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MAUI, HAWAII – Desensitization is a powerful and effective tool in patients with certain types of hypersensitivity reactions to therapeutic monoclonal antibodies, but it’s best considered a last resort reserved for individuals with no options left other than the offending biologic, Anna Postolova, MD, said at the 2020 Rheumatology Winter Clinical Symposium.
Why so selective? Desensitization is considered a high-risk intervention. It’s typically done as an inpatient procedure involving an overnight hospital stay followed by an elaborate 12-step protocol involving administration of small quantities of the culprit biologic in ascending concentrations over a 5- to 6-hour period.
Moreover, for an intravenous agent, such as infliximab (Remicade), desensitization has to be repeated prior to giving every dose of the biologic. So it makes sense to skip desensitization and simply switch to an alternative tumor necrosis factor inhibitor or a different class of biologic unless experience has shown that the culprit monoclonal antibody is the only one that works for that patient. It’s known, for example, that infliximab has no crossreactivity with adalimumab (Humira), explained Dr. Postolova, a dual rheumatologist and allergist/immunologist at Stanford (Calif.) University.
Defining type and severity of the hypersensitivity reaction
Dr. Postolova favors the hypersensitivity reaction classification system developed by Mariana Castells, MD, PhD, and coworkers at Brigham and Women’s Hospital, Boston.
They divide the field into immediate and delayed hypersensitivity reactions. Immediate hypersensitivity reactions arise rapidly, between minutes and a few hours. They can be categorized as infusion reactions, cytokine-release reactions, and IgE-mediated reactions. Phenotypically, infusion reactions and cytokine-release reactions are typically characterized by various combinations of chills, fever, flushing, hypertension, tachycardia, nausea, vomiting, syncope, and shortness of breath.
IgE-mediated reactions can also involve flushing and shortness of breath, and in addition itch, urticaria, and hypotension. These are anaphylactic reactions. Neither hypertension nor fever is part of the anaphylactic picture; those findings point instead to an infusion reaction or cytokine-release reaction.
Most allergists grade reaction severity on a 1-3 scale. Grade 1 reactions are considered mild and involve symptoms limited to the skin, such as flushing, or a single other organ system.
“That being said, if my patient is having a reaction with bronchospasm, I consider that a moderate, grade 2 reaction, and I stop the infusion. There’s only so much you can do for bronchospasm. It’s a very serious reaction,” Dr. Postolova observed.
Grade 2 reactions ordinarily involve two or more organ systems, but without hypotension or cyanosis. Grade 3 reactions are severe anaphylactic reactions with cardiovascular and/or neurologic compromise.
Delayed hypersensitivity reactions are of two types: serum sickness–like reactions and type IV cell-mediated mucocutaneous reactions.
Type IV reactions can range from a mild maculopapular rash to erythema multiforme, Stevens-Johnson syndrome, toxic epidermal necrolysis, and DRESS (drug reaction with eosinophilia and systemic symptoms). Onset of type IV reactions can occur after 12 hours up to several weeks after exposure.
Serum sickness–like reactions typically begin 5-7 days after the infusion. These reactions are marked by evidence of immune overactivation: fever, arthralgia, arthritis, malaise, purpura, skin rash, and even renal failure.
Management of reactions
A patient with a grade 3 reaction who needs to continue using the culprit monoclonal antibody should be referred to an allergist for skin testing in an effort to identify an IgE-mediated reaction.
The timing of the referral for skin testing is important: The allergist wants to test roughly 4-6 weeks after the hypersensitivity reaction. Test too early and the results will be uninformative because the patient will still be anergic. On the other hand, after 7-8 weeks the patient will have lost the allergy. So there is a sweet spot.
If the patient is skin test positive – with the caveat that skin testing in this setting is not well validated – then the allergist will suggest desensitization, usually as an inpatient.
In contrast, infusion reactions can be handled in the rheumatologist’s infusion center. They are self-limited upon repeat exposure with premedication using antihistamines, NSAIDs, oral or injectable steroids, and perhaps montelukast (Singulair).
If a patient initially thought to have an infusion reaction continues to experience reactions even after the biologic is being delivered more slowly and under the protection of premedication, it’s time to consider the possibility that what’s really going on is a cytokine-release reaction or an IgE-mediated reaction. Diagnostic skin testing is in order.
For a skin test–negative patient with a suspected cytokine-release reaction, the allergist may propose a therapeutic challenge. This is reserved for patients who the allergist believe will not experience an immediate reaction, and unlike desensitization it’s not an intervention intended to induce drug tolerance. The challenge involves giving 10% of a full dose of the biologic, waiting in the allergist’s office for 30-60 minutes, then giving the other 90% of the medication, followed by an hour of in-office observation.
The solution to severe type IV delayed hypersensitivity reactions is strict medication avoidance, not desensitization, according to Dr. Postolova.
Top offending monoclonal antibodies
Infliximab and rituximab (Rituxan) are the most common culprits when it comes to immediate hypersensitivity reactions. About 10% of infliximab-treated patients develop these reactions. Although the reaction can occur with the first dose, the peak incidence is with the seventh infusion. Patients with anti-infliximab IgG antibodies are at 140%-300% increased risk; however, concomitant disease-modifying antirheumatic drug therapy lessens that risk.
Infusion reactions or cytokine-release reactions occur upon the first infusion of rituximab in about 25% of treated rheumatology patients and in a higher proportion of cancer patients. Most of these reactions are mild and don’t recur when the biologic is administered more slowly and with premedication. Severe recurrent reactions upon subsequent exposure are much more likely to be an IgE-mediated hypersensitivity reaction.
“Stop the medication, send the patient to your local allergist for skin testing, and they’ll use a desensitization protocol if rituximab is the best drug for your patient,” Dr. Postolova advised.
She reported having no financial conflicts regarding her presentation.
MAUI, HAWAII – Desensitization is a powerful and effective tool in patients with certain types of hypersensitivity reactions to therapeutic monoclonal antibodies, but it’s best considered a last resort reserved for individuals with no options left other than the offending biologic, Anna Postolova, MD, said at the 2020 Rheumatology Winter Clinical Symposium.
Why so selective? Desensitization is considered a high-risk intervention. It’s typically done as an inpatient procedure involving an overnight hospital stay followed by an elaborate 12-step protocol involving administration of small quantities of the culprit biologic in ascending concentrations over a 5- to 6-hour period.
Moreover, for an intravenous agent, such as infliximab (Remicade), desensitization has to be repeated prior to giving every dose of the biologic. So it makes sense to skip desensitization and simply switch to an alternative tumor necrosis factor inhibitor or a different class of biologic unless experience has shown that the culprit monoclonal antibody is the only one that works for that patient. It’s known, for example, that infliximab has no crossreactivity with adalimumab (Humira), explained Dr. Postolova, a dual rheumatologist and allergist/immunologist at Stanford (Calif.) University.
Defining type and severity of the hypersensitivity reaction
Dr. Postolova favors the hypersensitivity reaction classification system developed by Mariana Castells, MD, PhD, and coworkers at Brigham and Women’s Hospital, Boston.
They divide the field into immediate and delayed hypersensitivity reactions. Immediate hypersensitivity reactions arise rapidly, between minutes and a few hours. They can be categorized as infusion reactions, cytokine-release reactions, and IgE-mediated reactions. Phenotypically, infusion reactions and cytokine-release reactions are typically characterized by various combinations of chills, fever, flushing, hypertension, tachycardia, nausea, vomiting, syncope, and shortness of breath.
IgE-mediated reactions can also involve flushing and shortness of breath, and in addition itch, urticaria, and hypotension. These are anaphylactic reactions. Neither hypertension nor fever is part of the anaphylactic picture; those findings point instead to an infusion reaction or cytokine-release reaction.
Most allergists grade reaction severity on a 1-3 scale. Grade 1 reactions are considered mild and involve symptoms limited to the skin, such as flushing, or a single other organ system.
“That being said, if my patient is having a reaction with bronchospasm, I consider that a moderate, grade 2 reaction, and I stop the infusion. There’s only so much you can do for bronchospasm. It’s a very serious reaction,” Dr. Postolova observed.
Grade 2 reactions ordinarily involve two or more organ systems, but without hypotension or cyanosis. Grade 3 reactions are severe anaphylactic reactions with cardiovascular and/or neurologic compromise.
Delayed hypersensitivity reactions are of two types: serum sickness–like reactions and type IV cell-mediated mucocutaneous reactions.
Type IV reactions can range from a mild maculopapular rash to erythema multiforme, Stevens-Johnson syndrome, toxic epidermal necrolysis, and DRESS (drug reaction with eosinophilia and systemic symptoms). Onset of type IV reactions can occur after 12 hours up to several weeks after exposure.
Serum sickness–like reactions typically begin 5-7 days after the infusion. These reactions are marked by evidence of immune overactivation: fever, arthralgia, arthritis, malaise, purpura, skin rash, and even renal failure.
Management of reactions
A patient with a grade 3 reaction who needs to continue using the culprit monoclonal antibody should be referred to an allergist for skin testing in an effort to identify an IgE-mediated reaction.
The timing of the referral for skin testing is important: The allergist wants to test roughly 4-6 weeks after the hypersensitivity reaction. Test too early and the results will be uninformative because the patient will still be anergic. On the other hand, after 7-8 weeks the patient will have lost the allergy. So there is a sweet spot.
If the patient is skin test positive – with the caveat that skin testing in this setting is not well validated – then the allergist will suggest desensitization, usually as an inpatient.
In contrast, infusion reactions can be handled in the rheumatologist’s infusion center. They are self-limited upon repeat exposure with premedication using antihistamines, NSAIDs, oral or injectable steroids, and perhaps montelukast (Singulair).
If a patient initially thought to have an infusion reaction continues to experience reactions even after the biologic is being delivered more slowly and under the protection of premedication, it’s time to consider the possibility that what’s really going on is a cytokine-release reaction or an IgE-mediated reaction. Diagnostic skin testing is in order.
For a skin test–negative patient with a suspected cytokine-release reaction, the allergist may propose a therapeutic challenge. This is reserved for patients who the allergist believe will not experience an immediate reaction, and unlike desensitization it’s not an intervention intended to induce drug tolerance. The challenge involves giving 10% of a full dose of the biologic, waiting in the allergist’s office for 30-60 minutes, then giving the other 90% of the medication, followed by an hour of in-office observation.
The solution to severe type IV delayed hypersensitivity reactions is strict medication avoidance, not desensitization, according to Dr. Postolova.
Top offending monoclonal antibodies
Infliximab and rituximab (Rituxan) are the most common culprits when it comes to immediate hypersensitivity reactions. About 10% of infliximab-treated patients develop these reactions. Although the reaction can occur with the first dose, the peak incidence is with the seventh infusion. Patients with anti-infliximab IgG antibodies are at 140%-300% increased risk; however, concomitant disease-modifying antirheumatic drug therapy lessens that risk.
Infusion reactions or cytokine-release reactions occur upon the first infusion of rituximab in about 25% of treated rheumatology patients and in a higher proportion of cancer patients. Most of these reactions are mild and don’t recur when the biologic is administered more slowly and with premedication. Severe recurrent reactions upon subsequent exposure are much more likely to be an IgE-mediated hypersensitivity reaction.
“Stop the medication, send the patient to your local allergist for skin testing, and they’ll use a desensitization protocol if rituximab is the best drug for your patient,” Dr. Postolova advised.
She reported having no financial conflicts regarding her presentation.
MAUI, HAWAII – Desensitization is a powerful and effective tool in patients with certain types of hypersensitivity reactions to therapeutic monoclonal antibodies, but it’s best considered a last resort reserved for individuals with no options left other than the offending biologic, Anna Postolova, MD, said at the 2020 Rheumatology Winter Clinical Symposium.
Why so selective? Desensitization is considered a high-risk intervention. It’s typically done as an inpatient procedure involving an overnight hospital stay followed by an elaborate 12-step protocol involving administration of small quantities of the culprit biologic in ascending concentrations over a 5- to 6-hour period.
Moreover, for an intravenous agent, such as infliximab (Remicade), desensitization has to be repeated prior to giving every dose of the biologic. So it makes sense to skip desensitization and simply switch to an alternative tumor necrosis factor inhibitor or a different class of biologic unless experience has shown that the culprit monoclonal antibody is the only one that works for that patient. It’s known, for example, that infliximab has no crossreactivity with adalimumab (Humira), explained Dr. Postolova, a dual rheumatologist and allergist/immunologist at Stanford (Calif.) University.
Defining type and severity of the hypersensitivity reaction
Dr. Postolova favors the hypersensitivity reaction classification system developed by Mariana Castells, MD, PhD, and coworkers at Brigham and Women’s Hospital, Boston.
They divide the field into immediate and delayed hypersensitivity reactions. Immediate hypersensitivity reactions arise rapidly, between minutes and a few hours. They can be categorized as infusion reactions, cytokine-release reactions, and IgE-mediated reactions. Phenotypically, infusion reactions and cytokine-release reactions are typically characterized by various combinations of chills, fever, flushing, hypertension, tachycardia, nausea, vomiting, syncope, and shortness of breath.
IgE-mediated reactions can also involve flushing and shortness of breath, and in addition itch, urticaria, and hypotension. These are anaphylactic reactions. Neither hypertension nor fever is part of the anaphylactic picture; those findings point instead to an infusion reaction or cytokine-release reaction.
Most allergists grade reaction severity on a 1-3 scale. Grade 1 reactions are considered mild and involve symptoms limited to the skin, such as flushing, or a single other organ system.
“That being said, if my patient is having a reaction with bronchospasm, I consider that a moderate, grade 2 reaction, and I stop the infusion. There’s only so much you can do for bronchospasm. It’s a very serious reaction,” Dr. Postolova observed.
Grade 2 reactions ordinarily involve two or more organ systems, but without hypotension or cyanosis. Grade 3 reactions are severe anaphylactic reactions with cardiovascular and/or neurologic compromise.
Delayed hypersensitivity reactions are of two types: serum sickness–like reactions and type IV cell-mediated mucocutaneous reactions.
Type IV reactions can range from a mild maculopapular rash to erythema multiforme, Stevens-Johnson syndrome, toxic epidermal necrolysis, and DRESS (drug reaction with eosinophilia and systemic symptoms). Onset of type IV reactions can occur after 12 hours up to several weeks after exposure.
Serum sickness–like reactions typically begin 5-7 days after the infusion. These reactions are marked by evidence of immune overactivation: fever, arthralgia, arthritis, malaise, purpura, skin rash, and even renal failure.
Management of reactions
A patient with a grade 3 reaction who needs to continue using the culprit monoclonal antibody should be referred to an allergist for skin testing in an effort to identify an IgE-mediated reaction.
The timing of the referral for skin testing is important: The allergist wants to test roughly 4-6 weeks after the hypersensitivity reaction. Test too early and the results will be uninformative because the patient will still be anergic. On the other hand, after 7-8 weeks the patient will have lost the allergy. So there is a sweet spot.
If the patient is skin test positive – with the caveat that skin testing in this setting is not well validated – then the allergist will suggest desensitization, usually as an inpatient.
In contrast, infusion reactions can be handled in the rheumatologist’s infusion center. They are self-limited upon repeat exposure with premedication using antihistamines, NSAIDs, oral or injectable steroids, and perhaps montelukast (Singulair).
If a patient initially thought to have an infusion reaction continues to experience reactions even after the biologic is being delivered more slowly and under the protection of premedication, it’s time to consider the possibility that what’s really going on is a cytokine-release reaction or an IgE-mediated reaction. Diagnostic skin testing is in order.
For a skin test–negative patient with a suspected cytokine-release reaction, the allergist may propose a therapeutic challenge. This is reserved for patients who the allergist believe will not experience an immediate reaction, and unlike desensitization it’s not an intervention intended to induce drug tolerance. The challenge involves giving 10% of a full dose of the biologic, waiting in the allergist’s office for 30-60 minutes, then giving the other 90% of the medication, followed by an hour of in-office observation.
The solution to severe type IV delayed hypersensitivity reactions is strict medication avoidance, not desensitization, according to Dr. Postolova.
Top offending monoclonal antibodies
Infliximab and rituximab (Rituxan) are the most common culprits when it comes to immediate hypersensitivity reactions. About 10% of infliximab-treated patients develop these reactions. Although the reaction can occur with the first dose, the peak incidence is with the seventh infusion. Patients with anti-infliximab IgG antibodies are at 140%-300% increased risk; however, concomitant disease-modifying antirheumatic drug therapy lessens that risk.
Infusion reactions or cytokine-release reactions occur upon the first infusion of rituximab in about 25% of treated rheumatology patients and in a higher proportion of cancer patients. Most of these reactions are mild and don’t recur when the biologic is administered more slowly and with premedication. Severe recurrent reactions upon subsequent exposure are much more likely to be an IgE-mediated hypersensitivity reaction.
“Stop the medication, send the patient to your local allergist for skin testing, and they’ll use a desensitization protocol if rituximab is the best drug for your patient,” Dr. Postolova advised.
She reported having no financial conflicts regarding her presentation.
REPORTING FROM RWCS 2020