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The good news, hematologists note, is that new strategies have been developed to address side effects. “We’ve gotten better at managing them,” pediatric oncologist Birte Wistinghausen, MD, of Children’s National Hospital in Washington, DC, said in an interview.
According to her, key approaches include sensitivity testing and “pre-medication” to prevent adverse effects from appearing in the first place.
The American Cancer Society estimates that 6,550 new cases of ALL appear in the United States each year, and 1,330 people die from the disease.
“Most cases of ALL occur in children, but most deaths from ALL (about 4 out of 5) occur in adults,” the organization reports. Indeed, the 5-year survival rate in children is now at about 90%, a number that hematologists partially attribute to the power of asparaginase.
Researchers believe that asparaginase, an enzyme, works by breaking down a substance called asparagine, which ALL cells use to reproduce. The drug is “universally used throughout the treatment of ALL in children and adolescents,” Luke Maese, DO, associate professor of pediatrics at the University of Utah–Huntsman Cancer Institute, Salt Lake City, and director of Leukemia/Lymphoma at Primary Children’s Hospital, said in an interview. “It has become more and more adopted in the treatment of young adults as well.”
The formulations of available asparaginase have evolved over the years, Dr. Maese said. “Currently, the first-line asparaginase products delivered in the majority of patients throughout the world are pegylated, meaning they have an extended duration of action. There are non-pegylated asparaginase products that are used as well.”
The pegylated drugs are much easier on patients since they don’t require frequent injections, according to experts.
Treatment protocols vary, Dr. Maese said. “Some use the drug intermittently intermixed throughout therapy, and others have periods of continuous asparaginase use — i.e. 10-20 weeks of repeated doses of the drug.”
All patients are likely to experience side effects, he said, and about 5%-10% of standard-risk and 20%-25% of high-risk patients will experience clinically significant problems.
When asparaginase is given by IV, its rapid onset can lead to a condition called acute hyperammonemia, in which ammonia levels rise and patients develop flushing, anxiety, and low blood pressure, said Dr. Wistinghausen of Children’s National Hospital. “But that is not a reason to abandon asparaginase.”
It can be difficult to differentiate this effect from hypersensitivity — allergic reactions — which can range from hives to full anaphylactic shock that requires treatment with epinephrine, she said.
According to Dr. Maese, other major side effects other than hypersensitivity include pancreatitis, hepatotoxicity, and thrombosis. The most dangerous of these side effects are hypersensitivity and pancreatitis, which can lead to discontinuation of treatment, he said. Indeed, a 2017 study found that 2% of 465 patients with ALL who developed asparaginase-associated pancreatitis died, and 8% needed mechanical ventilation.
There’s no way to predict which patients may be susceptible to pancreatitis, Michael J. Burke, MD, professor of pediatrics and director of leukemia/lymphoma director at Children’s Wisconsin and Medical College of Wisconsin, said in an interview.
As for therapy options if pancreatitis develops, a 2022 review cowritten by Dr. Maese reported that clinicians have been leaning toward re-treating patients with asparaginase since it’s so crucial to treatment. This has worked about 50% of the time, the review reported, and “many groups consider it in the setting of all grade 2 pancreatitis and grade 3 pancreatitis without prolonged illness or severe complications.”
As for hypersensitivity, the most prevalent adverse effect, clinicians frequently administer anti-allergy medications prior to infusion. This approach, known as “pre-medication,” is controversial. Research has produced conflicting results, with a 2022 study in the journal Blood finding that pre-medication had no effect on hypersensitivity in children with ALL.
“Although there is mixed data, most institutions utilize this,” Dr. Maese said. “At our institution, we continue to use pre-medication prior to pegylated asparaginase but do not use it with non-pegylated asparaginase.”
Specifically, most institutions administer H2 and H1 blockers, Dr. Wistinghausen said. “Some institutions also use hydrocortisone” — a steroid — “but our institution only uses it if patients have a reaction.”
Other potential adverse effects to treatment include infusion reactions, which can mimic allergic reactions such as nausea, vomiting, abdominal pain, and flushing, Dr. Maese said.
Asked how to treat patients who cannot tolerate first-line treatment with asparaginase, Dr. Burke responded, “There are second-generation asparaginase formulations for once a patient develops an allergy.”
Dr. Maese said his institution switches patients when necessary to asparaginase Erwinia chrysanthemi (recombinant)-rywn, also known as Rylaze.
Another recent development in ALL treatment is the widespread use of drug monitoring to make sure asparaginase is reaching therapeutic levels. “Asparagine itself is difficult to measure so we use a surrogate of asparaginase levels to demonstrate efficacy of the drug,” he said. “There is conflicting literature as to what constitutes a therapeutic level, but the internationally accepted standard is a level of ≥ 0.1 IU/mL. We monitor asparaginase levels routinely with pegylated asparaginase but not with non-pegylated asparaginase.”
Tests can turn up “silent inactivation,” a term that refers to when the drug is “inactivated” and is not effective, Dr. Maese said. “There are several guidelines that have defined inactivation.” According to the 2022 report cowritten by Dr. Maese, Rylaze can be an alternative option if initial asparaginase treatment isn’t working.
With regard to cost, treatment with asparaginase can cost tens of thousands of dollars. However, insurers routinely pay for treatment plus pre-medication and testing, Dr. Burke said. “There’s no pushback. It seems to be accepted.”
What’s next on the horizon? “We need to understand better those patients who are at risk for toxicity,” Dr. Maese noted. “We understand obesity causes risk for certain toxicities, but have little else to go on. There has been some work with genomics and its relationship to risk of toxicity. However, it has been difficult to translate what has been found to patients.”
There’s work in progress that is exploring other preventive approaches to decrease toxicity, he said. Also, “optimizing the dosing of asparaginase has been explored more in Europe and within a smaller consortium in North America.”
In addition, he said, “as we begin to increase use of immunotherapy within our chemotherapy backbones, we need to understand the relationship these drugs have with asparaginase treatment.”
Dr. Burke and Dr. Wistinghausen have no disclosures. Dr. Maese discloses relationships with Jazz (advisory board, consultant, speakers bureau) and Servier (advisory board).
The good news, hematologists note, is that new strategies have been developed to address side effects. “We’ve gotten better at managing them,” pediatric oncologist Birte Wistinghausen, MD, of Children’s National Hospital in Washington, DC, said in an interview.
According to her, key approaches include sensitivity testing and “pre-medication” to prevent adverse effects from appearing in the first place.
The American Cancer Society estimates that 6,550 new cases of ALL appear in the United States each year, and 1,330 people die from the disease.
“Most cases of ALL occur in children, but most deaths from ALL (about 4 out of 5) occur in adults,” the organization reports. Indeed, the 5-year survival rate in children is now at about 90%, a number that hematologists partially attribute to the power of asparaginase.
Researchers believe that asparaginase, an enzyme, works by breaking down a substance called asparagine, which ALL cells use to reproduce. The drug is “universally used throughout the treatment of ALL in children and adolescents,” Luke Maese, DO, associate professor of pediatrics at the University of Utah–Huntsman Cancer Institute, Salt Lake City, and director of Leukemia/Lymphoma at Primary Children’s Hospital, said in an interview. “It has become more and more adopted in the treatment of young adults as well.”
The formulations of available asparaginase have evolved over the years, Dr. Maese said. “Currently, the first-line asparaginase products delivered in the majority of patients throughout the world are pegylated, meaning they have an extended duration of action. There are non-pegylated asparaginase products that are used as well.”
The pegylated drugs are much easier on patients since they don’t require frequent injections, according to experts.
Treatment protocols vary, Dr. Maese said. “Some use the drug intermittently intermixed throughout therapy, and others have periods of continuous asparaginase use — i.e. 10-20 weeks of repeated doses of the drug.”
All patients are likely to experience side effects, he said, and about 5%-10% of standard-risk and 20%-25% of high-risk patients will experience clinically significant problems.
When asparaginase is given by IV, its rapid onset can lead to a condition called acute hyperammonemia, in which ammonia levels rise and patients develop flushing, anxiety, and low blood pressure, said Dr. Wistinghausen of Children’s National Hospital. “But that is not a reason to abandon asparaginase.”
It can be difficult to differentiate this effect from hypersensitivity — allergic reactions — which can range from hives to full anaphylactic shock that requires treatment with epinephrine, she said.
According to Dr. Maese, other major side effects other than hypersensitivity include pancreatitis, hepatotoxicity, and thrombosis. The most dangerous of these side effects are hypersensitivity and pancreatitis, which can lead to discontinuation of treatment, he said. Indeed, a 2017 study found that 2% of 465 patients with ALL who developed asparaginase-associated pancreatitis died, and 8% needed mechanical ventilation.
There’s no way to predict which patients may be susceptible to pancreatitis, Michael J. Burke, MD, professor of pediatrics and director of leukemia/lymphoma director at Children’s Wisconsin and Medical College of Wisconsin, said in an interview.
As for therapy options if pancreatitis develops, a 2022 review cowritten by Dr. Maese reported that clinicians have been leaning toward re-treating patients with asparaginase since it’s so crucial to treatment. This has worked about 50% of the time, the review reported, and “many groups consider it in the setting of all grade 2 pancreatitis and grade 3 pancreatitis without prolonged illness or severe complications.”
As for hypersensitivity, the most prevalent adverse effect, clinicians frequently administer anti-allergy medications prior to infusion. This approach, known as “pre-medication,” is controversial. Research has produced conflicting results, with a 2022 study in the journal Blood finding that pre-medication had no effect on hypersensitivity in children with ALL.
“Although there is mixed data, most institutions utilize this,” Dr. Maese said. “At our institution, we continue to use pre-medication prior to pegylated asparaginase but do not use it with non-pegylated asparaginase.”
Specifically, most institutions administer H2 and H1 blockers, Dr. Wistinghausen said. “Some institutions also use hydrocortisone” — a steroid — “but our institution only uses it if patients have a reaction.”
Other potential adverse effects to treatment include infusion reactions, which can mimic allergic reactions such as nausea, vomiting, abdominal pain, and flushing, Dr. Maese said.
Asked how to treat patients who cannot tolerate first-line treatment with asparaginase, Dr. Burke responded, “There are second-generation asparaginase formulations for once a patient develops an allergy.”
Dr. Maese said his institution switches patients when necessary to asparaginase Erwinia chrysanthemi (recombinant)-rywn, also known as Rylaze.
Another recent development in ALL treatment is the widespread use of drug monitoring to make sure asparaginase is reaching therapeutic levels. “Asparagine itself is difficult to measure so we use a surrogate of asparaginase levels to demonstrate efficacy of the drug,” he said. “There is conflicting literature as to what constitutes a therapeutic level, but the internationally accepted standard is a level of ≥ 0.1 IU/mL. We monitor asparaginase levels routinely with pegylated asparaginase but not with non-pegylated asparaginase.”
Tests can turn up “silent inactivation,” a term that refers to when the drug is “inactivated” and is not effective, Dr. Maese said. “There are several guidelines that have defined inactivation.” According to the 2022 report cowritten by Dr. Maese, Rylaze can be an alternative option if initial asparaginase treatment isn’t working.
With regard to cost, treatment with asparaginase can cost tens of thousands of dollars. However, insurers routinely pay for treatment plus pre-medication and testing, Dr. Burke said. “There’s no pushback. It seems to be accepted.”
What’s next on the horizon? “We need to understand better those patients who are at risk for toxicity,” Dr. Maese noted. “We understand obesity causes risk for certain toxicities, but have little else to go on. There has been some work with genomics and its relationship to risk of toxicity. However, it has been difficult to translate what has been found to patients.”
There’s work in progress that is exploring other preventive approaches to decrease toxicity, he said. Also, “optimizing the dosing of asparaginase has been explored more in Europe and within a smaller consortium in North America.”
In addition, he said, “as we begin to increase use of immunotherapy within our chemotherapy backbones, we need to understand the relationship these drugs have with asparaginase treatment.”
Dr. Burke and Dr. Wistinghausen have no disclosures. Dr. Maese discloses relationships with Jazz (advisory board, consultant, speakers bureau) and Servier (advisory board).
The good news, hematologists note, is that new strategies have been developed to address side effects. “We’ve gotten better at managing them,” pediatric oncologist Birte Wistinghausen, MD, of Children’s National Hospital in Washington, DC, said in an interview.
According to her, key approaches include sensitivity testing and “pre-medication” to prevent adverse effects from appearing in the first place.
The American Cancer Society estimates that 6,550 new cases of ALL appear in the United States each year, and 1,330 people die from the disease.
“Most cases of ALL occur in children, but most deaths from ALL (about 4 out of 5) occur in adults,” the organization reports. Indeed, the 5-year survival rate in children is now at about 90%, a number that hematologists partially attribute to the power of asparaginase.
Researchers believe that asparaginase, an enzyme, works by breaking down a substance called asparagine, which ALL cells use to reproduce. The drug is “universally used throughout the treatment of ALL in children and adolescents,” Luke Maese, DO, associate professor of pediatrics at the University of Utah–Huntsman Cancer Institute, Salt Lake City, and director of Leukemia/Lymphoma at Primary Children’s Hospital, said in an interview. “It has become more and more adopted in the treatment of young adults as well.”
The formulations of available asparaginase have evolved over the years, Dr. Maese said. “Currently, the first-line asparaginase products delivered in the majority of patients throughout the world are pegylated, meaning they have an extended duration of action. There are non-pegylated asparaginase products that are used as well.”
The pegylated drugs are much easier on patients since they don’t require frequent injections, according to experts.
Treatment protocols vary, Dr. Maese said. “Some use the drug intermittently intermixed throughout therapy, and others have periods of continuous asparaginase use — i.e. 10-20 weeks of repeated doses of the drug.”
All patients are likely to experience side effects, he said, and about 5%-10% of standard-risk and 20%-25% of high-risk patients will experience clinically significant problems.
When asparaginase is given by IV, its rapid onset can lead to a condition called acute hyperammonemia, in which ammonia levels rise and patients develop flushing, anxiety, and low blood pressure, said Dr. Wistinghausen of Children’s National Hospital. “But that is not a reason to abandon asparaginase.”
It can be difficult to differentiate this effect from hypersensitivity — allergic reactions — which can range from hives to full anaphylactic shock that requires treatment with epinephrine, she said.
According to Dr. Maese, other major side effects other than hypersensitivity include pancreatitis, hepatotoxicity, and thrombosis. The most dangerous of these side effects are hypersensitivity and pancreatitis, which can lead to discontinuation of treatment, he said. Indeed, a 2017 study found that 2% of 465 patients with ALL who developed asparaginase-associated pancreatitis died, and 8% needed mechanical ventilation.
There’s no way to predict which patients may be susceptible to pancreatitis, Michael J. Burke, MD, professor of pediatrics and director of leukemia/lymphoma director at Children’s Wisconsin and Medical College of Wisconsin, said in an interview.
As for therapy options if pancreatitis develops, a 2022 review cowritten by Dr. Maese reported that clinicians have been leaning toward re-treating patients with asparaginase since it’s so crucial to treatment. This has worked about 50% of the time, the review reported, and “many groups consider it in the setting of all grade 2 pancreatitis and grade 3 pancreatitis without prolonged illness or severe complications.”
As for hypersensitivity, the most prevalent adverse effect, clinicians frequently administer anti-allergy medications prior to infusion. This approach, known as “pre-medication,” is controversial. Research has produced conflicting results, with a 2022 study in the journal Blood finding that pre-medication had no effect on hypersensitivity in children with ALL.
“Although there is mixed data, most institutions utilize this,” Dr. Maese said. “At our institution, we continue to use pre-medication prior to pegylated asparaginase but do not use it with non-pegylated asparaginase.”
Specifically, most institutions administer H2 and H1 blockers, Dr. Wistinghausen said. “Some institutions also use hydrocortisone” — a steroid — “but our institution only uses it if patients have a reaction.”
Other potential adverse effects to treatment include infusion reactions, which can mimic allergic reactions such as nausea, vomiting, abdominal pain, and flushing, Dr. Maese said.
Asked how to treat patients who cannot tolerate first-line treatment with asparaginase, Dr. Burke responded, “There are second-generation asparaginase formulations for once a patient develops an allergy.”
Dr. Maese said his institution switches patients when necessary to asparaginase Erwinia chrysanthemi (recombinant)-rywn, also known as Rylaze.
Another recent development in ALL treatment is the widespread use of drug monitoring to make sure asparaginase is reaching therapeutic levels. “Asparagine itself is difficult to measure so we use a surrogate of asparaginase levels to demonstrate efficacy of the drug,” he said. “There is conflicting literature as to what constitutes a therapeutic level, but the internationally accepted standard is a level of ≥ 0.1 IU/mL. We monitor asparaginase levels routinely with pegylated asparaginase but not with non-pegylated asparaginase.”
Tests can turn up “silent inactivation,” a term that refers to when the drug is “inactivated” and is not effective, Dr. Maese said. “There are several guidelines that have defined inactivation.” According to the 2022 report cowritten by Dr. Maese, Rylaze can be an alternative option if initial asparaginase treatment isn’t working.
With regard to cost, treatment with asparaginase can cost tens of thousands of dollars. However, insurers routinely pay for treatment plus pre-medication and testing, Dr. Burke said. “There’s no pushback. It seems to be accepted.”
What’s next on the horizon? “We need to understand better those patients who are at risk for toxicity,” Dr. Maese noted. “We understand obesity causes risk for certain toxicities, but have little else to go on. There has been some work with genomics and its relationship to risk of toxicity. However, it has been difficult to translate what has been found to patients.”
There’s work in progress that is exploring other preventive approaches to decrease toxicity, he said. Also, “optimizing the dosing of asparaginase has been explored more in Europe and within a smaller consortium in North America.”
In addition, he said, “as we begin to increase use of immunotherapy within our chemotherapy backbones, we need to understand the relationship these drugs have with asparaginase treatment.”
Dr. Burke and Dr. Wistinghausen have no disclosures. Dr. Maese discloses relationships with Jazz (advisory board, consultant, speakers bureau) and Servier (advisory board).