Microscopic Polyangiitis

Article Author:
Vardhmaan Jain

Article Editor:
Vivekanand Tiwari

Editors In Chief:
Sisira Reddy
Joseph Nahas
Chokkalingam Siva

Managing Editors:
Avais Raja
Orawan Chaigasame
Khalid Alsayouri
Kyle Blair
Radia Jamil
Erin Hughes
Patrick Le
Anoosh Zafar Gondal
Saad Nazir
William Gossman
Hassam Zulfiqar
Navid Mahabadi
Hussain Sajjad
Steve Bhimji
Muhammad Hashmi
John Shell
Matthew Varacallo
Heba Mahdy
Ahmad Malik
Sarosh Vaqar
Mark Pellegrini
James Hughes
Beenish Sohail
Hajira Basit
Phillip Hynes
Sandeep Sekhon

10/27/2018 12:31:43 PM


Microscopic polyangiitis is a small vessel necrotizing vasculitis which is a part of a large spectrum of disorders termed as anti-neutrophil-cytoplasmic-antibody (ANCA)-associated vasculitides (AAV). This umbrella term includes granulomatosis with polyangiitis (GPA or Wegener disease), microscopic polyangiitis (MPA), eosinophilic granulomatosis with polyangiitis (EGPA or Churg-Strauss disease), and renal limited vasculitis (RLV). This classification of vasculitides based on the type of vessels involved and the underlying etiology were first laid down by the International Chapel Hill Convention Conference on the Nomenclature of Vasculitides (CHCC 2012).[1]

The term microscopic polyarteritis was introduced in the literature by Davson in 1948 to describe the pattern of glomerulonephritis seen in patients of polyarteritis nodosa.[2] It was later described as a pattern of necrotizing vasculitis, without immune complex deposition, affecting small vessels such as the capillaries, venules, and arterioles. The disease commonly involves glomerulonephritis, pulmonary capillaritis, and other systemic capillary beds. It shows considerable overlap with Wegener granulomatosis. The absence of granulomatous inflammation involving the upper respiratory tract and the presence of pulmonary capillaritis is said to differentiate MPA from GPA. MPA is also included in a group of disorders termed as pulmonary-renal syndrome, which includes MPA, GPA, Goodpasture disease, and systemic lupus erythematosus (SLE).[3]


The etiopathogenesis of MPA and other related vasculitides has largely been attributed to anti-neutrophil-cytoplasmic antibodies or ANCA. These are host-derived auto-antibodies against shielded neutrophilic antigens. These antibodies react against primary granules present in neutrophils and monocytes. The formation of these antibodies has been hypothesized to be a 2-step process.[4] The first step involves exposure of neutrophils to inflammatory cytokines leading to surface exposure of cryptogenic antigens like myeloperoxidase or MPO. Next, predisposing genetic, environmental and other factors[5] result in the production of MPO-ANCA. In the second step, these MPO-ANCA cause damage to the host vasculature by reacting and crosslinking neutrophils to the endothelial receptors.

Only 70% of cases of MPA have ANCA at the time of diagnosis, and most of the cases of limited MPA do not have ANCA at all. This has lead to the understanding that other factors may also be playing a role in its etiopathogenesis. These include, but are not limited to:

  • Infectious causes: There is considerable overlap in the clinical presentation of various infectious processes and MPAN leading to this implication. A possible role of chronic nasal carriage of Staphylococcus aureus has been suggested in relapsing GPA as well.[6]
  • Drugs: Various drugs like hydralazine, thionamides, sulfasalazine, and minocycline among others have been observed to be associated with the incidence of ANCA-associated vasculitis.[7]
  • Genetic factors: More recently, A genome-wide study conducted in Europe has implicated genes like HLA-DP, HLA-DR3, and alpha-1 antitrypsin in the pathogenesis of ANCA-associated vasculitides.[8]


Due to recent differentiation of MPA from other AAV, widespread data regarding its demographic factors in the American population is not available yet. One study conducted in Rochester, Minnesota over a period of 20 years estimated the annual incidence of AAV to be 3.3 per 100,000 with a prevalence of 42.1 per 100,000. The incidence of GPA and MPA were approximately 1.5 per 100,000.[9] Studies from European countries have revealed a comparatively higher incidence and prevalence of AAV, with the highest incidence rates seen in Spain and the United Kingdom, 11.6 and 5.8 cases per million population respectively.[10] The disease is more prevalent among males with a peak incidence around the age of 40.


As explained above, the clinical manifestations of MPA stem from activation of primed neutrophils and MPO-ANCA with receptors present on the endothelial surface. These lead to a variety of manifestations affecting the renal, pulmonary, and other capillary beds. Individuals may present with an insidious onset of systemic signs like fever, malaise, or weight loss, but more commonly, the onset is acute in patients complaining of arthralgia and flu-like symptoms.[11]

Renal manifestations are most common, and up to 80% to 100% of individuals have some form of glomerulonephritis at onset or with disease progression.[11] The most common manifestation is a "pauci-immune" form of rapidly progressive glomerulonephritis (RPGN). Clinical presentation may vary from asymptomatic hematuria, sub-nephrotic proteinuria, a rise in serum creatinine or overt renal failure.[12] Pulmonary manifestations may be in the form of alveolar hemorrhage, which is sometimes the first presenting symptom of the disease. Cutaneous manifestations include leukocytoclastic-vasculitis, palpable purpura, or nodular and ulcerative lesions that commonly involve the lower extremities. Occasionally ocular manifestations (conjunctivitis, episcleritis, optic neuropathy) and neurological manifestations (mononeuritis multiplex, cranial neuropathy, among others) may also be seen.


Histopathological evidence of vasculitis is the gold standard for confirmation of the diagnosis of MPA and other AAV. The most commonly sampled tissues are renal, skin and lung tissue. Pulmonary findings in MPA is most commonly a form of diffuse capillaritis (distinguishing it form GPA that characteristically shows granulomatous lesions). Skin biopsy yields acute or chronic leukocytoclastic vasculitis with neutrophilic infiltrate in the narrow caliber vessels of the superficial dermis. Renal biopsy most commonly varies from mild focal or segmental to a diffuse necrotizing and sclerosing glomerulonephritis that shows minimal to no immune complex deposits on light and immunofluorescent microscopy ("pauci-immune"). The importance of renal biopsy lies in the fact that the severity of renal involvement on histopathological evaluation correlates clinically with disease activity.[12] It thus plays an important role in guiding patient management and tapering immunosuppressive therapy. Although this is the mainstay, it has been shown that many patients may have a diffuse interstitial nephritis without involving the glomeruli which may pose a difficulty in diagnosis. Moreover, a few may have immune complex deposits in the glomeruli and experience more severe systemic signs and symptoms.[13]

History and Physical

Patients may present with insidious onset fever, arthralgia, weight loss, urinary abnormalities, cough with or without hemoptysis, skin findings consistent with palpable purpura, or non-specific neurological complaints. Some patients may present with acute onset of fulminant disease with frank hemoptysis, hematuria, or even renal failure. Physical examination may show ulceronodular skin lesions of the extremities, fever, tachypnea, and even tachycardia. A pulmonary examination may be significant for rales or bronchial breath sounds in case of pulmonary capillaritis, and Neurological examination may show motor or sensory deficits that are localized to a particular dermatome. Other physical findings will vary depending on the involved capillary bed.


Evaluation of a patient suspected of AAV involves a thorough clinical, radiological, histopathological and lab evaluation:

  • Detailed clinical evaluation to elicit the site and extent of involvement of the different organ systems is the first step in the evaluation.
  • Radiological evaluation involves a chest x-ray as well as CT-scan of the chest to look for pulmonary lesions in the case of patients .presenting with hemoptysis. It also helps to differentiate between GPA and MPA with the former cavitary and nodular lesions on radiological evaluation.
  • Histopathological evaluation should be done when possible (skin, renal. and lung biopsy) to look for evidence of vasculitis and immune deposits. The extent of inflammation seen on renal biopsy may be used as a measure of disease activity and help guide treatment.
  • Lab evaluation involves routine complete blood count (CBC), electrolytes, and measurement of serum titers of MPO and PR3 antibodies which may be seen in most cases. However low serum levels cannot be used to rule out AAV reliably.

Treatment / Management

Treatment of MPA involves extensive use of immunosuppressive agents in different combinations. The aim of treatment has been defined in 2 parts: induction and subsequently maintenance o disease remission. It is important to know that remission does not imply the complete absence of symptoms, rather it is used to convey the absence of symptoms attributable to active vasculitis.[14] The commonly used immunosuppressive agents in the management of MPA include cyclophosphamide, rituximab, methotrexate, glucocorticoids, azathioprine, and a few other biological agents.

  • Induction of remission for individuals with non-severe disease is generally achieved using a combination of glucocorticoids and methotrexate or rituximab alone. For individuals with severe disease, induction using cyclophosphamide with glucocorticoids may be needed. The Rituximab versus Cyclophosphamide for Induction of Remission in AAV trial (RAVE trial) established that comparable results could be achieved with the use of rituximab, especially in individuals experiencing side effects of cyclophosphamide therapy.[15] Typically remission is achieved in most individuals over a period of 2 to 6 months.
  • Maintenance therapy is started after induction of remission and typically involves the use of azathioprine as compared to cyclophosphamide, as was demonstrated by the Cyclophosphamide versus Azathioprine for Early Remission Phase of Vasculitis trial (CYCAZAREM trial).[16]

Differential Diagnosis

A large number of conditions may mimic AAV/MPG and have to be excluded before a diagnosis can be established. These include:

  1. Infectious etiologies
  • Infective endocarditis
  • Disseminated Gonococcosis
  • Rocky Mountain Spotted Fever (RMSF) and other tick born vasculitides
  • Disseminated fungal infections

      2. Malignancies

  • Atrial myxomas
  • Lymohomas
  • Carcinomatosis

     3. Drug toxicities

  • Cocaine
  • Amphetamines
  • Ergot alkaloids
  • Levamisole

    4. Other autoimmune conditions

  • Amyloidosis
  • Goodpasture disease
  • Sarcoidosis

Toxicity and Side Effect Management

The immunosuppressive agents used in the management of AAV have serious side effects which may at times be more debilitating than the manifestations of the disease. These include:

1. Glucocorticoids

  • Osteoporosis
  • Cataract
  • Glaucoma
  • Diabetes mellitus
  • Electrolyte abnormalities
  • Avascular necrosis of bone

2. Cyclophosphamide

  • Bone marrow suppression
  • Hemorrhagic cystitis
  • Bladder carcinoma
  • myelodysplasia

3. Methotrexate

  • Hepatotoxicity
  • Pneumonitis
  • Bone marrow suppression

4. Azathioprine

  • Hepatotoxicity
  • Bone marrow suppression

5. Rituximab

  • Progressive multifocal leukoencephalopathy
  • Opportunistic infections

Enhancing Healthcare Team Outcomes

Microscopic polyangiitis is a difficult condition to manage by the physician because of the heterogeneity in its clinical presentation as well as the patient-specific treatment that it demands. Good communication and interplay among the physicians, nurses, radiologists, pathologists, and the pharmacists may help to ease this hurdle. The nurses play an important in monitoring and charting vitals, especially urine output, which has a crucial role in helping the physician to decide the treatment. The radiologists play an important role in assisting image-guided tissue biopsy, which is then studied by the pathologist to confirm the presence of disease. Proper dosing and dispensing of the immunosuppressive agents by the pharmacists can help in the induction and maintenance of remission; whereas failure to do so can lead to severe systemic side-effects of these drugs. To ease the process of deciding the appropriate treatment, researchers at Johns Hopkins University have teamed up to provide the revised Birmingham score, which can be used to classify the disease state of the patient clinically.[17]

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Microscopic Polyangiitis - Questions

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A 65-year-old male is admitted to the hospital with respiratory distress and hemoptysis. He had been well until 3 months ago when he started losing weight. He has lost 10 pounds in the past 3 months. The patient's laboratories include a WBC of 9,800/microliter, hemoglobin 10.5 mg/dL, blood urea nitrogen 80 mg/dL, and creatinine 3.1 mg/dL. A urinalysis shows 2+ protein, 30 red blood cells per high power field, and occasional RBC casts. A CT of the chest shows diffuse alveolar infiltrates secondary to hemorrhage. An anti-myeloperoxidase titer is positive at 132 units/mL (normal less than 1.4 unit/mL). What is the most likely diagnosis?

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Which of the following parameters correlates with severity of disease activity in case of microscopic polyangiitis?

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Which of the following is the therapeutic agent of choice for induction of remission in patients of microscopic polyangiitis with severe organ-threatening disease?

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A 49-year-old white male presents with two episodes of hemoptysis in the past 3 hours. His vitals are significant for a blood pressure of 90/60 mmHg and a heart rate of 110 bpm. He was diagnosed with microscopic polyangiitis (MPA) two years ago and also suffers from end-stage renal disease (ESRD). His medications include azathioprine and glucocorticoids. What will a lung biopsy most likely show?

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Renal biopsy in a patient of microscopic polyangiitis (MPA) will yield which of the following findings?

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Microscopic Polyangiitis - References


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