Latex Allergy Treatments

Introduction

Background: Allergy to natural rubber latex is increasingly common and serious in children and adults. Latex is the milky fluid derived from the lactiferous cells of the rubber tree, Hevea brasiliensis. It is composed primarily of cis-1,4-polyisoprene, a benign organic polymer that confers most of the strength and elasticity of latex. It also contains a large variety of sugars, lipids, nucleic acids, and highly allergenic proteins.

More than 200 polypeptides have been isolated from latex. Latex proteins vary in their allergenic potential. Protein content varies with harvest location and manufacturing process. Basic knowledge of the manufacturing processes aids in understanding the medical problems related to latex exposure.

Freshly harvested latex from Malaysia, Indonesia, Thailand, and South America is treated with ammonia and other preservatives to prevent deterioration during transport to factories. Latex is treated with antioxidants and accelerators including thiurams, carbamates, and mercaptobenzothiazoles. It is then shaped into the desired object and vulcanized to produce disulfide cross-linking of latex molecules.

After being dried and rinsed to reduce proteins and impurities, the product frequently is dry-lubricated with cornstarch or talc powder. Powder particles rapidly adsorb residual latex proteins; other proteins remain in soluble form on the surface of finished products.

Latex is ubiquitous in modern society and particularly in health care. William Halstead first used latex surgical gloves in 1890. Latex has been used in a myriad of medical devices for decades. In the late 1980s, however, its use skyrocketed as latex gloves were widely recommended to prevent transmission of blood-borne pathogens, including the human immunodeficiency virus (HIV). Billions of pairs of medical gloves are imported to the United States in annually, often as powdered, nonsterile examination gloves.

In the 1980s and 1990s, heightened demand for latex to manufacture gloves and other objects resulted in hundreds of new, poorly regulated latex factories in tropical countries. The incidence of minor and serious allergic reactions to latex began to rise rapidly among patients and health care workers (HCWs). Latex sensitization can occur after skin or mucosal contact, after peritoneal contact during surgery, and possibly after inhalation of aerosolized particles with latex on their surfaces.

Pathophysiology: Latex exposure is associated with 3 clinical syndromes.

The first syndrome is irritant dermatitis. It is a result of mechanical disruption of the skin due to the rubbing of gloves and accounts for the majority of latex-induced local skin rashes. It is not immune mediated, is not associated with allergic complications, and is not the subject of this article. It may be confused with Type IV hypersensitivity. Any chronic hand dermatitis in HCWs raises the risk of nosocomial infections, including blood-borne pathogens.

The second syndrome is a delayed (type IV) hypersensitivity reaction, resulting in a typical contact dermatitis. Symptoms usually develop within 24-48 hours of cutaneous or mucous membrane exposure to latex in a sensitized person. The primary allergens are residual accelerators and antioxidants left from the original manufacturing process. Langerhans cells process the antigens and present them to cutaneous T cells. Multiple objects can cause sensitization, but the most common sources in this country are probably examination gloves for adults and shoe soles for children. Type IV hypersensitivity is more common in atopic individuals. The dermatitis may predispose patients to further sensitizations or infections.

The third, most serious, and least common syndrome is immediate (type I) hypersensitivity. It is mediated by an immunoglobulin E (IgE) response specific for latex proteins. As noted, latex proteins are highly allergenic, and they are variable between lots from different plantations, factories, and manufacturers. Cross-linking of IgE molecules on mast cell and basophil cell membranes by latex protein allergens triggers the release of histamine and other mediators of the systemic allergic cascade in sensitized individuals.

Exposure can occur following skin, mucous membrane, or visceral/peritoneal contact. It also can follow inhalation of latex-laden particles or bloodstream exposure to soluble latex proteins following intravascular access procedures. Powdered latex examination gloves have been the most frequent source of sensitization in adults, causing cutaneous and inhalational exposures. (Fortunately, their use is decreasing as many hospitals move toward powder-free, "low-allergen," or nonlatex glove products.)

Sensitization is more common in atopic individuals. Symptoms generally begin within minutes of exposure. The spectrum of clinical manifestations includes localized or generalized urticaria, rhinitis, conjunctivitis, bronchospasm, laryngospasm, hypotension, and full-blown anaphylaxis. Type I allergy has been implicated clearly in intraoperative and intraprocedure anaphylaxis, and it can be fatal without emergent treatment.

Frequency:

• In the US: Latex allergy is present in 1-5% of the general population, with an increased prevalence in atopic individuals. Latex allergy is increased in populations with chronic occupational exposure to latex. It is found in 2-17% of HCWs and in at least 10% of rubber industry workers. Symptoms of latex allergy have been described in 14% of a group of EMS providers and in 54% of a pediatric ED staff. Atopy raises the risk of occupational sensitization.

  The highest prevalence of latex allergy (20-68%) is found in patients with spina bifida or congenital urogenital abnormalities. Sensitization in these patients apparently follows multiple urinary tract, rectal, and thecal procedures, as well as multiple surgeries during early childhood. Patients with spina bifida also may have a genetic predisposition for latex sensitization. Patients with spina bifida and human leukocyte antigen (HLA) alleles DRB and DQB1 were more likely to have a specific IgE response to a common latex antigen. Again, within this risk group, atopic children are at increased risk.

  Other patients with a history of multiple surgeries or other latex-exposing procedures are also at increased risk relative to the general population. Patients with cerebral palsy, mental retardation, or quadriplegia also appear to have increased risk of latex allergy, probably because of repeated medical exposures.

  Finally, the prevalence of latex allergy is increased in persons with allergies to avocado, banana, chestnut, kiwi, papaya, peach, or nectarine. Cross-reacting antigens have been found between these tropical fruits and latex.

• Internationally: The risk patterns described above are similar in other developed countries. One study from Germany suggests that the incidence of type I latex allergy has risen faster recently among HCWs than Type IV hypersensitivity, possibly due to recent manufacturing changes that lessen exposure to accelerators but not to latex proteins. Workers with occupational exposure during harvesting and/or processing latex in developing countries where H brasiliensis is grown have an increased risk relative to the general populations.

Mortality/Morbidity:

• Patients with type I hypersensitivity are at risk of developing anaphylaxis and/or respiratory obstruction, which can be fatal.

• Deaths have been reported following the intraoperative use of latex rectal catheters. Latex anaphylaxis has occurred after childbirth, instrumentation, intravenous injection, balloon blowing, and condom use.

• Although most patients can be treated effectively for type IV and type I reactions without clinical sequelae, major allergy may prevent them from pursuing certain careers, using many household and workplace objects, and seeking timely medical care due to justified fear of latex exposure.

Sex: Incidence in males and females is equal.

Age: Latex allergy probably is more common in children and in younger working adults because of the increased medical and/or occupational exposure over the past two decades.

Clinical

History: Symptoms of delayed (type IV) hypersensitivity usually develop within 1-2 days of exposure. Immediate (type I) hypersensitivity causes symptoms within minutes of exposure. Symptoms may include the following:

• Pruritus of exposed skin and mucous membranes

• Edema of the skin, mucous membranes, or subcutaneous tissues

• Hoarseness

• Tearing

• Rhinitis

• Dyspnea

• Lightheadedness, syncope

• Abdominal cramping

• Nausea, vomiting

• Diarrhea

Physical:

• Rash

• Angioedema

• Conjunctivitis

• Rhinitis

• Stridor

• Wheezing

• Hypotension, shock

Causes: The source of latex exposure may be obvious or occult. The history of latex allergy may be known or unknown. Individuals may be exposed to latex through their skin, mucous membranes, or airway (ie, oral, nasal, or endotracheal tissue). Medical procedures may cause reactions in sensitized providers or patients. Inadvertent inhalational exposure is frequent in medical settings where aerosolized latex-laden glove powder may remain airborne for hours. Inhalational exposure also may occur outside hospitals from use of powder-lubricated latex products or even tire particles in heavy traffic areas. Common sources of latex exposure include, but are not limited to, the following:

• Gloves (eg, examination, surgical, household)

• Tourniquets, blood pressure cuffs

• Stethoscopes

• Catheters

• Intravenous tubing ports, syringe plungers

• Electrode pads

• Goggles

• Respirators

• Wound drains and tubes

• Multidose vial tops

• Dental dams

• Tires

• Handgrips

• Carpeting

• Shoe soles, elastic in clothing

• Condoms, diaphragms

• Balloons

• Pacifiers, baby bottle nipples

• Erasers, computer mouse pads, and rubber bands

History: Symptoms of delayed (type IV) hypersensitivity usually develop within 1-2 days of exposure. Immediate (type I) hypersensitivity causes symptoms within minutes of exposure. Symptoms may include the following:

• Pruritus of exposed skin and mucous membranes

• Edema of the skin, mucous membranes, or subcutaneous tissues

• Hoarseness

• Tearing

• Rhinitis

• Dyspnea

• Lightheadedness, syncope

• Abdominal cramping

• Nausea, vomiting

• Diarrhea

Physical:

• Rash

• Angioedema

• Conjunctivitis

• Rhinitis

• Stridor

• Wheezing

• Hypotension, shock

Causes: The source of latex exposure may be obvious or occult. The history of latex allergy may be known or unknown. Individuals may be exposed to latex through their skin, mucous membranes, or airway (ie, oral, nasal, or endotracheal tissue). Medical procedures may cause reactions in sensitized providers or patients. Inadvertent inhalational exposure is frequent in medical settings where aerosolized latex-laden glove powder may remain airborne for hours. Inhalational exposure also may occur outside hospitals from use of powder-lubricated latex products or even tire particles in heavy traffic areas. Common sources of latex exposure include, but are not limited to, the following:

• Gloves (eg, examination, surgical, household)

• Tourniquets, blood pressure cuffs

• Stethoscopes

• Catheters

• Intravenous tubing ports, syringe plungers

• Electrode pads

• Goggles

• Respirators

• Wound drains and tubes

• Multidose vial tops

• Dental dams

• Tires

• Handgrips

• Carpeting

• Shoe soles, elastic in clothing

• Condoms, diaphragms

• Balloons

• Pacifiers, baby bottle nipples

• Erasers, computer mouse pads, and rubber bands

Differentials

Anaphylaxis
Angioedema
Asthma
Conjunctivitis
Dermatitis, Atopic
Dermatitis, Contact
Pediatrics, Anaphylaxis
Shock, Cardiogenic
Shock, Septic

Workup

Treatment

Prehospital Care:

• Prehospital providers should be aware of the risk of latex allergy in patients and providers.

• Search for and read MedicAlert-type bracelets.

• Note the patient's history of relevant allergies to medical devices or fruits.

• To rule out latex allergy that could worsen with further medical exposure, review the patient's history of activities/exposures immediately preceding any systemic allergic reaction.

• Use powder-free latex gloves or, ideally, high-quality nonlatex gloves to minimize risk to patients and providers. Latex-free resuscitation and intravenous (IV) access equipment should be available for high-risk patients. Do not give medication from rubber-topped multidose vials or through latex IV ports in latex-allergic patients.

Emergency Department Care: Patients with known or suspected latex allergy who seek care for unrelated medical conditions or injuries must be kept within a latex-safe environment to prevent serious complications. This includes all patients with spina bifida.

Patients presenting with frank symptoms of type I latex allergy are treated as any other patients with systemic allergic reactions, except they must be protected from further latex contact to avoid clinical deterioration. Many EDs represent very high-risk environments for latex-sensitive patients, particularly if powdered latex gloves are still in use.

• Latex-free resuscitation equipment must be available. This frequently is accomplished with a mobile, latex-free cart carrying nonlatex intubation and ventilation equipment, IV tubing, syringes, tourniquets, electrode pads, gloves, masks, and medication vials.

• Routine care of high-risk patients should use nonlatex supplies. Major reactions in sensitized patients have been precipitated with pelvic and rectal exams using latex gloves, urinary catheterization with latex catheters, IV medication given through latex ports, and inhalation of aerosolized latex glove powder.

• Consultants must be aware of the need to completely avoid latex exposure to the patient during examinations and procedures.

• Patients needing studies in other hospital areas, such as radiology, must be transported without risking latex exposure.

• Identification of latex versus nonlatex medical devices traditionally has required laborious contacts with individual manufacturers. Since 1999, the US Food and Drug Administration has required all manufacturers to apply warning labels to medical devices containing natural rubber latex. This regulation has helped to facilitate safe care of patients who are allergic to latex. In addition, medical device manufacturers have developed many latex-free alternatives for routine care and invasive procedures.

Consultations: Consultants must be aware of the need to scrupulously avoid exposing the patient to latex during exams and procedures.

Medication

Follow-Up

Further Inpatient Care:

• Patients with major latex allergies who are admitted for allergic complications or unrelated conditions must be moved to latex-safe rooms with clear warnings on doors and charts.

• All examinations and care must be done without use of latex-containing devices or equipment.

• All providers should be educated to avoid inadvertent exposure.

• Latex is the second most common cause of intraoperative anaphylaxis, which can be difficult to diagnose because of infrequent cutaneous signs and patients' inability to express symptoms. Known latex allergy or a history suggestive of major latex allergy should trigger the use of latex-free operating rooms and postoperative care.

Further Outpatient Care:

• Patients and their families should be educated to identify and avoid latex in home, work, and medical/dental settings.

• Patients should be referred to an allergist or primary care provider for follow-up.

• Patients should be aware of the life-threatening complications of anaphylaxis, bronchospasm, and laryngospasm.

• Patients with type I hypersensitivity should carry subcutaneous epinephrine kits at all times.

• Patients should obtain and wear a MedicAlert-type bracelet identifying their allergy.

• Patients should be aware of the risk of cross-reacting fruit allergies.

In/Out Patient Meds:

• See articles on Anaphylaxis, Angioedema, and Asthma for inpatient and outpatient medications.

DISCLAIMER: The information contained in this site is for educational purposes only, and should not be used as a substitute for personal care by a licensed physician. Please see your physician for diagnosis and treatment of any concerning symptoms or medical condition.

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