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Correspondence  |   March 2015
Presence or Absence of Elevated Acute Total Serum Tryptase by Itself Is Not a Definitive Marker for an Allergic Reaction
Author Notes
  • Mayo Clinic, Rochester, Minnesota (J.S.). sprung.juraj@mayo.edu
  • (Accepted for publication November 25, 2014.)
    (Accepted for publication November 25, 2014.)×
Article Information
Correspondence
Correspondence   |   March 2015
Presence or Absence of Elevated Acute Total Serum Tryptase by Itself Is Not a Definitive Marker for an Allergic Reaction
Anesthesiology 03 2015, Vol.122, 713-714. doi:10.1097/ALN.0000000000000584
Anesthesiology 03 2015, Vol.122, 713-714. doi:10.1097/ALN.0000000000000584
To the Editor:
We read with interest the study by Laroche et al.1  who examined the value of plasma histamine and serum or plasma tryptase in evaluating severe perioperative anaphylaxis. We would like to add some thoughts to further explore and clarify the significance of tryptase as a “predictable marker of allergic reaction.” Indeed, elevated serum total tryptase associated with typical symptomatology (urticaria, bronchospasm) may be, in the majority of cases, sufficient for diagnosis of an allergic reaction with high probability. At the same time, perioperative cardiovascular collapse may be associated with nonallergic causes and still have an elevated acute level serum tryptase and the absence of diagnostic symptomatology (e.g., urticaria), suggesting a nonallergic cause. For example, we encountered a patient with hypertension and renal insufficiency who developed lisinopril-associated cardiovascular collapse immediately after anesthetic induction. The patient had a high acute serum tryptase level (16 μg/l) without bronchospasm or urticaria. Surprisingly, 72 h after recovery from the event, serum tryptase remained elevated (>16 μg/l); allergologic evaluation ruled out anaphylaxis and mastocytosis, and the incidental finding of elevated tryptase was attributed to his chronic kidney insufficiency. Decreased glomerular filtration slows elimination of the stem cell factor,2,3  which may induce mast cell hyperplasia, causing an increased level of tryptase.4 
Tryptase is continually secreted by mast cells in tissues, and then diffuses into the circulation, where it can be measured as protryptase. Protryptases can undergo additional processing within the cell to become mature tryptase, which is stored in mast cell granules and secreted only during mast cell activation. In the absence of mast cell activation, nearly all of the serum tryptase represents the immature proform. During mast cell–mediated anaphylaxis, total serum tryptase levels (pro + mature) may exceed 11.5 μg/l; however, the pathognomonic laboratory finding indicative of mast cell degranulation is the presence of mature tryptase with serum levels exceeding 1 μg/l.5  Because testing for mature tryptase is not widely available, another approach is to compare acute (within 4 h of event) and baseline total tryptase levels (at least 24 h after all signs and symptoms of the event have subsided) to distinguish between an increased mast cell burden (e.g., mastocytosis where baseline tryptase levels remain elevated) and mast cell degranulation (where only acute tryptase levels are elevated). The minimal elevation of acute over baseline tryptase levels suggested to be clinically significant is calculated as at least 2 + 1.2 × baseline tryptase level. Unfortunately, baseline samples in the anaphylaxis group were not collected in this retrospective study. Besides mastocytosis, persistently elevated serum tryptase is found in patients with acute myelocytic leukemia, myelodysplastic syndromes, hypereosinophilic syndrome, therapy with recombinant stem cell factor, and chronic renal insufficiency. In one study of obese adults (body mass index of 44 ± 6.5 kg/m2), serum tryptase levels were greater than 15.7 μg/l.6  Any patient may develop cardiovascular collapse, and if their baseline tryptase level is elevated, concluding that mast cell degranulation occurred because of an elevated acute level alone may be wrong. And vice versa, true basophil-mediated anaphylactic reactions may occur without increase in serum tryptase. Although acute histamine levels can be helpful in establishing basophil-induced anaphylaxis, they are rarely captured due to the short (minutes) histamine half-life (and low priority for obtaining this testing during resuscitation). Providing a patient survives the event, histamine metabolite from 24-h urine, N-methylhistamine, might better reflect previous histamine release.
Therefore, in some patients with severe perioperative reactions, a diagnosis of an allergic reaction (mast cell degranulation) cannot be conclusively made from a single acute total tryptase level even if elevated; nor can an allergic reaction be excluded from a single measurement, even if within the normal range. A more complex assessment is needed, which should include consideration of nonallergic conditions associated with increased burden of mast cells as well as a mild allergic reaction that may not manifest as a tryptase level outside the normal range. Tests such as urinary prostaglandin D2 metabolite, 11-β prostaglandin F2α, and urinary histamine metabolite, N-methylhistamine, may be valuable adjuncts to confirm or exclude the allergic etiology of patients who develop perioperative cardiovascular collapse.7  However, these tests are typically obtained from the 24-h urine, so they are not available in most forensic cases. The exception is a postmortem measurement of mature tryptase, which strongly indicates premortem mast cell activation (testing baseline tryptase levels is not an option in postmortem investigations). Unfortunately, only one center currently conducts the mature tryptase assay (Virginia Commonwealth University, Richmond, VA).
In conclusion, there are clinical situations where cardiovascular collapse with a high serum total tryptase level in the acute blood sample may not indicate this to be a mast cell activation event. Therefore, the statement that “allergy mediators exceeding the threshold are evidence of allergic events” is not universally correct, even though this conclusion fit the data in the study by Laroche et al.,1  because of their study design: all patients in their “group ALLERGY” were selected based on positive symptomatology and positive allergy tests, and all cases in the “group CONTROL” had cardiovascular collapse clinically unrelated to allergy or anesthesia. And finally, the absence of a tryptase within the normal range in patients with cardiovascular collapse does not exclude an allergic reaction because an acute level of 8 μg/l might be considered significantly elevated if the baseline level was only 1. Therefore, both the clinical presentation and the baseline tryptase level remain very important elements for the diagnostic probability regarding whether a clinical event can be attributed to anaphylaxis or other etiologies.
Competing Interests
Drs. Sprung and Weingarten have nothing to disclose. Virginia Commonwealth University receives royalties from ThermoFisher for their tryptase assay, which are shared with Dr. Schwartz as its inventor.
Juraj Sprung, M.D., Ph.D., Toby N. Weingarten, M.D., Lawrence B. Schwartz, M.D., Ph.D. Mayo Clinic, Rochester, Minnesota (J.S.). sprung.juraj@mayo.edu
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