children generally absorb about 40 to 50% of the lead they ingest, while adults only absorb about 10 to 15%. The GI absorption of lead is also higher in those individuals with concomitant iron, calcium, or zinc deficiency, which tend to plague young children more often than adults.[14][15] Rarely, lead absorption may occur from the soft tissues in cases of embedded lead foreign bodies, such as retained lead bullets.[7] Of note, lead readily crosses the placenta.[16]

Once the lead is absorbed, it binds to red blood cells and distributes into two major compartments: the bone and the soft tissues. The soft tissue compartment includes the liver, kidneys, bone marrow, and brain, and is relatively labile compared to the more stable bone compartment. In adults, nearly the entire body burden of lead; about 85 to 95% - is stored in the stable bone compartment, whereas only about 70% of the body burden of lead storage is in bone in children. Children are thus again at greater risk of developing manifestations of lead toxicity because more of their lead body burden is stored in metabolically active sites, rather than in relatively inert bone.[3][17] A portion of the absorbed lead does not get incorporated into either of these compartments and ultimately gets excreted via the urine and bile; the excreted fraction is higher in adults than children, again putting children at greater risk of toxicity.[18]

History and Physical

The clinical manifestations of lead toxicity vary depending on the dose and chronicity of exposure. In the US, hundreds of thousands of children have elevated blood lead concentrations, but the vast majority of them are asymptomatic, meaning they have no overt clinical or laboratory findings that would indicate toxicity aside from the lead concentration itself. The primary concern in this group is that multiple meta-analyses have demonstrated that, even at low blood lead concentrations, there is an inverse relationship between blood lead concentrations and intelligence quotient (IQ) scores and markers of academic achievement. Especially worrisome is the finding that the dose-response curve is steeper at lower blood lead concentrations, meaning that the number of IQ points lost per unit increase in blood lead concentration is higher in the 1 to 10mcg/dL lead range than in the 10 to 20mcg/dL range.[19][20]

As the dose and duration of exposure increase children may develop nonspecific signs and symptoms often dismissed as typical toddlerhood maladies, such as irritability (tantrums), constipation and abdominal pain (often attributed to poor dietary choices or lack of fiber), and anorexia (often perceived as picky eating). Adults also demonstrate similar nonspecific signs and symptoms, and because of the likely longer duration of exposure, may additionally develop hypertension, associated cardiovascular disease, and adverse effects on fertility. As concentrations continue to increase in adults, many of them will go on to develop further evidence of toxicity such as peripheral neuropathy and arthritis secondary to saturnine gout.[3][21]

Eventually, if lead exposure continues, patients develop much more dramatic features of severe plumbism. In children, acute lead encephalopathy characteristically presents as unusual behavior, developmental regression, ataxia, vomiting, seizures, and at times, cerebral edema and resultant increased intracranial pressure, coma, and death. Generally, this syndrome occurs in children with extremely elevated blood lead concentrations (above 70 to 100 mcg/dL). Adults with extremely high blood lead concentrations also demonstrate similar neurologic findings, including encephalopathy, confusion, headaches, seizures, and obtundation. Generally, such severe lead toxicity does not occur in adults from occupational exposures but rather from unusual exposures such as large ingestions of contaminated folk remedies or contaminated moonshine.[3][10][11][21]

Evaluation

Pediatric screening guidelines for lead varies from state to state because the prevalence of lead toxicity tends to be higher in older urban areas, but regardless, the Early Periodic Screening, Diagnosis, and Treatment (EPSDT) component of Medicaid requires that all children with Medicaid obtain screening at 12 and 24 months. It also requires all children between 3 and 5 years of age to be screened if they have not previously had screening.[22] Also, the Occupational Safety and Health Administration (OSHA) requires employers to implement medical surveillance (i.e., lead screening) for any employee who may suffer exposure to airborne lead in concentrations exceeding 30 mg/minute averaged over eight hours for more than 30 days per year.[23] Screening is generally done with capillary blood because it is faster and more convenient to obtain, but any elevated result from capillary blood (i.e., over 5 mcg/dL) should have confirmation with a whole blood venous sample. In patients with a confirmed elevated whole blood venous lead, additional screening labs aimed at assessing iron status and anemia are necessary, and an abdominal X-ray should be a consideration if the patient may have ingested a lead-containing foreign body (such as paint chips, a bullet, or a fishing weight, for example). As with all patients in whom the toxin-mediated disease is suspected, the evaluation should include a thorough history and physical exam. In the case of lead exposure, in particular, a detailed exposure history should be sought, with specific attention paid to occupation and hobbies (of the patient, in the case of an adult, or parents/caregivers, in the case of a child), home environment (for example, the age of the home, any recent renovations or repairs) and food and water sources.[4][23]

Treatment / Management

The most aspect of management in a patient with an elevated blood lead concentration is identifying the source of lead and removing it from the patient’s environment. Many county and state health departments employ individuals who can assess the home environments of children found to have elevated blood lead concentrations and assist in identifying the likely source. Patients with ingested foreign bodies should be monitored for the passage of the foreign body and should receive laxatives or cathartics if required to assist the object in passing, and those who have had massive ingestions may warrant whole bowel irrigation. Surgery should be a consideration for those with retained lead bullets. Additionally, optimizing the patient’s nutritional status is paramount, with particular attention to ensuring adequate iron, calcium, and zinc intake. Those who are found to have decreased iron stores should also begin iron therapy to replete their stores.[4][23]

Children with a blood lead concentration higher than 45mcg/dL, adults with a blood lead concentration of over 70 to 100 mcg/dL, or any patient with lead encephalopathy (which is usually accompanied by a markedly elevated blood lead concentration) should undergo chelation therapy under the direction of a medical toxicologist.[4][23] A variety of chelating agents alone or in combination can be used depending on the severity of clinical presentation and the patient’s blood lead concentration, including succimer, calcium disodium ethylenediaminetetraacetic acid (EDTA), and British anti-Lewisite (BAL, also known as dimercaprol). It is critical to understand that chelators are slow and inefficient in their ability to reduce the total body burden of lead and in some situations can potentially be harmful because they can mobilize lead from the relatively stable bone compartment to the relatively labile soft tissue compartment, where more acute toxicity occurs.[24] As such, aggressive supportive care for severely symptomatic patients is paramount even during the administration of chelation therapy.

Differential Diagnosis

As discussed in previous sections, the vast majority of individuals with elevated blood lead concentrations will have no clinical manifestations of plumbism. Those with mild symptoms often get misdiagnosed because their symptoms are so nonspecific. As such, lead toxicity should merit consideration in the differential of children presenting with behavioral problems (the so-called “difficult child”) as well as those presenting with nonspecific GI complaints such as constipation, abdominal pain, or picky eating. Realistically, these types of complaints are so common in toddlerhood that relatively few are likely secondary to lead, but blood testing for lead is so simple that it should not be overlooked, particularly because these symptoms can be the harbinger of much more severe toxicity if the child continues to be exposed to lead. Similarly, many children with anemia secondary to lead toxicity are also at risk for iron deficiency anemia, and lead’s role in precipitating anemia may easily be overlooked. Adults with peripheral neuropathy may present with symptoms mimicking carpal tunnel syndrome, and the underlying etiology in those with saturnine gout may not be appreciated, especially if the patient is an older male with a high purine diet (the prototypical patient who develops gout unrelated to lead toxicity). Patients with severe plumbism and especially those with lead encephalopathy may clinically look like patients with infectious or autoimmune encephalitis; again, though these cases are rare, blood lead testing is so ubiquitously available that it should not be overlooked.

Prognosis

Despite the importance of minimizing ongoing lead exposure for patients who have elevated blood lead concentrations but are asymptomatic, evidence that mitigating ongoing exposure will reverse or improve the damage that was done, especially in terms of subtle neurocognitive changes in children, is lacking.[25] Patients with mild to moderate symptoms may experience improvement or resolution of some symptoms, such as abdominal complaints and malaise, while others, such as growth parameters in children, fail to improve.[26][27] The mortality rate associated with acute lead encephalopathy before the advent of chelation therapy was approximately 65%, which dropped to under 5% with the advent of combination therapy with BAL and calcium disodium EDTA.[28][29] However, the advent of chelation therapy also coincided with dramatic improvements in critical care, such that it is not clear that chelation alone accounts for this improvement in survival. Even in the post-chelation era, many patients who are treated for acute lead encephalopathy and survive will have permanent neurologic sequelae such as intellectual disability, hemiparesis, and seizure disorders.[29]

Complications

The most widespread complication related to elevated blood lead concentrations aside from the collective loss of IQ points is the burden of cardiovascular morbidity and mortality linked to hypertension associated with lead exposure.[30] Patients with mild symptoms may experience subtle complications that can go unnoticed, such as secondary nutritional deficiencies attributable to poor intake because of chronic or recurrent abdominal pain. As patients become more symptomatic, there is an increasing number and severity of potential complications. Patients requiring ICU-level care because of acute lead encephalopathy and possibly increased ICP are at risk of developing the same complications that plague critically ill patients in general, such as line-associated infections and ICU delirium. Complications related to chelation therapy itself include the possibility of inducing a trace mineral deficiency by chelating metals other than lead and the possibility of mobilizing lead from the relatively stable bone compartment to the relatively labile soft tissue compartment as described above. Chelator-specific adverse effects and complications include GI upset (succimer and BAL), nephrotoxicity (potentially secondary to calcium disodium EDTA), and fever, hypertension, and tachycardia (BAL), among others.[24]

Enhancing Healthcare Team Outcomes

Caring for patients with an elevated blood lead concentration requires the cooperation of a large number of interprofessional individuals. Even in the simplest case of an asymptomatic patient with an elevated blood lead level, identifying and mitigating the source of lead may require the participation of the patient, family, primary care physician, nurse practitioner, teachers or daycare providers (in the case of a child), the employer in the case of an adult, state or local health department officials, industrial hygienists, and abatement professionals. It is extremely important for children with evidence of possible neurocognitive or behavioral changes to undergo formal assessments to see if they qualify for services such as speech therapy, occupational therapy or behavioral therapy and additionally, in the case of a school-age child, if they qualify for an individualized education plan (IEP) or a 504 plan. In these cases, other ancillary professionals such as nurses and therapists might come into the patient’s care. Many patients would also benefit from formal nutritional assessments and counseling by a nutritionist or dietician. If patients are overtly symptomatic or may require chelation therapy, consultation with a medical or clinical toxicologist a strong recommendation, and patients with severe toxicity will likely require ICU level care under the direction of a pediatric or adult intensivist.


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Lead Toxicity - Questions

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A 7-year-old child presents with a gait problem and severe learning disability. The mother claims that the child had no problems at birth. However, after moving into a new house, she noticed that the child developed recurrent abdominal cramps. This was followed by poor attention span and learning difficulties. Which of the following can be used to determine the cause?



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A 7-year-old child living in a poverty-stricken neighborhood undergoes a variety of hematology tests. The hematology notes that he has a presence of Cabot rings on a stained red cell smear. What is the likely cause?



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An 8-year-old boy who lives in an old house with flaking paint presents with irritability, ataxia, and microcystic hypochromic anemia with basophilic stippling of erythrocytes. What is likely the cause of these symptoms?



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An adult female who has had a turbulent relationship with her husband presents with numerous complaints including headaches, confusion, and impaired concentration. The physical exam shows the presence of a thin, grey-blue line along the margins of the gums at the base of the teeth. What does this finding suggest?



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A child presents with a gait problem and severe learning disability. The mother claims that the child had no problems at birth but after she moved into her new house, she noticed that the child developed recurrent abdominal cramps. Soon this was followed by poor attention span and learning difficulties. What is the first test of choice to determine the cause?



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A 7-year-old child with markings on his gums, an inability to extend his wrist, and a peripheral smear showing basophilic stippling is ideally treated with which of the following pharmacologic agents?



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Which of the following is a symptom of lead toxicity?



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A 5-year-old patient's mother is concerned about lead poisoning. The patient has a normal physical exam and attends kindergarten. Which of the following would put the child at the lowest risk?



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Which of the following conditions is known to cause raised intracranial pressure?



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Which of the following heavy metals is a relatively common cause of neurotoxic neuropathy?



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Which of the following is least likely an effect of elevated blood lead levels?



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Which of the following is not true regarding management of lead poisoning in children?



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A five-year-old child is brought in by his parents for severe abdominal pain, vomiting, and constipation. According to the parents, the child seems more sluggish and tired than usual. Bluish discoloration of the gum line is seen. What type of anemia and findings on peripheral smear would be expected?



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Which of the following nutritional supplements is considered beneficial in children with lead poisoning?



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Which of the following is the most appropriate management of patients with a lead level of greater than 70 mcg/dL?



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Which of the following is a common route of exposure to lead in the United States?



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A child presents with a gait problem and a severe learning disability. The mother claims that the child had no problems at birth; but after she moved into her new house, she noticed that the child developed recurrent abdominal cramps. This was followed by poor attention span and learning difficulties. Which of the following would be the first test of choice to determine the cause?



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A child was diagnosed with lead toxicity after presenting to the emergency department with seizures. The lead level was 80 mcg/dL. What is the next step in management?



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Which is the most important treatment for an individual with symptoms of lead toxicity?



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Which of the following is not a chelator used in the treatment of lead toxicity?



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Which of the following groups should be screened for lead toxicity?



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A 5-year-old patient's mother is concerned about lead poisoning. The patient has a normal physical exam and attends kindergarten. Which of the following would put the child at the lowest risk for lead poisoning?



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Which of the following is the least effective precaution a parent, teacher or child care worker can take to prevent lead poisoning?



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Which of the following agency regulates environmental lead through seven principal statutes: the Toxic Substances Control Act (TSCA), the Resource Conservation and Recovery Act (RCRA), the Comprehensive Environmental Response, Compensation and Liability Act (CERCLA), the Clean Air Act (CAA), the Clean Water Act (CWA), the Safe Drinking Water Act (SDWA), and the Emergency Planning and Community Right to Know Act (EPCRA)?



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Which combination of signs and symptoms best describes chronic exposure to toxic levels of inorganic lead?



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A 6-year-old boy is brought in by his mother for a routine checkup. He is asymptomatic, and his mother has no specific concerns about her son's health. There are no concerning findings on the physical examination. His vital signs are pulse 100, respiratory rate 18, temperature 99.1 degrees F, blood pressure 86/66 mmHg, and oxygen saturation of 98 percent on room air. The family lives in a house that was built in 1929 and is currently undergoing renovation. Capillary blood reveals a hemoglobin of 11.8 mg/dl. A venous lead level is drawn and comes back at 28 mcg/dL. Which of the following complications of lead toxicity is the patient most likely to experience?



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A 6 year-old boy is brought in by his mother to the clinic for a routine checkup. He is asymptomatic, and his mother has no specific concerns about her son's health. There are no concerning findings on the physical examination. His vital signs are: pulse 100, respiratory rate 18, temperature 99.1F, blood pressure 86/66 mmHg, and oxygen saturation of 98 percent on room air. The family lives in a house that was built in 1929 and is currently undergoing renovation. Capillary blood reveals a hemoglobin of 11.8 mg/dl. A venous lead level is drawn and comes back at 28 mcg/dL. Which of the following complications of lead toxicity is the patient most likely to experience?



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Lead Toxicity - References

References

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