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The MastAttack 107: The Layperson’s Guide to Understanding Mast Cell Diseases, part 8

I have answered the 107 questions I have been asked most in the last four years. No jargon. No terminology. Just answers.

14. Are there any special instructions for the tests to diagnose mast cell disease?
• There are a lot of tests used to diagnose mast cell disease. There are certainly people who slip through the cracks with the current diagnostic criteria.
• Remember this as you read the following: DO NOT, UNDER ANY CIRCUMSTANCES, EVER, DISCONTINUE MEDICATION FOR TESTING WITHOUT EXPLICIT INSTRUCTIONS TO DO FROM A DOCTOR THAT UNDERSTANDS MAST CELL DISEASE. Stopping medications for mast cell disease can be very dangerous.
• The biopsy forms the centerpiece of diagnosis of both cutaneous and systemic forms of mastocytosis.
You can increase your chance of positive skin biopsy by choosing either a permanent lesion or an area of skin that is frequently reactive.
• For internal organs, including bone marrow, you can’t always tell where to biopsy just by looking. The area may look normal but show inflammation when viewed with a microscope.
• If patients do not need to take daily corticosteroids because they do not make their own (adrenal insufficiency or Addison’s disease), they are often recommended to not use corticosteroids (prednisone or similar) for five days before a bone marrow biopsy. Taking corticosteroids can tell your body to make a lot of extra white blood cells which can make it harder to give a correct diagnosis.
• The CKIT D816V mutation test is often done on a blood sample. It is much more accurate when a bone marrow biopsy is tested because there are many more mast cells. Mast cells do not live in the blood so the blood test is less accurate. If the test is positive in blood, we assume that the patient is truly positive. If the test is negative in blood, we are not sure if the patient is truly negative.
• Serum tryptase is a test with a lot of caveats. It is influenced heavily by timing and patient factors like weight. Many people with mast cell disease have normal serum tryptase. It is good for tracking progression of disease in patients with systemic mastocytosis.
• About 85% of patients with systemic mastocytosis have a baseline tryptase value over 20 ng/mL. Patients with monoclonal mast cell activation syndrome may also have baseline tryptase value over 20 ng/mL. For these patients, they should have two different tests from days when they are not especially reactive, or have had anaphylaxis.
• For patients with mast cell activation syndrome, we are often looking for an increase in tryptase during a reaction or anaphylactic event. In these patients, experts recommend having blood drawn 15 minutes to 4 hours after onset of the event.
• Another sample should be drawn 1-2 days later so that you have a sample to compare with the tryptase level during the event. Many experts accept a level increased by 20% plus 2 ng/mL above the baseline to be indicative of mast cell activation. (I made a typo on this that said 20% to 2 – sorry!)
• As we have previously discussed, many mast cell mediators should be kept cold because they break down quickly. 24 hour urines for n-methylhistamine, prostaglandin D2, 9a,11b prostaglandin F2, and leukotriene E4 should be kept cold.
Performing a 24 hour urine when you are having a reaction event can increase the likelihood of mediator release.
COX inhibitors will interfere with prostaglandin production. Some patients stop these meds before giving 24 hour urines for prostaglandin testing. DO NOT STOP MEDS WITHOUT BEING ADVISED BY AN EXPERIENCED MAST CELL PROVIDER.
Lipoxygenase inhibitors will interfere with leukotriene production. Some patients stop these meds before giving 24 hour urines for leukotriene testing. DO NOT STOP MEDS WITHOUT BEING ADVISED BY AN EXPERIENCED MAST CELL PROVIDER.
• Heparin is very heat sensitive. Plasma heparin must be kept cold. One study reported that a tourniquet on the upper arm for ten minutes before drawing the sample increased the change of detecting mast cell activation with this test.
• Chromogranin A is influenced by many other conditions and medications. It is important that those other conditions be ruled out. This may require lengthy body scans and other tests. Chromogranin A is influenced by proton pump inhibitors, meds that are commonly taken by mast cell patients. DO NOT STOP MEDS WITHOUT BEING ADVISED BY AN EXPERIENCED MAST CELL PROVIDER.

For more detailed reading, please visit these posts:

The Provider Primer Series: Mediator testing

Patient questions: Everything you wanted to know about tryptase

The Provider Primer Series: Mast cell activation syndrome (MCAS)

The Provider Primer Series: Cutaneous Mastocytosis/ Mastocytosis in the Skin

The Provider Primer Series: Diagnosis and natural history of systemic mastocytosis (ISM, SSM, ASM)

The Provider Primer Series: Diagnosis and natural history of systemic mastocytosis (SM-AHD, MCL, MCS)

The MastAttack 107: The Layperson’s Guide to Understanding Mast Cell Diseases, part 7

I have answered the 107 questions I have been asked most in the last four years. No jargon. No terminology. Just answers.

 

13. What do these biopsy tests look for?
• They look for the shape, quantity, and distribution of mast cells.
• They also look for specific proteins on the outside of mast cells and tissue damage around mast cells.
• Systemic mastocytosis and cutaneous mastocytosis are generally diagnosed by biopsy. With very, very few exceptions, you cannot meet the criteria for systemic mastocytosis without having a positive biopsy. Sometimes people with monoclonal mast cell activation syndrome are diagnosed by having a biopsy that looks like a very early phase of systemic mastocytosis.
• The diagnostic criteria for mast cell activation syndrome are hotly contested. Most doctors do not use biopsies to diagnose MCAS because there are not uniform criteria. Some doctors feel that more than 20 mast cells in a field when you look through the microscope is a sign of MCAS.
• Cutaneous mastocytosis is having too many broken mast cells in your skin. For this condition, they are looking for either 20 mast cells to be present in the microscope field (hpf) when looking at the skin, or for there to be at least one cluster of at least fifteen mast cells.
• Clustering is a very important feature of mastocytosis. When mast cells bunch together in a cluster, it is easier to damage the tissue. They are essentially punching holes in the tissue by clustering.
• Systemic mastocytosis is having too many broken mast cells made by the bone marrow. Systemic mastocytosis is usually diagnosed by a positive bone marrow biopsy. However, sometimes people are diagnosed by biopsies of other organs. Skin biopsy is NOT enough to diagnose systemic mastocytosis.
• For systemic mastocytosis, there are three key things they are looking for in the biopsy.
• They are looking for at least one cluster of at least fifteen mast cells.
• They are looking for some of the mast cells to be shaped like spindles, sort of smushed at the ends and round in the middle. You see this shape a lot when cells are trying to stick together in a cluster.
• They are looking for special proteins that are only found when a patient has systemic mastocytosis or monoclonal mast cell activation syndrome. They are called CD25 and CD2. These are like flags that the mast cells fly to tell us they are broken. One of them, CD25, actually helps mast cells cluster together.
• In biopsies, they usually also look for the protein CD117. This is a normal flag for mast cells to fly and just allows us to know that we are looking at mast cells.

For more detailed reading, please visit these posts:

The Provider Primer Series: Management of mast cell mediator symptoms and release

The Provider Primer Series: Mast cell activation syndrome (MCAS)

The Provider Primer Series: Cutaneous Mastocytosis/ Mastocytosis in the Skin

The Provider Primer Series: Diagnosis and natural history of systemic mastocytosis (ISM, SSM, ASM)

The Provider Primer Series: Diagnosis and natural history of systemic mastocytosis (SM-AHD, MCL, MCS)

The MastAttack 107: The Layperson’s Guide to Understanding Mast Cell Diseases, Part 6

I have answered the 107 questions I have been asked most in the last four years. No jargon. No terminology. Just answers.

12. What do these blood and urine tests look for?

• There are a lot of tests ordered for mast cell disease. How they are interpreted can depend upon a lot of factors. Some of the tests are unreliable, a fact that will be addressed in detail later in this series. (And has been addressed in detail elsewhere on this blog). Please keep in mind when reading this post that I am being VERY general and assumed the test was performed correctly on a correctly stored sample.
• The most common test ordered for mast cell disease is serum tryptase. Tryptase is a molecule that mast cells release. While it has lots of functions in the body, and is especially important in healing wounds and tissue growth, the amount present in your body at a given moment should be low.
• Tryptase is special because mast cells release it in two ways. Firstly, they make and release a little bit steadily. This is not related to activation. Mast cells just normally release a little tryptase as they go about their work. So the idea is that if you have more mast cells than you should, and each of those mast cells releases a little tryptase all the time, that you will have a higher than normal serum tryptase.
• Patients with a clonal mast cell disease, in which they have too many broken mast cells, usually have elevated baseline tryptase. This means tryptase that is elevated at least two times when you are NOT having a big reaction or anaphylaxis.
• Mast cells also store lots of tryptase in their pockets. When the mast cell is activated and it empties out its pockets, lots of tryptase comes out at once. This is why tryptase can be higher after a reaction or anaphylaxis, because mast cells release a bunch at once.
• Patients with mast cell activation syndrome or cutaneous mastocytosis do not always have elevated tryptase even with a big reaction or anaphylaxis.
• Mast cells have huge amounts of histamine stored in their pockets inside their cells. Histamine has lots of functions inside the body and is required for normal body functions. In particular, it is important to our nervous system. Smaller amounts are released as a normal function of the body.
• A lot of histamine is released when mast cells are activated. The idea is that if your mast cells are more activated than they should be that your histamine level will be higher. However, the test recommended for us to consider the histamine level in mast cell patients is not for histamine. It is for n-methylhistamine. This is a molecule that is formed when the body breaks down histamine, which happens very quickly (within minutes of release). n-methylhistamine is more stable, which is why we look at it.
• The test for n-methylhistamine is most reliable when performed in a 24 hour urine sample. This is because the level in urine can fluctuate throughout the day.
• Mast cells make a lot of prostaglandin D2 (abbreviated PGD2). PGD2 is very important for cell communicating. It can carry a message from one cell to another, allowing cells to work together. Unlike histamine and tryptase, mast cells do not keep PGD2 stored in their pockets. They make it only when they need it and then release it.
• PGD2 is released in large amounts when mast cells are activated. However, because it is not stored in the pockets, it is not always elevated right away when you have a big activation event or anaphylaxis. Prostaglandin D2 is broken down quickly. While we do test directly for PGD2 for mast cell disease, we also test for 9a,11-PGF2, a molecule formed when PGD2 breaks down.
• The tests for PGD2 and 9a,11b-PGF2 are most reliable when performed in 24 hour urine samples. This is because the levels in urine can fluctuate throughout the day.
• Heparin is a blood thinning molecule that is stored in pockets inside mast cells. Mast cells are the only cells that release significant amounts of histamine. When the mast cell is activated and it releases histamine, the histamine comes out stuck to heparin. Heparin is broken down very quickly so it is hard to measure accurately.
• The test to assess heparin level actually looks for a molecule called anti-factor Xa that can interact with heparin. This test is performed in serum.
• Chromogranin A is released by mast cells. It is also released by a lot of other cells. The level of this molecule can be affected by many things, including common medications. It is sometimes tested for and considered a sign of mast cell disease if elevated when all other possible reasons can be excluded.
• Chromogranin A levels are most reliable in serum.

 

For more detailed reading, please visit these posts:

The Provider Primer Series: Management of mast cell mediator symptoms and release

The Provider Primer Series: Mast cell activation syndrome (MCAS)

The Provider Primer Series: Cutaneous Mastocytosis/ Mastocytosis in the Skin

The Provider Primer Series: Diagnosis and natural history of systemic mastocytosis (ISM, SSM, ASM)

The Provider Primer Series: Diagnosis and natural history of systemic mastocytosis (SM-AHD, MCL, MCS)

The MastAttack 107: The Layperson’s Guide to Understanding Mast Cell Diseases, Part 5

I have answered the 107 questions I have been asked most in the last four years. No jargon. No terminology. Just answers.

10. How is mast cell disease diagnosed?
• There are several tests you need to definitively determine if you have mast cell disease and what kind you have.
The most well known test for mast cell disease is serum tryptase. This is a blood test. This is the test doctors are most likely to have heard of. Doctors may think that you can’t have mast cell disease if tryptase is normal. This is not true.
• If a patient has a tryptase over 20 ng/mL, the next step is usually a bone marrow biopsy. A tryptase over 20 ng/mL increases the likelihood that a patient has systemic mastocytosis. SM is most commonly confirmed by a bone marrow biopsy.
• You need a special stain in order to see mast cells in any biopsy. Stains that show mast cells include Giemsa Wright stain and toluidine blue. Your doctor should specify these stains.
• Several tests must be run on the bone marrow biopsy to look for clonal mast cell disease. Remember that in clonal diseases, the body makes too many broken cells.
• The shape of the mast cells in the biopsy is very important. If the mast cells are not shaped right, this can be a sign of mast cell disease.
• The number of mast cells grouped together in the body is also important. If 15 or more mast cells are all stuck together, this is called a cluster. When mast cells are clustered together like this, they can punch holes in the tissue and damage it a lot. This prevents the tissue from working right.
• Immunohistochemistry (IHC) is a way to find specific proteins that allow us to know what cells we are looking at in the biopsy. Often, these proteins are on the outside of the cells. Think of these are flags that a cell can wave. IHC can look for the specific flags a cell is waving so that we know for sure which cell is which. For mast cell disease, they want to look for CD117, CD25, and CD2. The CD117 flag is flown normally by all mast cells. CD25 and CD2 are special flags flown by mast cells if you have clonal mast cell disease.
• PCR is a way to look for genetic mutations. They need to look for a mutation in the mast cells in the bone marrow. The mutation is found at a specific place in the CKIT gene. This mutation is found in 80-90% of patients with systemic mastocytosis. It may also be found if patients have monoclonal mast cell activation syndrome.
• If a patient does not have a tryptase over 20 ng/mL, a bone marrow biopsy is often not ordered. There are other tests that can indicate mast cell disease.
• Urine collected over 24 hours can be tested for specific chemicals. In the case of mast cell disease, they are looking for chemicals that can be high if you have mast cell disease. These chemicals have very long, complicated names. I will explain in a later post exactly what they are and what they do. The most common ones are called n-methylhistamine, prostaglandin D2, 9a,11b-prostaglandin F2, and leukotriene E4. Anti-heparin Xa and chromogranin A are sometimes tested. They are much less reliable as indicators of mast cell disease than the others mentioned here.
• If a patient is suspected to have cutaneous mastocytosis, a skin biopsy is needed to confirm. As with bone marrow biopsies, your doctor should specify that they need to use toluidine blue or Giemsa Wright stain to be sure they see the mast cells.
• The skin biopsy should also receive the other tests I described above for bone marrow biopsy: the counting of mast cells and looking at the shape; looking for CD117, CD2, and CD25; and looking for the same mutation with PCR.
11. What kind of doctor diagnoses mast cell disease? Can any doctor order these tests?
Doctors from all different specialties may diagnose and manage mast cell disease. It depends upon the individual provider and where you are located. It could be a dermatologist, allergist, hematologist, pulmonologist, gastroenterologist, or another specialist.
• The serum tryptase is the easier to order and the most well known test. Many labs can run this test.
• The 24 hour urine tests are specialized. Some of them are run in only a few places and samples are usually shipped there. Most often, these samples are run at the Mayo Clinic. Many outpatient labs have no way to run those tests. You will need to speak with your doctor about how to get these tests. It is often easiest if they are run by a hospital lab but again, this depends upon the hospital.
• The PCR genetic test for this specific gene is run in more places than the urine tests but is still not very common. Again, it is often easiest if they are run by a hospital lab.
• A bone marrow biopsy is usually ordered by a hematologist or by another specialist that works commonly with hematologists. They are usually performed by hematology providers. Some testing can usually be performed in house (the counting of the cells and looking at the shape) while others may need to be sent out (the IHC testing).
• A skin biopsy is usually ordered by a dermatologist. Some testing can usually be performed in house (the counting of the cells and looking at the shape) while others may need to be sent out (the IHC testing).
For more detailed reading, please visit these posts:

The Provider Primer Series: Management of mast cell mediator symptoms and release

The Provider Primer Series: Mast cell activation syndrome (MCAS)

The Provider Primer Series: Cutaneous Mastocytosis/ Mastocytosis in the Skin

The Provider Primer Series: Diagnosis and natural history of systemic mastocytosis (ISM, SSM, ASM)

The Provider Primer Series: Diagnosis and natural history of systemic mastocytosis (SM-AHD, MCL, MCS)

Chromogranin A

Chromogranin A is a protein secreted in several environments. While it is primarily released in the adrenal medulla with catecholamines (norepinephrine, epinephrine, dopamine, and others), CgA is often found stored in the granules of endocrine cells in the GI tract. CgA is the precursor molecule for several active molecules. Vasostatin-1 and -2 are involved in regulation of various effects of the cardiovascular system, including blood pressure and stroke volume, by opposing the action of catecholamines. Catestatin decreases release of catecholamines. Pancreastatin decreases insulin secretion. A number of other molecules are also derived from CgA.

Chromogranin A and its derivatives are biomarkers for several conditions. 60-80% of neuroendocrine tumor patients demonstrated elevated chromogranin A. A connection with Alzheimer’s disease has recently been reported. Rheumatoid arthritis and lupus patients may have elevated CgA as a result of increased tumor necrosis factor. Various forms of cancer, kidney disease, and elevated cortisol can also impact chromogranin A level.

Elevated CgA has also been linked to a number of inflammatory GI conditions. 30-50% of IBD patients with active disease have elevated serum CgA. In ulcerative colitis, fecal chromogranins were elevated but not correlated with disease activity. Conflicting results have been seen in patients with Crohn’s disease. Some studies have reported an increased amount of CgA containing cells in patients with IBS.

There are a number of methods for quantifying chromogranin A. Proton pump inhibitors and H2 antihistamines can yield false positive results. A study compared several commercial kits for measuring chromogranin A and found that the radioimmunoassay (RIA) kit was most likely to be accurate with a sensitivity of 93% and specificity of 85%. This means that 93% of the time, this kit properly identified patients with high CgA as having high CgA, while 85% of the time, it properly identified patients with normal CgA as having normal CgA. Currently, there are multiple test methods for quantifying serum and plasma CgA with no central standardization.

Chromogranin A is a constituent of granules in rat mast cells. Tumor necrosis factor is a mediator released by mast cells and may also influence the levels of chromogranin A in mast cell patients. One study found that 31.5% of patients with mast cell activation disease (in a cohort mostly composed of MCAS patients) demonstrated elevation of serum CgA. This same study concluded that plasma heparin and 24 urine testing for prostaglandin D2 and 9a,11b-prostaglandin F2 were the most sensitive markers for mast cell activation with other mediators being less effective.

References:

Gut P, et al. (2016) Chromogranin A – unspecific neuroendocrine marker. Clinical utility and potential diagnostic pitfalls. Arch Med Sci, 12(1): 1-9.

Wernersson S, Pejler G. (2014). Mast cell secretory granules: armed for battle. Nature Reviews Immunology, 14: 478-494.

D’Amico MA, et al. (2014) Biological function and clinical relevance of chromogranin A and derived peptides. Endocrin Connect, 3(2):R45-54.

Mazzawi T, et al. (2015) Increased chromogranin A cell density in large intestine of patients with irritable bowel syndrome after receiving dietary guidance. Gastroenterology Research and Practice, Article ID 823897.

Zenker N, Afrin LB. (2015) Utilities of various mast cell mediators in diagnosis mast cell activation syndrome. Blood, 126:5174.

Massironi S, et al. (2016). Chromogranin A and other enteroendocrine markers in inflammatory bowel disease. Neuropeptides, xxx, xxx-xxx.

The Provider Primer Series: Mast cell activation syndrome (MCAS)

Mast cell activation syndrome (MCAS), also called mast cell activation disorder (MCAD), is an immunologic condition in which mast cells are aberrantly activated, resulting in inappropriate mediator release.

Presentation

  • MCAS can be responsible for chronic symptoms in multiple organs that cannot be attributed to another cause[vi].
  • Patients frequently receive diagnosis for a number of idiopathic conditions prior to correct diagnosis with MCAS[vi].
  • Mast cell activation syndrome is overwhelmingly a secondary condition. MCAS can be secondary to a number of conditions, including autoimmune diseases, connective tissue diseases, and atopic conditions[i].
  • The term “primary MCAS” refers to mediator release symptoms associated with mastocytosis[xvii] . However, the term “mastocytosis” generally conveys the understanding that both proliferation and mediator release symptoms are possible.
  • In idiopathic MCAS, no cause for symptoms can be identified[xvii] .
  • The presence of multiple mast cell patients in one family is not uncommon. A heritable gene has not yet been identified. Epigenetic mechanisms are suspected for transmission of mast cell disease to another generation[iv].
  • Approximately 75% of mast cell patients have at least one first degree relative with mast cell disease and not always the same subtype[ii]. For example, a mother may have MCAS, while one of her children has SM and the other has CM.

Diagnostic criteria

  • MCAS is a recently described diagnosis. In the absence of large studies, several groups have developed their own, sometimes conflicting, diagnostic criteria.
  • Differential diagnoses with potential to cause similar symptoms should be considered and excluded[iii].
  • The criteria most frequently used include those by a 2010 paper by Akin, Valent and Metcalfe[iii]; a 2011 paper by Molderings, Afrin and colleagues[iv]; and a 2013 paper by Castells and colleagues[v].
  • The criteria described in the 2011 paper by Molderings, Afrin and colleagues have been updated to include response to medication[vi].
  • Of note, a 2012 consensus proposal[x] was authored by a number of mast cell experts including Valent, Escribano, Castells, Akin and Metcalfe. It sees little practical use and is not generally accepted in the community.
  • The major sets of criteria listed above all include the following features:
    • Recurrent or chronic symptoms of mast cell activation
    • Objective evidence of excessive mast cell mediator release
    • Positive response to medications that inhibit action of mast cell mediators
  • Valent warns that in some cases, patients may not fulfill all criteria but still warrant treatment: “In many cases, only two or even one of these three criteria can be documented. In the case of typical symptoms, the provisional diagnosis of ‘possibly MCA/MCAS’ can be established, and in acute cases, immediate treatment should be introduced.”[vii]

Evidence of mediator release

  • Mast cells produce a multitude of mediators including tryptase, histamine, prostaglandin D2, leukotrienes C4, D4 and E4, heparin and chromogranin A[viii].
  • Serum tryptase and 24 hour urine testing for n-methylhistamine, prostaglandin D2, prostaglandin 9a,11b-F2 are frequently included in testing guidelines in literature (Castells 2013)[ix], (Akin 2010)[x], (Valent 2012)[xi].
  • It can be helpful to test for other mast cell mediators including 24 hour urine testing for leukotriene E4[xii]; plasma heparin[xiii]; and serum chromogranin A[xiv].
  • In most instances, elevation of a mediator must be present on two occasions[ix]. This helps to exclude situations of appropriate mast cell activation, such as infection or wound healing.
  • For patients with baseline tryptase level >15 ng/mL, elevation of tryptase above this baseline is only required on one occasion[viii].

Symptoms associated with mast cell activation

  • Mediator release causes a wide array of symptoms, including hypertension[xv], hypotension, hypertension, wheezing, itching, flushing, tachycardia, nausea, vomiting, diarrhea, constipation, headache, angioedema, fatigue, and neurologic symptoms[iv].
  • In a small MCAS cohort (18 patients), 17% had a history of anaphylaxis[xvii] . A larger data set is desirable.
  • Patients with history of anaphylaxis should be prescribed epinephrine autoinjectors[v]. If patient must be on a beta blocker, they should be prescribed a glucagon injector for use in the event of anaphylaxis[v].

Response to medications that inhibit action of mast cell mediators

  • Treatment of MCAS is complex and may require a number of medications. Second generation H1 antihistamines; H2 antihistamines; and mast cell stabilizers are mainstays of treatment[xvi].
  • Additional options include aspirin; anti-IgE; leukotriene blocker; and corticosteroids[xiii] .
  • First generation H1 antihistamines may be used for breakthrough symptoms[xiii] .
  • “An important point is that many different mediators may be involved in MCA-related symptoms so that the final conclusion the patient is not responding to antimediator therapy should only be drawn after having applied several different antimediator-type drugs[xiii] .
  • Inactive ingredients are often to blame for reaction to mast cell mediator focused medications. Many mast cell patients see benefit from having medications compounded[xvii].

Natural history

  • In one MCAS cohort of 18 patients, 33% had a complete (no unmanaged symptoms) response and 33% had a major (only one serious symptom) response after one year of mast cell treatment[xviii].
  • In another MCAS cohort of 135 patients, 51% demonstrated significant improvement, 11% had no obvious change in symptom severity and 38% experienced worsening symptoms[v]. (Author’s note: While described in an Afrin 2016[v] paper, the data from this cohort has not yet been published. Molderings is the principle investigator.

 

References

[i] Frieri M, et al. (2013). Mast cell activation syndrome: a review. Current Allergy and Asthma Reports, 13(1), 27-32.

[ii] Molderings GJ, et al. (2013). Familial occurrence of systemic mast cell activation disease. PLoS One, 8, e76241-24098785

[iii] Akin C, et al. (2010). Mast cell activation syndrome: proposed diagnostic criteria. J Allergy Clin Immunol, 126(6), 1099-1104.e4

[iv] Molderings GJ, et al. (2011). Mast cell activation disease: a concise practical guide for diagnostic workup and therapeutic options. Journal of Hematology & Oncology, 4(10), 10.1186/1756-8722-4-10

[v] Castells M, et al. (2013). Expanding spectrum of mast cell activation disorders: monoclonal and idiopathic mast cell activation syndromes. Clin Ther, 35(5), 548-562.

[vi] Afrin LB, et al. (2016). Often seen, rarely recognized: mast cell activation disease – a guide to diagnosis and therapeutic options. Annals of Medicine, 48(3).

[vii] Valent P. (2013). Mast cell activation syndromes: definition and classification. European Journal of Allergy and Clinical Immunology, 68(4), 417-424.

[viii] Theoharides TC, et al. (2012). Mast cells and inflammation. Biochimica et Biophysica Acta (BBA) – Molecular Basis of Disease, 1822(1), 21-33.

[ix] Picard M, et al. (2013). Expanding spectrum of mast cell activation disorders: monoclonal and idiopathic mast cell activation syndromes. Clinical Therapeutics, 35(5), 548-562.

[x] Akin C, et al. (2010). Mast cell activation syndrome: proposed diagnostic criteria. J Allergy Clin Immunol, 126(6), 1099-1104.e4

[xi] Valent P, et al. (2012). Definitions, criteria and global classification of mast cell disorders with special reference to mast cell activation syndromes: a consensus proposal. Int Arch Allergy Immunol, 157(3), 215-225.

[xii] Lueke AJ, et al. (2016). Analytical and clinical validation of an LC-MS/MS method for urine leukotriene E4: a marker of systemic mastocytosis. Clin Biochem, 49(13-14), 979-982.

[xiii] Vysniauskaite M, et al. (2015). Determination of plasma heparin level improves identification of systemic mast cell activation disease. PLoS One, 10(4), e0124912

[xiv] Zenker N, Afrin LB. (2015). Utilities of various mast cell mediators in diagnosing mast cell activation syndrome. Blood, 126(5174).

[xv] Shibao C, et al. (2005). Hyperadrenergic postural tachycardia syndrome in mast cell activation disorders. Hypertension, 45(3), 385-390.

[xvi] Cardet JC, et al. (2013). Immunology and clinical manifestations of non-clonal mast cell activation syndrome. Curr Allergy Asthma Rep, 13(1), 10-18.

[xvii] Afrin LB. “Presentation, diagnosis and management of mast cell activation syndrome.” In: Mast Cells. Edited by David B. Murray, Nova cience Publishers, Inc., 2013, 155-232.

[xviii] Hamilton MJ, et al. (2011). Mast cell activation syndrome: a newly recognized disorder with systemic clinical manifestations. Journal of Allergy and Clinical Immunology, 128(1), 147-152.e2

The Provider Primer Series: Mediator testing

Evidence of mediator release

  • Mast cells produce a multitude of mediators including tryptase, histamine, prostaglandin D2, leukotrienes C4, D4 and E4, heparin and chromogranin A[i].
  • Objective evidence of mast cell mediator release is required for diagnosis of MCAS (Castells 2013)[ii], (Akin 2010)[iii], (Valent 2012)[iv].
  • Serum tryptase and 24 hour urine testing for n-methylhistamine, prostaglandin D2, prostaglandin 9a,11b-F2 are frequently included in MCAS testing recommendations (Castells 2013)[ii], (Akin 2010)[iii], (Valent 2012)[iv].
  • It can be helpful to test for other mast cell mediators including 24 hour urine testing for leukotriene E4[v]; plasma heparin[ix]; serum chromogranin A[ix]; and leukotriene E4[ix].

Tryptase

  • Tryptase is extremely specific for mast cell activation in the absence of hematologic malignancy or advanced kidney disease. Of note, rheumatoid factor can cause false elevation of tryptase[ix].
  • Serum tryptase levels peak 15-120 minutes after release with an estimated half-life of two hours[vi].
  • Per key opinion leaders, tryptase levels should be drawn 15 minutes to 4 hours after onset of anaphylaxis or activation event (Castells 2013[ii]), (Akin 2010[iii]), (Valent 2012)[iv]). Phadia, the manufacturer of the ImmunoCap® test to quantify tryptase, recommends that blood be drawn 15 minutes to 3 hours after event onset[vii].
  • Serum tryptase >11.4 ng/mL is elevated[i]. In addition to measuring tryptase level during the event, another sample should be drawn 24-48 hours after the event, and a third sample drawn two weeks later. This allows comparison of event tryptase level to baseline[vi].
  • An increase in serum tryptase level during an event by 20% + 2 ng/mL above patient baseline is often accepted as evidence of mast cell activation[v],[i].
  • Absent elevation of tryptase level from baseline during an event does not exclude mast cell activation[viii].
  • Sensitivity for serum tryptase assay in MCAS patients was assessed as 10% in a 2014 paper[ix].
  • A recent retrospective study of almost 200 patients found serum was elevated in 8.8% of MCAS patients[x].
  • Baseline tryptase >20.0 ng/mL is a minor criterion for diagnosis of systemic mastocytosis. 77-85% of SM patients have baseline tryptase >20.0 ng/mL[ix].

Histamine and degradation product n-methylhistamine

  • N-methylhistamine is the breakdown product of histamine.
  • Histamine is degraded quickly. Samples should be drawn within 15 minutes of episode onset[vii].
  • Serum histamine levels peak 5 minutes after release and return to baseline in 15-30 minutes[vii].
  • Sample (urine or serum) must be kept chilled[xi].
  • In addition to mast cells, histamine is also released by basophils. Consumption of foods or liquids that contain histamine can also inflate the level when tested[ix].
  • A recent retrospective study of almost 200 patients found that n-methylhistamine was elevated in 7.4% of MCAS patients in random spot urine and 5.4% in 24-hour urine[xi].
  • Sensitivity of 24-hour n-methylhistamine for MCAS was assessed as 22% in 24-hour urine[ix].
  • Plasma histamine was elevated in 29.3% of MCAS patients[xi].
  • 50-81% of systemic mastocytosis patients demonstrate elevated n-methylhistamine in 24-hour urine[ix].

Prostaglandin D2 and degradation product prostaglandin 9a,11b-F2

  • 9a,11b-prostaglandin F2 is the breakdown product of prostaglandin D2.
  • Prostaglandin D2 is only produced in large quantities by mast cells. Basophils, eosinophils and other cells produce minute amounts[ix].
  • A recent retrospective study of almost 200 patients found that PGD2 was elevated in 9.8% of MCAS patients in random spot urines and 38.3% in 24-hour urine[xi].
  • PGD2 was elevated in 13.2% of MCAS patients in plasma[xi].
  • 9a,11b-PGF2 was elevated in 36.8% in 24-hour urine[xi].
  • 62-100% of systemic mastocytosis patients demonstrate elevated prostaglandin D2 or 9a,11b-PGF2 in urine[ix].
  • Prostaglandins are thermolabile and begin to break down in a minutes. This can contribute to false negative results[xi].
  • Medications that inhibit COX-1 and COX-2, such as NSAIDs, decrease prostaglandin production[xi].

Leukotriene E4

  • Leukotriene E4 is produced by mast cells and several other cell types[ix] including eosinophils, basophils and macrophages.
  • A recent retrospective study of almost 200 patients found that LTE4 was elevated in 4.4 % of MCAS patients in random spot urines and 8.3% in 24-hour urine[xi].
  • 44-50% of systemic mastocytosis patients demonstrate elevated leukotriene E4 in urine[ix].
  • Medications that inhibit 5-LO, such as lipoxygenase inhibitors, decrease leukotriene production[xii].

Chromogranin A

  • Chromogranin A is produced by mast cells and several other cell types including chromaffin cells and beta cells.
  • Proton pump inhibitors can cause increased values during testing[xi].
  • A 2014 paper reported chromogranin A was elevated in 12% of MCAS patients and 63% of systemic mastocytosis patients tested[ix].

Heparin

  • Heparin is a very specific mediator for mast cell activation[ix].
  • Heparin is extremely heat sensitive. The sample must be kept on ice or refrigerated at all times[ix].
  • Venous occlusion of upper arm for ten minutes has been successful in provoking mast cell activation leading to heparin release[ix].
  • A 2014 paper reported plasma heparin was elevated in 59% of MCAS patients and 47% of systemic mastocytosis patients tested[ix].
  • A recent retrospective study of almost 200 patients found that plasma heparin was elevated in 28.9% tested[ix].

 

References

[i] Theoharides TC, et al. (2012). Mast cells and inflammation. Biochimica et Biophysica Acta (BBA) – Molecular Basis of Disease, 1822(1), 21-33.

[ii] Picard M, et al. (2013). Expanding spectrum of mast cell activation disorders: monoclonal and idiopathic mast cell activation syndromes. Clinical Therapeutics, 35(5), 548-562.

[iii] Akin C, et al. (2010). Mast cell activation syndrome: proposed diagnostic criteria. J Allergy Clin Immunol, 126(6), 1099-1104.e4

[iv] Valent P, et al. (2012). Definitions, criteria and global classification of mast cell disorders with special reference to mast cell activation syndromes: a consensus proposal. Int Arch Allergy Immunol, 157(3), 215-225.

[v] Lueke AJ, et al. (2016). Analytical and clinical validation of an LC-MS/MS method for urine leukotriene E4: a marker of systemic mastocytosis. Clin Biochem, 49(13-14), 979-982.

[vi] Payne V, Kam PCA. (2004). Mast cell tryptase: a review of its physiology and clinical significance. Anaesthesia, 59(7), 695-703.

[vii] Phadia AB. ImmunoCAP® Tryptase in anaphylaxis. Retrieved from: http://www.phadia.com/Global/Market%20Companies/Sweden/Best%C3%A4ll%20information/Filer%20(pdf)/ImmunoCAP_Tryptase_anafylaxi.pdf

[viii] Sprung J, et al. (2015). Presence or absence of elevated acute total serum tryptase by itself is not a definitive marker for an allergic reaction. Anesthesiology, 122(3), 713-717.

[ix] Vysniauskaite M, et al. (2015). Determination of plasma heparin level improves identification of systemic mast cell activation disease. PLoS One, 10(4), e0124912

[x] Zenker N, Afrin LB. (2015). Utilities of various mast cell mediators in diagnosing mast cell activation syndrome. Blood, 126(5174).

[xi] Afrin LB. “Presentation, diagnosis and management of mast cell activation syndrome.”  Mast Cells, edited by David B. Murray, Nova Science Publishers, Inc., 2013, 155-231.

[xii] Hui KP, et al. (1991). Effect of a 5-lipoxygenase inhibitor on leukotriene generation and airway responses after allergen challenge in asthmatic patients. Thorax, 46, 184-189.

The Provider Primer Series: Diagnosis and natural history of systemic mastocytosis (ISM, SSM, ASM)

Systemic mastocytosis (SM) is a primary hematologic disorder marked by the excessive proliferation of mast cells.

Neoplastic nature of mastocytosis:

  • Mast cells produced in this disease are neoplastic and may have some or all of the following markers: presence of somatic gain-of-function mutation at codon 816 of CKIT (KIT), usually, but not always, the D816V mutation; expression of CD2 or CD25 on mast cell surface; atypical spindled morphology of mast cells[i].
  • Mastocytosis is a neoplastic condition that is not described exclusively by excessive population of mast cells. Mast cell hyperplasia can occur in response to a number of conditions including chronic urticaria[ii], irritable bowel syndrome[iii], and other hematologic neoplasia, including chronic lymphocytic leukemia, non-Hodgkin lymphoma, and myeloproliferative conditions[iv].
  • To meet criteria for SM, mast cell infiltration must be dense with at least 15 mast cells per cluster. In many instances, there is not a validated range of mast cells/hpf in healthy controls[iv].
Table 1: Diagnostic criteria for systemic mastocytosis[v]

1 major and 1 minor criterion; or 3 minor criteria

Major Multifocal dense infiltrates of mast cells (15 or more in aggregate) detected in sections of bone marrow and/or extracutaneous organ
Minor In biopsy sections, more than 25% of mast cells in infiltrated space are spindle-shaped or otherwise morphologically abnormal; or, of all mast cells in bone marrow aspirate smears, more than 25% mast cells are immature or abnormal. Detection of CKIT mutation at codon 816 in bone marrow, blood or extracutaneous organ Mast cells in bone marrow, blood or other extracutaneous organ that co-expresses CD-117 with CD2 and/or CD25 Baseline serum tryptase of 20 ng/ml or higher.

 

Presence of dense infiltrates:

  • The hallmark sign of systemic mastocytosis is multifocal dense infiltration of an organ that is not the skin. Despite this fact, it is possible to biopsy negative while still having SM. A 2004 study reported the pathological findings of bilateral bone marrow biopsies for 23 patients. 83% of patients demonstrated positive biopsy for SM bilaterally while 17% of patients had only one positive biopsy[vi].
  • One study found that 20% of ISM patients did not have dense infiltration of mast cells in bone marrow[vii].

Tryptase level in systemic mastocytosis:

  • Tryptase ≥20 ng/mL is a minor criterion for SM. In order to meet this criterion, tryptase must be ≥20 ng/mL at baseline, not during or following a reactive or anaphylactic event. Per Phadia, producer of ImmunoCAP® Tryptase test, it can take up to fourteen days for tryptase to return to baseline[viii]. However, other sources recommend shorter time to baseline, as low as “24 hours after clinical signs and symptoms have completely subsided”[ix].
  • 20-30% of SM patients do not meet the minor criterion of tryptase level ≥20 ng/mL[xiii].

Detection of CKIT D816V mutation:

  • The CKIT D816V mutation may not be detected in peripheral blood in a positive patient. Bone marrow aspirate is the preferred sample type for reliable testing for this mutation[xii].
  • One study reported as few as 78% of ISM patients were positive for the CKIT D816V mutation in bone marrow[xiii].

Natural history of indolent systemic mastocytosis:

  • Indolent systemic mastocytosis (ISM) is SM that does not meet criteria for smoldering systemic mastocytosis, aggressive systemic mastocytosis or mast cell leukemia.
  • ISM is largely described by mediator release symptoms and increased risk of anaphylaxis. Mast cell infiltration does not cause appreciable organ dysfunction in this variant[x].
  • Progression from ISM to SSM occurred in about 8% of patients in a cohort of 74. In this same cohort, 4% ISM patients progressed to ASM[xi]. The risk of leukemic transformation from ISM was 0.6% in a cohort of 159[xii].
  • Organomegaly can present without loss of function at any level of hematologic disease in SM. Organ swelling may be stable over long periods of time without progression to aggressive systemic mastocytosis (ASM)[x].
  • Lifespan for indolent systemic mastocytosis is normal[x].
Table 2: Diagnostic criteria for smoldering systemic mastocytosis

 (2 or 3 B findings in addition to meeting criteria for systemic mastocytosis)[i]

B findings Increased mast cell burden (>30% mast cell aggregates on bone marrow biopsy and/or serum tryptase >200 ng/mL) Hypercellular marrow, signs of myelodysplasia or myeloproliferation in absence of MDS or MPN Organ swelling without deficit of organ function (hepatomegaly without ascites, palpable splenomegaly, lymphadenopathy >2 cm)

 

Natural history of smoldering systemic mastocytosis:

  • Smoldering systemic mastocytosis (SSM) is defined by increased systemic mast cell burden, presence of markers associated with progression toward ASM (B findings), and potential need for cytoreduction[xiii].
  • SSM can remain stable for many years, even decadesix. In a cohort of 22 patients with SSM, 1 transformed to acute leukemia and 3 progressed to ASM[xiv].
  • Lifespan may be shortened in SSM. A widely reported study found an average lifespan of 10 years but reported that death was often unrelated to mastocytosis and in some cases was of natural old age[xiii].
Table 3: Diagnostic criteria for aggressive systemic mastocytosis

(1 or more C finding in addition to meeting criteria for systemic mastocytosis)[i]

C findings One or more cytopenias (absolute neutrophil count <1000/µl; Hemoglobin <10g/dl; platelets <100000/µl) Hepatomegaly with ascites, elevated liver enzymes with or without portal hypertension Splenomegaly with hypersplenism Malabsorption evidenced by low albumin and weight loss Large osteolysis and/or severe osteoporosis and pathologic fractures (2 or more fractures as direct result of mast cell activity)

 

Natural history of aggressive systemic mastocytosis:

  • Aggressive systemic mastocytosis (ASM) is defined by significant organ damage and failure as a direct result of mast cell infiltrationxv. Lifespan is often significantly shortened and can be as short as three years[ix] .
  • ASM generally follows one of two paths: a slow progressing form that resembles SSM but has C findings; or a rapidly progressing form that resembles mast cell leukemia. In rapidly progressing ASM, the patient may lose the CKIT D816V mutation[ix] .
  • ASM is managed with cytoreduction but patient response is often short lived. Tyrosine kinase inhibitors and other kinase inhibitors are also used in this population[ix] .
  • In treatment resistant cases, hematopoietic stem cell transplant offers an experimental option. One study on HSCT in advanced systemic mastocytosis included seven ASM patients. 3 (43%) achieved complete remission; 3 (43%) demonstrated progression free survival at the three year mark[xv].

References:

[i] Arber DA, et al. (2016). The 2016 revision to the World Health Organization classification of myeloid neoplasms and acute leukemia. Blood, 127(20), 2391-2405.

[ii] Minnei F, et al. (2006). Chronic urticaria is associated with mast cell infiltration in the gastroduodenal mucosa. Virchows Arch, 448(3), 262-268.

[iii] Guilarte M, et al. Diarrhoea-predominant IBS patients show mast cell activation and hyperplasia in the jejunum. Gut, 56, 203-209.

[iv] Hamilton MJ, et al. (2011). Mast cell activation syndrome a newly recognized disorder with systemic clinical manifestations. J Allergy Clin Immunol, 128, 147-152.

[v] Molderings GJ, et al. (2011). Mast cell activation disease: a concise practical guide for diagnostic workup and therapeutic options. Journal of Hematology & Oncology, 4(10), 10.1186/1756-8722-4-10

[vi] Butterfield JH, Li, CY. (2004). Bone marrow biopsies for the diagnosis of systemic mastocytosis: is one biopsy sufficient? Hematopathology, Am J Clin Pathol, 121: 264-267.

[vii] Sanchez-Munoz L, et al. (2011). Evaluation of the WHO criteria for the classification of patients with mastocytosis. Mod Pathol, 24(9), 1157-1168.

[viii] Phadia AB. ImmunoCAP® Tryptase: Clinical utility of Total Tryptase. Retrieved from: http://www.phadia.com/Global/Market%20Companies/Sweden/Best%C3%A4ll%20information/Filer%20(pdf)/ImmunoCAP_Tryptase_Clin_Util.pdf

[ix] Schwartz LB. (2006). Diagnostic value of tryptase in anaphylaxis and mastocytosis. Immunology and Allergy Clinics of North America, 26(3), 451-463.

[x] Valent P, et al. (2010). How I treat patients with advanced systemic mastocytosis. Blood, 116(26), 5812-5817.

[xi] Matito A, et al. (2013). Serum tryptase monitoring in indolent systemic mastocytosis: association with disease features and patient outcome. PLoS One, 8(10), e76116.

[xii] Lim KH, et al. (2009). Systemic mastocytosis in 342 consecutive adults: survival studies and prognostic factors. Blood, 113(23), 5727-5736.

[xiii] Pardanini A. (2013). How I treat patients with indolent and smoldering mastocytosis (rare conditions but difficult to manage). Blood, 121, 3085-3094.

[xiv] Pardanini A. (2010). WHO subvariants of indolent mastocytosis: clinical details and prognostic evaluation in 159 consecutive adults. Blood, 115, 150-151.

[xv] Ustun C, et al. (2014). Hematopoietic stem-cell transplantation for advanced systemic mastocytosis. J Clin Oncol, 32(29), 3264-3274.

[xvi] Pardanini A. (2013). Systemic mastocytosis in adults: 2013 update on diagnosis, risk stratification, and management. American Journal of Hematology, 88(7, 612-624).

[xvii] Valent P, et al. (2003). Aggressive systemic mastocytosis and related mast cell disorders: current treatment options and proposed response criteria. Leuk Res, 27(7), 635-641.

The Provider Primer Series: Diagnostic criteria of systemic mastocytosis and all subvariants

World Health Organization Classification

  • Mastocytosis was classified by the WHO as a myeloproliferative neoplasm for a number of years. In 2016, the WHO placed mastocytosis into its own category, separate from myeloproliferative neoplasms.
  • In a paper summarizing changes to WHO classification of myeloid neoplasms and acute leukemias, the author stated that “mastocytosis…is no longer considered a subgroup of the MPNs due to its unique clinical and pathologic features, ranging from indolent cutaneous disease to aggressive systemic disease, and is now a separate disease category in the classification[i].”
Table 1: WHO Classification of Mastocytosisi
Category Subtype
Cutaneous mastocytosis (CM) Cutaneous mastocytosis (CM), including maculopapular cutaneous mastocytosis (MPCM, previously called urticaria pigmentosa); solitary mastocytoma of the skin; diffuse cutaneous mastocytosis*Author’s note: Telangiectasia macularis eruptiva perstans (TMEP) is considered a variant of maculopapular cutaneous mastocytosis (MPCM, previously called urticaria pigmentosa)
Systemic mastocytosis (SM) Indolent systemic mastocytosis (ISM)
Smoldering systemic mastocytosis (SSM)
Systemic mastocytosis with an associated hematologic neoplasm (SM-AHN)
Aggressive systemic mastocytosis (ASM)
Mast cell leukemia (MCL)
Mast cell sarcoma (MCS) Mast cell sarcoma (MCS)

 

Diagnostic criteria for subvariants of systemic mastocytosis

Table 2: Diagnostic criteria for indolent systemic mastocytosis[ii] 1 major and 1 minor criterion; or 3 minor criteria
Major Multifocal dense infiltrates of mast cells (15 or more in aggregate) detected in sections of bone marrow and/or extracutaneous organ
Minor In biopsy sections, more than 25% of mast cells in infiltrated space are spindle-shaped or otherwise morphologically abnormal; or, of all mast cells in bone marrow aspirate smears, more than 25% mast cells are immature or abnormal. Detection of CKIT mutation at codon 816 in bone marrow, blood or extracutaneous organ Mast cells in bone marrow, blood or other extracutaneous organ that co-expresses CD-117 with CD2 and/or CD25 Baseline serum tryptase of 20 ng/ml or higher.

 

Table 3: Examples that meet minimum criteria for indolent systemic mastocytosis
Scenario 1:

1 major criterion, 1 minor criterion

Major criterion: Multifocal dense infiltrates of mast cells (15 or more in aggregate) detected in sections of bone marrow and/or extracutaneous organ Minor criterion: Baseline serum tryptase of 20 ng/ml or higher.
Scenario 2:

major criterion, 1 minor criterion

Major criterion: Multifocal dense infiltrates of mast cells (15 or more in aggregate) detected in sections of bone marrow and/or extracutaneous. Minor criterion: In biopsy sections, more than 25% of mast cells in infiltrated space are spindle-shaped or otherwise morphologically abnormal; or, of all mast cells in bone marrow aspirate smears, more than 25% mast cells are immature or abnormal
Scenario 3:

1 major criterion, 1 minor criterion

Major criterion: Multifocal dense infiltrates of mast cells (15 or more in aggregate) detected in sections of bone marrow and/or extracutaneous Minor criterion: Detection of CKIT mutation at codon 816 in bone marrow, blood or extracutaneous organ
Scenario 4:

1 major criterion, 1 minor criterion

Major criterion: Multifocal dense infiltrates of mast cells (15 or more in aggregate) detected in sections of bone marrow and/or extracutaneous Minor criterion: Mast cells in bone marrow, blood or other extracutaneous organ that co-expresses CD-117 with CD2 and/or CD25
Scenario 5:

3 minor criteria

Minor criterion: Mast cells in bone marrow, blood or other extracutaneous organ that co-expresses CD-117 with CD2 and/or CD25 Minor criterion: Detection of CKIT mutation at codon 816 in bone marrow, blood or extracutaneous organ Minor criterion: Baseline serum tryptase of 20 ng/ml or higher.
Scenario 6:

3 minor criteria

Minor criterion: Mast cells in bone marrow, blood or other extracutaneous organ that co-expresses CD-117 with CD2 and/or CD25 Minor criterion: Detection of CKIT mutation at codon 816 in bone marrow, blood or extracutaneous organ Minor criterion: In biopsy sections, more than 25% of mast cells in infiltrated space are spindle-shaped or otherwise morphologically abnormal; or, of all mast cells in bone marrow aspirate smears, more than 25% mast cells are immature or abnormal
Scenario 7:

3 minor criteria

Minor criterion: Mast cells in bone marrow, blood or other extracutaneous organ that co-expresses CD-117 with CD2 and/or CD25 Minor criterion:Baseline serum tryptase of 20 ng/ml or higher. Minor criterion: In biopsy sections, more than 25% of mast cells in infiltrated space are spindle-shaped or otherwise morphologically abnormal; or, of all mast cells in bone marrow aspirate smears, more than 25% mast cells are immature or abnormal
Scenario 8:

3 minor criteria

Minor criterion: In biopsy sections, more than 25% of mast cells in infiltrated space are spindle-shaped or otherwise morphologically abnormal; or, of all mast cells in bone marrow aspirate smears, more than 25% mast cells are immature or abnormal Minor criterion:Baseline serum tryptase of 20 ng/ml or higher. Minor criterion: Detection of CKIT mutation at codon 816 in bone marrow, blood or extracutaneous organ

Systemic mastocytosis with an associated hematologic neoplasm (SM-AHN) is essentially treated as two separate condition: systemic mastocytosis and an associated hematologic neoplastic condition. Accordingly, the diagnostic criteria for the systemic mastocytosis aspect of this diagnosis is the same as described here.

Table 4: Diagnostic criteria for smoldering systemic mastocytosis (2 or 3 B findings)[ii]
B findings Increased mast cell burden (>30% mast cell aggregates on bone marrow biopsy and/or serum tryptase >200 ng/mL) Hypercellular marrow, signs of myelodysplasia or myeloproliferation in absence of MDS or MPN Organ swelling without deficit of organ function (hepatomegaly without ascites, palpable splenomegaly, lymphadenopathy >2 cm)

 

Table 5: Examples that meet the criteria for smoldering systemic mastocytosis (2 or 3 B findings)
Scenario 1:

2 B findings

Meets criteria for systemic mastocytosis Increased mast cell burden (>30% mast cell aggregates on bone marrow biopsy and/or serum tryptase >200 ng/mL) Hypercellular marrow, signs of myelodysplasia or myeloproliferation in absence of MDS or MPN
Scenario 2:

2 B findings

Meets criteria for systemic mastocytosis Increased mast cell burden (>30% mast cell aggregates on bone marrow biopsy and/or serum tryptase >200 ng/mL) Organ swelling without deficit of organ function (hepatomegaly without ascites, palpable splenomegaly, lymphadenopathy >2 cm)
Scenario 3:

2 B findings

Meets criteria for systemic mastocytosis Hypercellular marrow, signs of myelodysplasia or myeloproliferation in absence of MDS or MPN Organ swelling without deficit of organ function (hepatomegaly without ascites, palpable splenomegaly, lymphadenopathy >2 cm)
Scenario 4:

3 B findings

Meets criteria for systemic mastocytosis Increased mast cell burden (>30% mast cell aggregates on bone marrow biopsy and/or serum tryptase >200 ng/mL) Hypercellular marrow, signs of myelodysplasia or myeloproliferation in absence of MDS or MPN Organ swelling without deficit of organ function (hepatomegaly without ascites, palpable splenomegaly, lymphadenopathy >2 cm)

 

Table 6: Diagnostic criteria for aggressive systemic mastocytosis (1 or more C finding)[ii]
C findings One or more cytopenias (absolute neutrophil count <1000/µl; Hemoglobin <10g/dl; platelets <100000/µl) Hepatomegaly with ascites, elevated liver enzymes with or without portal hypertension Splenomegaly with hypersplenism Malabsorption evidenced by low albumin and weight loss Large osteolysis and/or severe osteoporosis and pathologic fractures (2 or more fractures as direct result of mast cell activity)

 

Table 7: Examples that meet the minimum criteria for aggressive systemic mastocytosis (1 or more C finding) 
Scenario 1:

1 C finding

Meets criteria for systemic mastocytosis 1 or more B findings may be present, not a requirement One or more cytopenias (absolute neutrophil count <1000/µl; Hemoglobin <10g/dl; platelets <100000/µl)
Scenario 2:

1 C finding

Meets criteria for systemic mastocytosis 1 or more B findings may be present, not a requirement Malabsorption evidenced by low albumin and weight loss
Scenario 3:

1 C finding

Meets criteria for systemic mastocytosis 1 or more B findings may be present, not a requirement Large osteolysis and/or severe osteoporosis and pathologic fractures (2 or more fractures as direct result of mast cell activity)
Scenario 4:

1 C finding

Meets criteria for systemic mastocytosis 1 or more B findings may be present, not a requirement Hepatomegaly with ascites, elevated liver enzymes with or without portal hypertension
Scenario 5:

1 C finding

Meets criteria for systemic mastocytosis 1 or more B findings may be present, not a requirement Splenomegaly with hypersplenism

 

Table 8: Diagnostic criteria for mast cell leukemia[iii]
Meets criteria for systemic mastocytosis Mast cells compromise 20% of all nucleated cells in blood smears

 

Table 9: Examples that meet the minimum criteria for mast cell leukemia
Scenario 1 Meets criteria for systemic mastocytosis B findings may be present but are not required C findings may be present but are not required Mast cells compromise 20% of all nucleated cells in blood smears

 

[i] Arber DA, et al. (2016). The 2016 revisioin to the World Health Organization classification of myeloid neoplasms and acute leukemia. Blood, 127(20), 2391-2405.

[ii] Molderings GJ, et al. (2011). Mast cell activation disease: a concise practical guide for diagnostic workup and therapeutic options. Journal of Hematology & Oncology, 4(10), 10.1186/1756-8722-4-10

[iii] Valent P, et al. (2014). Refined diagnostic criteria and classification of mast cell leukemia (MCL) and myelomastocytic leukemia (MML): a consensus proposal. Ann Oncol, 25(9), 1691-1700.

The Provider Primer Series: Cutaneous mastocytosis/ Mastocytosis in the skin

Mast cell disease: Categories

  • Mast cell disease is the collective term given to several distinct conditions mediated by mast cell dysfunction.  Speaking broadly, mast cell disease has two forms: mastocytosis, a clonal disease marked by excessive proliferation and infiltration of mast cells; and mast cell activation syndrome (MCAS), a disease that presents similarly to mastocytosis but demonstrates no clear indication of excessive proliferation. In addition, monoclonal mast cell activation syndrome (MMAS) can be viewed as straddling the two groupings with markers of clonality but minimum evidence to suggest overproduction of mast cells[i].
  • Mastocytosis has two forms: cutaneous, in which excessive mast cell infiltration is confined to the skin; and systemic, in which an organ that is not skin that is affected by excessive mast cell infiltration. Patients with systemic mastocytosis (SM) often have cutaneous mastocytosis; in this instance, this is called systemic mastocytosis with mastocytosis in the skin[ii].

Mastocytosis in the skin

  • Cutaneous mastocytosis (CM) is a proliferative condition marked by increased mast cell infiltration of the skin.  There are three subvariants of cutaneous mastocytosis: maculopapular cutaneous mastocytosis (MPCM), formerly known as urticarial pigmentosa (UP); diffuse cutaneous mastocytosis (DCM); and solitary mastocytoma of skin[ii].
  • Mast cell density in lesions is usually increased 4-8x above the density in healthy controls. However, some patients have mast cell density comparable to that in healthy controls[ii].
  • All forms of cutaneous mastocytosis can be found in children. Over 78% present by 13 months and some at birth[v]. Childhood onset CM often resolves by adolescence but not always[ii].
  • Most patients with mast cell lesions in childhood have CM rather than SM. Conversely, most patients who develop these macules in adulthood have systemic mastocytosis with mastocytosis in the skin[ii].
  • MPCM (UP) is overwhelmingly the dominant presentation of mastocytosis in the skin. Over 80% of all mastocytosis patients demonstrate the type of cutaneous involvement[ii].
  • In children, MPCM lesions are usually large and have variable morphology which may change over time. In adults, MPCM often occurs as small red/brown macules and may result in few lesions or cover the majority of the body[iii].
  • Telangiectasia macularis eruptive perstans (TMEP) is described as telangiectatic red macules generally found above the midtrunk. While previously thought to be a discrete entity, TMEP is now recognized as a form of MPCM[ii].
  • DCM is almost exclusively found in children with few adult onset cases. It does not present as discrete lesions but rather generalized erythema. Pachydermia may also be present, as well as darkening of the skin[ii].
  • DCM can be associated with formation of severe bullae from a variety of triggers, including rubbing the skin, infections and teething. Due to mast cell release of heparin, it is not unusual for skin wounds to bleed excessively[ii].
  • A mastocytoma is a low grade mast cell tumor most often found on the skin. It is frequently raised and yellow or brown in color. Touching the lesion usually evokes a strong wheal and flare reaction. Sweating may also occur. Blistering may be present[ii].

Diagnosis of mastocytosis in the skin

  • While a biopsy is the definitive diagnostic method, positive Darier’s sign is present in most children and many adults with mastocytosis in the skin. Use of antihistamines can suppress a positive Darier’s sign[ii].
  • Biopsies from lesional skin should be stained for mast cells using toluidine blue or Giemsa-Wright stain; evaluated for CD117, CD25 and CD2 using IHC; and evaluated for activating mutations in the CKIT gene using PCR or sequencing methods[i] .
Diagnostic criteria for cutaneous mastocytosis  (requires one major and one minor criterion)[iii]
Major Minor
Typical mast cell rash, usually maculopapular, or atypical rash with positive Darier’s sign Dense infiltration by tryptase positive mast cells, >15 mast cells/cluster or >20 mast cells/x40 magnification hpf if not clustered
Activating CKIT mutation detected in biopsy from skin lesion

 

Symptoms and treatment of mastocytosis in the skin

  • Common symptoms localized to the skin include flushing, itching, burning, hives and blistering[iv].
  • Mediator release symptoms can affect other organs regardless of whether or not they have systemic mastocytosis. Flushing, nausea, vomiting, diarrhea and low blood pressure have been reported among other symptoms. Wheezing, shortness of breath and rarely cyanosis may be present. Anaphylaxis can also occur[iii].
  • Treatment for cutaneous mastocytosis/mastocytosis in the skin relies upon histamine blockade with H1 inverse agonists and H2 antagonists; cromolyn sodium; leukotriene antagonists; and PUVA treatment in severe cases[v].
  • In treatment resistant cases, systemic glucocorticoids and topical cromolyn may be used.  In some instances, mastocytomas may be excisedi. Anaphylaxis should be treated with epinephrine per current guidelines[v].

[i] Molderings GJ, et al. (2011). Mast cell activation disease: a concise practical guide for diagnostic workup and therapeutic options. J Hematol Oncol, 4(10), 10.1186/1756-8722-4-10

[ii] Hartmann K, et al. (2016). Cutaneous manifestations in patients with mastocytosis: consensus report of the European Competence Network on Mastocytosis; the American Academy of Allergy, Asthma and Immunology; and the European Academy of Allergology and Clinical Immunology. Journal of Allergy and Clinical Immunology, 137(1), 35-45.

[iii] Valent P, et al. (2007). Standards and standardization in mastocytosis: consensus statements on diagnostics, treatment recommendations and response criteria. European Journal of Clinical Investigation, 37, 435-453.

[iv] Carter MC, et al. (2014). Mastocytosis. Immunol Allergy Clin North Am, 34(1), 10.1016/j.iac.2013.09.001

[v] Castells M, et al. (2011). Guidelines for the diagnosis and treatment of cutaneous mastocytosis in children. Am J Clin Dermatol, 12(4), 259-270.