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Polyarteritis nodosa

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Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1] Ali Poyan Mehr, M.D. [2]; Associate Editor(s)-in-Chief: Sargun Singh Walia M.B.B.S.[3]Olufunmilola Olubukola M.D.[4] Cafer Zorkun, M.D., Ph.D. [5]; Haritha Machavarapu, M.B.B.S.

Synonyms and keywords: PAN; Kussmaul disease; Kussmaul-Meier disease; periarteritis nodosa

Overview

Overview

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1] Ali Poyan Mehr, M.D. [2]; Associate Editor(s)-in-Chief: Sargun Singh Walia M.B.B.S.[3] Olufunmilola Olubukola M.D.[4] Cafer Zorkun, M.D., Ph.D. [5]; Haritha Machavarapu, M.B.B.S.

Overview

Polyarteritis nodosa (PAN) is a systemic necrotizing vasculitis that typically affects the medium (and occasionally, small-sized) muscular arteries. The Chapel Hill International Consensus Conference (CHCC) has differentiated PAN from microscopic polyangiitis which primarily affects small vessels [1]. The diagnosis of PAN is challenging due to of lack of a serological marker, and lack of specific histological characteristics. Polyarteritis nodosa unlike most other vasculidities is not Antineutrophil Cytoplasmic Antibodies (ANCA) positive [2]. PAN is a rare disease and often affects multiple organs but strikingly, PAN does not affect the lungs. The organs commonly affected by PAN include the kidneys, skin, joints, muscles, nerves, and gastrointestinal tract.

While it often has a multisystem presentation at diagnosis, variants like single-organ disease and cutaneous-only PAN do occur as well. PAN has been associated with hepatitis B and C virus infection.

Historical Perspective

Polyarteritis nodosa was first described macroscopically by the pathologist K. Rokitansky in 1842.He described the presence of aneurysms macroscopically and therefore missed the inflammatory nature of this disease.Polyarteritis nodosa was better described in 1866 by A. Kussmaul and R. Maier who provided a clinical description of a patient.Kussmaul and Maier introduced the term “periarteritis nodosa” to describe the nodules observed in intermediate-sized vascular arteries but this term was later changed to “Polyarteritis nodosa” when these nodules showed the involvement of all layers of the artery.

Classification

There is no established system for the classification of polyarteritis nodosa.

Pathophysiology

The exact pathogenesis of PAN is not fully understood.It is a disease of unknown cause that affects arteries, the blood vessels that carry oxygenated blood to organs and tissues.PAN affects the medium sized arterial vessels.PAN does not affect large arterial vessels, capillaries, small arterioles and venous system. It occurs when certain immune cells attack the affected arteries.Inflammation starts in the vessel intima and results in fibrinoid necrosis by destroying the internal and external elastic lamina.Aneurysms and thrombi may develop at the site of lesions.One hypothesis is that this condition is caused by antibodies against HBV, via atype IIII hypersensitivity reaction.Due to inflammation of the medium to small sized vessels in PAN and the presence of impaired endothelial function, there could be direct endothelial cell activation and damage resulting from proinflammatory cytokines or antibodies (anti-endothelial cells antibodies).Mutation in CECR1 can lead to vascular and inflammatory disorders which also include PAN.

Causes

The common causes of PAN are idiopathic, Hepatitis B infectionHepatitis C infectionhairy cell leukemia and drug induced. Less common causes include varicella-zoster virusparvovirus B-19cytomegalovirus, human T-cell leukemia virus etc.

Differentiating Polyarteritis Nodosa from other Diseases

Polyarteritis nodosa must be differentiated from other diseases that cause may lead to medium vessel vasculitis. The diseases that can lead to medium vessel vasculitis are polyarteritis nodosa, kawasaki disease, infections, cardiovascular diseases and systemic diseases.

Epidemiology and Demographics

The incidence of polyarteritis nodosa is approximately 3 to 4 per 100,000 individuals worldwide.The prevalence among alaskan population suffering with hepatitis Binfection is approximately 7.7 per 100,000 individuals.Patients of all age groups may develop polyarteritis nodosa.There is no racial predilection to polyarteritis nodosa.Males are more commonly affected by polyarteritis nodosa than females.Population prevalence estimates for polyarteritis nodosa (PAN) range from 2 to 33 per million across the European Countries.

Risk Factors

Common risk factors in the development of PAN include hepatitis B virus infection and age 40 to 60. Less common risk factors in the development of PAN include hairy cell leukemiahepatitis C virus and male sex.

Screening

There is insufficient evidence to recommend routine screening for polyarteritis nodosa.

Natural History, Complications and Prognosis

PAN if left untreated, the disease is fatal in most cases. The most serious associated conditions generally involve the kidneys and gastrointestinal tract. Common complications of PAN include Stroke,Kidney failureheart attack,Intestinal necrosis and perforation. Prognosis is generally good if the treatment is started.Therapy results in remissions or cures in 90% of cases. Guillevin and coworkers have described five prognostic factors that predict high probability of mortality and are considered indications for another immunosuppressive drug in addition to prednisone.

Diagnosis

History and Symptoms

Patients with polyarteritis nodosa may have an acute presentation.The prodrome of polyarteritis nodosa can range from anywhere between weeks to months. Polyarteritis nodosa is a multiorgan disorder but can also be seen in a single organ. Common symptoms include fatigue, weakness, fever,abdominal paindecreased appetite etc

Physical Examination

Physical examination plays an important role in diagnosing polyarteritis nodosa. Arteritis can be suspected with the presence of multiple mononeuropathies.Signs of ischemia such as extremity ischemia, hypertension and renovascular disease can help in diagnosing polyarteritis nodosa. Skin examination of patients with polyarteritis nodosa can show Livedo reticularis, ulceration, digital ischemia, and nodules. Polyarteritis nodosa may present with ophthalmologic symptoms like retinal vasculitis, retinal detachment and cotton-wool spots. Cardiovascular examination of patients with polyarteritis nodosa shows hypertension, tachycardia, pericardial friction rub, arrhythmias and congestive heart failure. Abdominal examination of patients with polyarteritis nodosa shows abdominal tenderness and gastro-intestinal bleeding. Neuromuscular examination of patients with polyarteritis nodosa shows sensory and/or motor neuropathies and mononeuritis multiplex.

Laboratory Findings

There are no specific lab tests for diagnosing polyarteritis nodosa. Diagnosis is generally based upon the physical examination and a few laboratory studies that help to confirm the diagnosis. Laboratory findings helpful in the diagnosis of polyarteritis nodosa include CBC, ESR, C-reactive protein, p-ANCAHepatitis B surface antigen and hepatitic C serologies, elevated levels of liver enzymes, elevated creatinine level and hypergammaglobulinemia.

Electrocardiogram

There are no ECG findings specific to polyarteritis nodosa but patients may present with arrhythmia.

Chest X Ray

There are no x-ray findings associated with polyarteritis nodosa.

CT

CT scan may be helpful in the diagnosis of polyarteritis nodosa. Findings on CT scan of GI tract suggestive of polyarteritis nodosa include bowel wall thickening, mesenteric vascular engorgement, ascites, bowel obstruction and diffuse mucosal fold thickening.

MRI

MRI is useful to identify hemorrhage and ischemia in the central nervous system. New MRI techniques utilize perfusion weighted images and blood diffusion to distinguish intracranial hemorrhage and reversible ischemia. MRI can also be used to image the abdomen when there is GI involvement.

Echocardiography or Ultrasound

There are no echocardiography/ultrasound findings associated with PAN.

Other Imaging Findings

Arteriography is the best imaging study to diagnosis of PAN. Findings on an arteriography diagnostic of PAN include microaneurysm, saccular aneurysm and tortuous vessels showing irregular lumina, segmental luminal narrowing or dilatation, infarctions, vascular irregularity and segmental occlusions.

Other Diagnostic Studies

EMG and nerve conduction studies can be done in cases of nerve involvement and help in nerve biopsy. Tissue biopsy (reveals inflammation in small arteries, called arteritis).

Treatment

Surgery

Surgical intervention is not recommended for the management of polyarteritis nodosa.

Medical Therapy

Treatment involves medications to suppress the immune system such as prednisone and cyclophosphamide. Addition of immunosuppressants like cyclophosphamidemethotrexateazathioprine to corticosteroid therapy has better prognosis. Patients with hepatitis B associated polyarteritis nodosa are treated with corticosteroid therapy, antiviral agents and plasma exchanges. Unlike hepatitis B associated PAN, Hepatitis C associated PAN is treated with Rituximab and corticosteoid therapy without antiviral agents, emphasizing the B cell targeted therapy. Mild cases of cutaneous polyarteritis nodosa are treated with nonsteroidal anti-inflammatory drugs. Severe cases are treated with corticosteroid and adjunctive therapy. Antibiotics are added to the treatment of patients with antecedent streptococcal infections or high ASO titer.Intravenous immunoglobulin is suggested for treatment of corticosteroid therapy resistant cases, but the effect is transient. It is also used in the treatment of Parvovirus B19 associated polyarteritis nodosa

Primary Prevention

There are no established measures for the primary prevention of polyarteritis nodosa.

Secondary Prevention

There are no established measures for the secondary prevention of polyarteritis nodosa.

Cost-Effectiveness of Therapy

Future or Investigational Therapies

Case Studies

Case #1

References

  1. Jennette JC, Falk RJ, Andrassy K, Bacon PA, Churg J, Gross WL; et al. (1994). “Nomenclature of systemic vasculitides. Proposal of an international consensus conference”. Arthritis Rheum. 37 (2): 187–92. PMID 8129773.
  2. Kallenberg CG, Brouwer E, Weening JJ, Tervaert JW (1994). “Anti-neutrophil cytoplasmic antibodies: current diagnostic and pathophysiological potential”. Kidney Int. 46 (1): 1–15. PMID 7933826.

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Historical Perspective

Historical Perspective

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1];Ali Poyan Mehr, M.D. [2] Associate Editor(s)-in-Chief: Olufunmilola Olubukola M.D.[3] Cafer Zorkun, M.D., Ph.D. [4]; Haritha Machavarapu, M.B.B.S.

Overview

Polyarteritis nodosa was first described macroscopically by the pathologist K. Rokitansky in 1842.He described the presence of aneurysms macroscopically and therefore missed the inflammatory nature of this disease.Polyarteritis nodosa was better described in 1866 by A. Kussmaul and R. Maier who provided a clinical description of a patient.Kussmaul and Maier introduced the term “periarteritis nodosa” to describe the nodules observed in intermediate-sized vascular arteries but this term was later changed to “Polyarteritis nodosa” when these nodules showed the involvement of all layers of the artery.

Historical Perspective

  • Polyarteritis nodosa was first described macroscopically by the pathologist K. Rokitansky in 1842.
  • Polyarteritis nodosa was better described in 1866 by A. Kussmaul and R. Maier who provided a clinical description of a patient.
  • Kussmaul and Maier introduced the term “periarteritis nodosa” to describe the nodules observed in intermediate-sized vascular arteries but this term was later changed to “Polyarteritis nodosa” when these nodules showed the involvement of all layers of the artery [2].
  • In 1931, Dr. Lindberg became the first person to recognize polyarteritis nodosa limited to skin [3].
  • In 1970, Trepo and Thivolet reported the association of polyarteritis nodosa with hepatitis B virus (HBV) infection [4], later it became obvious that most polyarteritis nodosa cases were associated with HBV.

References

  1. Tesar V, Kazderová M, Hlavácková L (2004). “Rokitansky and his first description of polyarteritis nodosa”. J Nephrol. 17 (1): 172–4. PMID 15151275.
  2. Kluge FJ, Matteson EL (2003). “[Think clearly, be sincere, act calmly: Adolf Kussmaul (1822-1902) un his significance for medicine in the 21st century]”. Z Rheumatol. 62 (5): 484–90. doi:10.1007/s00393-003-0536-5. PMID 14579038.
  3. BOSS J (1945). “[Not Available]”. Schweiz Z Tuberk. 2 (2): 89–108. PMID 21008159.
  4. Trepo C, Thivolet J (1970). “Hepatitis associated antigen and periarteritis nodosa (PAN)”. Vox Sang. 19 (3): 410–1. PMID 4396040.


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Classification

Classification

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]

Overview

There is no established system for the classification of polyarteritis nodosa.

Classification

  • There is no established system for the classification of polyarteritis nodosa.

References


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Pathophysiology

Pathophysiology

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1];Ali Poyan Mehr, M.D. [2] Associate Editor(s)-in-Chief: Olufunmilola Olubukola M.D.[3]Cafer Zorkun, M.D., Ph.D. [4]Sargun Singh Walia M.B.B.S.[5]; Haritha Machavarapu, M.B.B.S.

Overview

The exact pathogenesis of PAN is not fully understood.It is a disease of unknown cause that affects arteries, the blood vessels that carry oxygenated blood to organs and tissues.PAN affects the medium sized arterial vessels.PAN does not affect large arterial vessels, capillaries, small arterioles and venous system. It occurs when certain immune cells attack the affected arteries.Inflammation starts in the vessel intima and results in fibrinoid necrosis by destroying the internal and external elastic lamina.Aneurysms and thrombi may develop at the site of lesions.One hypothesis is that this condition is caused by antibodies against HBV, via a type IIII hypersensitivity reaction.Due to inflammation of the medium to small sized vessels in PAN and the presence of impaired endothelial function, there could be direct endothelial cell activation and damage resulting from proinflammatory cytokines or antibodies (anti-endothelial cells antibodies).Mutation in CECR1 can lead to vascular and inflammatory disorders which also include PAN.

Pathophysiology

Pathogenesis

Genetics

  • The development of PAN is the result of multiple genetic mutations.
    • Mutation in CECR1 can lead to vascular and inflammatory disorders which also include PAN.[6] [7]
      • CECR1 is also known as ADA2.
      • It is responsible for production of adenosine deaminase 2.

Associated Conditions

The following conditions are associated with the development of polyarteritis nodosa:

  • Hepatitis B infection
  • Hepatitis C infection

Microscopic Pathology

  • Microscopic histopathological analysis of a biopsy sample from a patient of PAN reveals:
    • Focal necrotizing arteritis
      • Mixed cellular infiltrate are seen within the vessel wall.
    • Nerve biopsy
      • Axonal degeneration
      • Fiber loss
      • Wallerian degeneration
      • Perineural necrosis
      • Neoangiogenesis around epineurium or perineurium
    • Segmental demyelination[8]

References

  1. Stone JH (October 2002). “Polyarteritis nodosa”. JAMA. 288 (13): 1632–9. PMID 12350194.
  2. Stone JH (October 2002). “Polyarteritis nodosa”. JAMA. 288 (13): 1632–9. PMID 12350194.
  3. Colmegna I, Maldonado-Cocco JA (August 2005). “Polyarteritis nodosa revisited”. Curr Rheumatol Rep. 7 (4): 288–96. PMID 16045832.
  4. Saadoun D, Terrier B, Semoun O; et al. (2011). “Hepatitis C virus-associated polyarteritis nodosa”. Arthritis Care Res (Hoboken). 63 (3): 427–35. doi:10.1002/acr.20381. PMID 20981809. Unknown parameter |month= ignored (help)
  5. Filer AD, Gardner-Medwin JM, Thambyrajah J, Raza K, Carruthers DM, Stevens RJ; et al. (2003). “Diffuse endothelial dysfunction is common to ANCA associated systemic vasculitis and polyarteritis nodosa”. Ann Rheum Dis. 62 (2): 162–7. PMC 1754444. PMID 12525387.
  6. Zhou Q, Yang D, Ombrello AK, Zavialov AV, Toro C, Zavialov AV, Stone DL, Chae JJ, Rosenzweig SD, Bishop K, Barron KS, Kuehn HS, Hoffmann P, Negro A, Tsai WL, Cowen EW, Pei W, Milner JD, Silvin C, Heller T, Chin DT, Patronas NJ, Barber JS, Lee CC, Wood GM, Ling A, Kelly SJ, Kleiner DE, Mullikin JC, Ganson NJ, Kong HH, Hambleton S, Candotti F, Quezado MM, Calvo KR, Alao H, Barham BK, Jones A, Meschia JF, Worrall BB, Kasner SE, Rich SS, Goldbach-Mansky R, Abinun M, Chalom E, Gotte AC, Punaro M, Pascual V, Verbsky JW, Torgerson TR, Singer NG, Gershon TR, Ozen S, Karadag O, Fleisher TA, Remmers EF, Burgess SM, Moir SL, Gadina M, Sood R, Hershfield MS, Boehm M, Kastner DL, Aksentijevich I (March 2014). “Early-onset stroke and vasculopathy associated with mutations in ADA2”. N. Engl. J. Med. 370 (10): 911–20. doi:10.1056/NEJMoa1307361. PMC 4193683. PMID 24552284.
  7. Navon Elkan P, Pierce SB, Segel R, Walsh T, Barash J, Padeh S, Zlotogorski A, Berkun Y, Press JJ, Mukamel M, Voth I, Hashkes PJ, Harel L, Hoffer V, Ling E, Yalcinkaya F, Kasapcopur O, Lee MK, Klevit RE, Renbaum P, Weinberg-Shukron A, Sener EF, Schormair B, Zeligson S, Marek-Yagel D, Strom TM, Shohat M, Singer A, Rubinow A, Pras E, Winkelmann J, Tekin M, Anikster Y, King MC, Levy-Lahad E (March 2014). “Mutant adenosine deaminase 2 in a polyarteritis nodosa vasculopathy”. N. Engl. J. Med. 370 (10): 921–31. doi:10.1056/NEJMoa1307362. PMID 24552285.
  8. Griffin JW (November 2001). “Vasculitic neuropathies”. Rheum. Dis. Clin. North Am. 27 (4): 751–60, vi. PMID 11723762.

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Causes

Causes

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1];Ali Poyan Mehr, M.D. [2] Associate Editor(s)-in-Chief: Sargun Singh Walia M.B.B.S.[3]

Overview

The common causes of PAN are idiopathic, Hepatitis B infection, Hepatitis C infection, hairy cell leukemia and drug induced. Less common causes include varicella-zoster virus, parvovirus B-19, cytomegalovirus, human T-cell leukemia virus etc.

Causes

Common Causes

PAN may be caused by:

Less Common Causes

PAN may be caused by:

References

  1. Stone JH (October 2002). “Polyarteritis nodosa”. JAMA. 288 (13): 1632–9. PMID 12350194.
  2. Guillevin L, Mahr A, Callard P, Godmer P, Pagnoux C, Leray E; et al. (2005). “Hepatitis B virus-associated polyarteritis nodosa: clinical characteristics, outcome, and impact of treatment in 115 patients”. Medicine (Baltimore). 84 (5): 313–22. PMID 16148731.
  3. Ramos-Casals M, Muñoz S, Medina F, Jara LJ, Rosas J, Calvo-Alen J; et al. (2009). “Systemic autoimmune diseases in patients with hepatitis C virus infection: characterization of 1020 cases (The HISPAMEC Registry)”. J Rheumatol. 36 (7): 1442–8. doi:10.3899/jrheum.080874. PMID 19369460.
  4. Hasler P, Kistler H, Gerber H (1995). “Vasculitides in hairy cell leukemia”. Semin Arthritis Rheum. 25 (2): 134–42. PMID 8578313.
  5. Imanishi H, Tsuruta D, Oshimo T, Sowa J, Mizuno N, Nakagawa K, Ishii M (August 2012). “Cutaneous polyarteritis nodosa induced by Mycobacterium tuberculosis”. J. Dermatol. 39 (8): 738–9. doi:10.1111/j.1346-8138.2011.01398.x. PMID 22035185.
  6. Patel N, Patel N, Khan T, Patel N, Espinoza LR (December 2011). “HIV infection and clinical spectrum of associated vasculitides”. Curr Rheumatol Rep. 13 (6): 506–12. doi:10.1007/s11926-011-0214-6. PMID 21989711.
  7. Watts RA, Mooney J, Lane SE, Scott DG (July 2004). “Rheumatoid vasculitis: becoming extinct?”. Rheumatology (Oxford). 43 (7): 920–3. doi:10.1093/rheumatology/keh210. PMID 15126674.
  8. Nakano H, Ooka S, Shibata T, Ogawa H, Ito H, Takakuwa Y, Tonooka K, Maeda A, Yamasaki Y, Kiyokawa T, Nagafuchi H, Yamada H, Ozaki S (September 2012). “Cutaneous polyarteritis nodosa associated with HLA-B39-positive undifferentiated spondyloarthritis in a Japanese patient”. Mod Rheumatol. 22 (5): 783–6. doi:10.1007/s10165-011-0576-7. PMID 22270344.
  9. Pagnini I, Simonini G, Lippi F, Azzari C, Cimaz R (2012). “Cutaneous polyarteritis nodosa and common variable immunodeficiency: a previously unreported association”. Clin. Exp. Rheumatol. 30 (1 Suppl 70): S169. PMID 22260879.
  10. Oulego-Erroz I, Gautreaux-Minaya S, Martinez-Sáenz de Jubera J, Naranjo-Vivas D, Fernéndez-Hernández S, Muñíz-Fontán M (September 2011). “Coexistence of polyarteritis nodosa and psoriatic arthritis in a child: an unreported association: Polyarteritis nodosa and Psoriatic arthitritis”. Eur. J. Pediatr. 170 (9): 1213–5. doi:10.1007/s00431-011-1459-9. PMID 21487680.

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Differentiating Polyarteritis nodosa from other Diseases

Differentiating Polyarteritis nodosa from other Diseases

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Associate Editor(s)-in-Chief: Eiman Ghaffarpasand, M.D. [2]

Overview

Polyarteritis nodosa must be differentiated from other diseases that cause may lead to medium vessel vasculitis. The diseases that can lead to medium vessel vasculitis are polyarteritis nodosa, kawasaki disease, infections, cardiovascular diseases and systemic diseases.

Differentiating Polyarteritis Nodosa from other Diseases

  • The following table differentiates polyarteritis nodosa from other diseases that may lead to medium vessel vasculitis.

Abbreviations: ABG= Arterial blood gas, ANA= Antinuclear antibody, ANP= Atrial natriuretic peptide, ASO= Antistreptolysin O antibody, BNP= Brain natriuretic peptide, CBC= Complete blood count, COPD= Chronic obstructive pulmonary disease, CRP= C-reactive protein, CT= Computed tomography, CXR= Chest X-ray, DVT= Deep vein thrombosis, ESR= Erythrocyte sedimentation rate, HRCT= High Resolution CT, IgE= Immunoglobulin E, LDH= Lactate dehydrogenase, PCWP= Pulmonary capillary wedge pressure, PCR= Polymerase chain reaction, PFT= Pulmonary function test.

Diseases Clinical manifestations Para-clinical findings Gold standard Additional findings
Symptoms Physical examination
Lab Findings Imaging Histopathology
Headache Fever Weight loss Arthralgia Claudication Bruit HTN Focal neurological disorder Biomarker CBC ESR Other CT scan Angiography Ultrasound/ Echocardiography Other
Polyarteritis nodosa[1] + + + + + + +/- +/- LAMP-2 protein autoantibodies Leukocytosis, Normochromic anemia, Thrombocytosis Cr or BUN,

ALT or AST, Proteinuria

Focal regions of infarction or hemorrhage Multiple microaneurysms, Hemorrhage due to focal rupture, Occlusion Aneurysms and renal arteriovenous fistula in color Doppler sonography Necrotizing inflammatory lesions Angiography Sudden weight loss, Abdominal pain
Hepatitis B virus-associated polyarteritis nodosa[2] +/- +/- + + +/- +/- + HBsAg Leukocytosis, Normochromic anemia, Thrombocytosis ALT or AST Focal regions of infarction or hemorrhage Microaneurysms in mesenteric artery Aneurysms and renal arteriovenous fistula in color Doppler sonography Necrotizing inflammatory lesions Angiography Peripheral neuropathy, Livedo reticularis
Kawasaki disease[3] + +/- + + +/- NT-proBNP, Meprin A, Filamin C Normochromic anemia, ↑WBC with a left shift, Thrombocytosis  Acute-phase reactants, ↓Cholesterol, ↓HDL, ↓ApolipoA Coronary artery calcifications Coronary artery aneurysms, stenosis or occlusion Coronary artery anomaly in echocardiography Electron beam CT (EBCT) Acute destruction of the media by neutrophils, with loss of elastic fibers History and physical examination Diarrhea, Vomiting
Infectious disease Parvovirus B19 infection[4] + + + + +/- B19 DNA, ↓Reticulocyte count Anemia anti–parvovirus B19 IgM Hydrops in fetal ultrasonography B19 DNA Purpuric rash, Erythema multiforme
Scarlet fever[5] + + +/- + Antistreptolysin-O (ASO) titers Leukocytosis CRP Thickened pulmonary markings if pneumonia Sparse neutrophilic perivascular infiltrate History and physical examination Sand-paper rashes, Sore throat
Toxic shock syndrome[6] + + + + +/- Procalcitonin Leukocytosis with left shift Myoglobinuria, Sterile pyuria Acute respiratory distress syndrome Necrolysis of keratinocytes in epidermis, Perivascular lymphocytic infiltrate Clinical criteria Peeling or rashes, Organ dysfunction
Mononucleosis[7] + + + + EBV DNA Atypical lymphocyte Heterophile antibodies CNS involvement Splenomegaly Encephalitis in MRI Lymphoproliferative response in oropharynx, Lymphocytic infiltration in spleen Heterophile antibody test Splenomegaly, Palatal petechiae
Leptospirosis[8] + + + + +/- IL-6, IL-8 and IL-10 Anemia Cr or BUN,

ALT or AST, Proteinuria

 Diffuse alveolar hemorrhage Toxin-mediated break down of endothelial cell membranes of capillaries Culture and the microscopic agglutination test Red eyes, Skin rash
Lyme Disease[9] +/- + +/- + +/- CXCL9 (MIG), CXCL10 (IP-10) and CCL19 (MIP3B) Leukopenia, Thrombocytopenia Microscopic hematuria, Proteinuria, ↑ALT or AST Punctate lesions in periventricular white matter in brain SPECT Acrodermatitis chronica atrophicans Serologic tests Erythema migrans
Measles[10] +/- + +/- + Measles IgM Leukopenia, Lymphocytosis, Thrombocytopenia ALT or AST Pneumonia CXR Spongiosis and vesiculation in the epidermis with scattered dyskeratotic keratinocytes PCR Generalized rash, Cough, Coryza, or Conjunctivitis
Rocky Mountain Spotted Fever[11] + + + + R rickettsii serology Thrombocytopenia, Anemia  ALT or AST, Hyponatremia Infarction, edema, and meningeal enhancement Myocardial or conduction abnormalities in echocardiography Immunofluorescent or immunoperoxidase staining of R rickettsii Clinical criteria and tick exposure Rash on the palms and soles
Staphylococcal Scalded Skin Syndrome[12] + + + + +/- +/- Anti exfoliatin and anti alpha-toxin antibodies Leukocytosis with left shift Blood culture Pneumonia Intraepidermal blister, dense superficial perivascular lymphohistiocytic infiltrate  Blood culture and clinical findings Widespread skin erythema, fluid-filled blisters
Toxic Epidermal Necrolysis[13] + + +/- MicroRNA-124 Normochromic normocytic anemia, Eosinophilia Fluid loss and electrolyte abnormalities Tracheobronchial inflammation Necrotic keratinocytes with full-thickness epithelial necrosis Histopathology and clinical findings Erythematous macular rash with purpuric centers
Cardiovascular disease Atrial Myxoma[14] +/- +/- Calretinin Mild anemia, Leukocytosis IL-6 Atrial filling defect larger than a thrombus Tumor location, size, attachment, and mobility in echocardiography Size, shape, and surface characteristics in MRI Lipidic cells embedded in a vascular myxoid stroma Echocardiography Dyspnea on exertion, Syncope
Cholesterol Embolism[15] +/- +/- + + IL-5 Eosinophilia, Leukocytosis   Eosinophiluria Thoracic and abdominal aortic sources of embolism Atheroembolism in abdominal aorta and the lower extremity arteries Excluding an intracardiac source of embolism with echocardiography  Birefringent crystals or biconvex needle-shaped ghostly clefts within the arterial lumen Angiography  Livedo reticularis,

Ischemic patches

Segmental arterial mediolysis[16] + + + + +/- Leukocytosis Visceral artery aneurysm in CT angiography Alternating aneurysms and stenoses (beading) Retroperitoneal hematoma Disruption of the smooth muscle in the media Angiography  Hematuria, Ischemic colitis
Systemic disease Antiphospholipid Syndrome[17] + + +/- Antiphospholipid antibodies Thrombocytopenia, Hemolytic anemia Lupus anticoagulant (LA) Stroke,

Pulmonary embolism, Budd-Chiari syndrome

Thrombus in major vessels Valve thickening, vegetations, or insufficiency in echocardiography Noninflammatory bland thrombosis without perivascular inflammation Hx of thrombosis and antiphospholipid antibodies Miscarriage, Pulmonary hypertension
Juvenile Idiopathic Arthritis[18] + +/- Rheumatoid factor (RF), S100A12 Lymphocytosis, Thrombocytopenia Myeloid-related proteins 8/14 (MRP8/14) Synovial hypertrophy, Joint effusions Cerebral vasculitis Inflamed synovium Bone scanning Vascular congestion, RBC extravasation, Venular lumen occlusion Conventional radiography Evanescent rash, Dactylitis 

References

  1. Howard T, Ahmad K, Swanson JA, Misra S (2014). “Polyarteritis nodosa”. Tech Vasc Interv Radiol. 17 (4): 247–51. doi:10.1053/j.tvir.2014.11.005. PMC 4363102. PMID 25770638.
  2. Sharma A, Sharma K (September 2013). “Hepatotropic viral infection associated systemic vasculitides-hepatitis B virus associated polyarteritis nodosa and hepatitis C virus associated cryoglobulinemic vasculitis”. J Clin Exp Hepatol. 3 (3): 204–12. doi:10.1016/j.jceh.2013.06.001. PMC 4216827. PMID 25755502.
  3. Takahashi K, Oharaseki T, Yokouchi Y (2011). “Pathogenesis of Kawasaki disease”. Clin Exp Immunol. 164 Suppl 1: 20–2. doi:10.1111/j.1365-2249.2011.04361.x. PMC 3095860. PMID 21447126.
  4. Heegaard ED, Brown KE (2002). “Human parvovirus B19”. Clin Microbiol Rev. 15 (3): 485–505. PMC 118081. PMID 12097253.
  5. Basetti S, Hodgson J, Rawson TM, Majeed A (2017). “Scarlet fever: a guide for general practitioners”. London J Prim Care (Abingdon). 9 (5): 77–79. doi:10.1080/17571472.2017.1365677. PMC 5649319. PMID 29081840.
  6. Vostral SL (2011). “Rely and Toxic Shock Syndrome: a technological health crisis”. Yale J Biol Med. 84 (4): 447–59. PMC 3238331. PMID 22180682.
  7. Balfour HH, Dunmire SK, Hogquist KA (2015). “Infectious mononucleosis”. Clin Transl Immunology. 4 (2): e33. doi:10.1038/cti.2015.1. PMC 4346501. PMID 25774295.
  8. Levett PN (April 2001). “Leptospirosis”. Clin. Microbiol. Rev. 14 (2): 296–326. doi:10.1128/CMR.14.2.296-326.2001. PMC 88975. PMID 11292640.
  9. Biesiada G, Czepiel J, Leśniak MR, Garlicki A, Mach T (2012). “Lyme disease: review”. Arch Med Sci. 8 (6): 978–82. doi:10.5114/aoms.2012.30948. PMC 3542482. PMID 23319969.
  10. White SJ, Boldt KL, Holditch SJ, Poland GA, Jacobson RM (2012). “Measles, mumps, and rubella”. Clin Obstet Gynecol. 55 (2): 550–9. doi:10.1097/GRF.0b013e31824df256. PMC 3334858. PMID 22510638.
  11. Walker DH (1989). “Rocky Mountain spotted fever: a disease in need of microbiological concern”. Clin Microbiol Rev. 2 (3): 227–40. PMC 358117. PMID 2504480.
  12. Mishra AK, Yadav P, Mishra A (2016). “A Systemic Review on Staphylococcal Scalded Skin Syndrome (SSSS): A Rare and Critical Disease of Neonates”. Open Microbiol J. 10: 150–9. doi:10.2174/1874285801610010150. PMC 5012080. PMID 27651848.
  13. Hoetzenecker W, Mehra T, Saulite I, Glatz M, Schmid-Grendelmeier P, Guenova E; et al. (2016). “Toxic epidermal necrolysis”. F1000Res. 5. doi:10.12688/f1000research.7574.1. PMC 4879934. PMID 27239294.
  14. MacGowan SW, Sidhu P, Aherne T, Luke D, Wood AE, Neligan MC, McGovern E (June 1993). “Atrial myxoma: national incidence, diagnosis and surgical management”. Ir J Med Sci. 162 (6): 223–6. PMID 8407260.
  15. Avci G, Akoz T, Gul AE (2009). “Cutaneous cholesterol embolization”. J Dermatol Case Rep. 3 (2): 27–9. doi:10.3315/jdcr.2009.1031. PMC 3157794. PMID 21886725.
  16. Chao, Christine (2009). “Segmental Arterial Mediolysis”. Seminars in Interventional Radiology. 26 (03): 224–232. doi:10.1055/s-0029-1225666. ISSN 0739-9529.
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Epidemiology and Demographics

Epidemiology and Demographics

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]Ali Poyan Mehr, M.D. [2] Associate Editor(s)-in-Chief: Sargun Singh Walia M.B.B.S.[3]

Overview

The incidence of polyarteritis nodosa is approximately 3 to 4 per 100,000 individuals worldwide.The prevalence among alaskan population suffering with hepatitis B infection is approximately 7.7 per 100,000 individuals.Patients of all age groups may develop polyarteritis nodosa.There is no racial predilection to polyarteritis nodosa.Males are more commonly affected by polyarteritis nodosa than females.Population prevalence estimates for polyarteritis nodosa (PAN) range from 2 to 33 per million across the European Countries.

Epidemiology and Demographics

Incidence

  • The incidence of polyarteritis nodosa is approximately 3 to 4 per 100,000 individuals worldwide.[1]

Prevalence

  • The prevalence among alaskan population suffering with hepatitis B infection is approximately 7.7 per 100,000 individuals.

Age

  • Patients of all age groups may develop polyarteritis nodosa.
  • Polyarteritis nodosa is mostly diagnosed in patients aged 45-65 years. [2]

Race

  • There is no racial predilection to polyarteritis nodosa.

Gender

  • Males are more commonly affected by polyarteritis nodosa than females. The male to female ratio is approximately 1.5 to 1.

Region

  • Population prevalence estimates for polyarteritis nodosa (PAN) range from 2 to 33 per million across the European Countries. [3]
  • The annual incidence in three regions of Europe was estimated to be 4.4 to 9.7 per million [4].

References

  1. McMahon BJ, Heyward WL, Templin DW, Clement D, Lanier AP (January 1989). “Hepatitis B-associated polyarteritis nodosa in Alaskan Eskimos: clinical and epidemiologic features and long-term follow-up”. Hepatology. 9 (1): 97–101. PMID 2562798.
  2. Colmegna I, Maldonado-Cocco JA (August 2005). “Polyarteritis nodosa revisited”. Curr Rheumatol Rep. 7 (4): 288–96. PMID 16045832.
  3. Mohammad AJ, Jacobsson LT, Mahr AD, Sturfelt G, Segelmark M (2007). “Prevalence of Wegener’s granulomatosis, microscopic polyangiitis, polyarteritis nodosa and Churg-Strauss syndrome within a defined population in southern Sweden”. Rheumatology (Oxford). 46 (8): 1329–37. doi:10.1093/rheumatology/kem107. PMID 17553910.
  4. Watts RA, Lane SE, Bentham G, Scott DG (2000). “Epidemiology of systemic vasculitis: a ten-year study in the United Kingdom”. Arthritis Rheum. 43 (2): 414–9. doi:10.1002/1529-0131(200002)43:2<414::AID-ANR23>3.0.CO;2-0. PMID 10693883.

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Risk Factors

Risk Factors

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1];Associate Editor(s)-in-Chief: Sargun Singh Walia M.B.B.S.[2]

Overview

Common risk factors in the development of PAN include hepatitis B virus infection and age 40 to 60. Less common risk factors in the development of PAN include hairy cell leukemia, hepatitis C virus and male sex.

Risk Factors

Common Risk Factors

  • Common risk factors in the development of PAN include:

Less Common Risk Factors

References

  1. Stone JH (October 2002). “Polyarteritis nodosa”. JAMA. 288 (13): 1632–9. PMID 12350194.
  2. Guillevin L, Mahr A, Callard P, Godmer P, Pagnoux C, Leray E; et al. (2005). “Hepatitis B virus-associated polyarteritis nodosa: clinical characteristics, outcome, and impact of treatment in 115 patients”. Medicine (Baltimore). 84 (5): 313–22. PMID 16148731.
  3. Hasler P, Kistler H, Gerber H (1995). “Vasculitides in hairy cell leukemia”. Semin Arthritis Rheum. 25 (2): 134–42. PMID 8578313.
  4. Ramos-Casals M, Muñoz S, Medina F, Jara LJ, Rosas J, Calvo-Alen J; et al. (2009). “Systemic autoimmune diseases in patients with hepatitis C virus infection: characterization of 1020 cases (The HISPAMEC Registry)”. J Rheumatol. 36 (7): 1442–8. doi:10.3899/jrheum.080874. PMID 19369460.

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Screening

Screening

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]

Overview

There is insufficient evidence to recommend routine screening for polyarteritis nodosa.

Screening

There is insufficient evidence to recommend routine screening for polyarteritis nodosa.

References

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Natural History, Complications and Prognosis

Natural History, Complications and Prognosis

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Associate Editor-In-Chief: Cafer Zorkun, M.D., Ph.D. [2]; Haritha Machavarapu, M.B.B.S.Sargun Singh Walia M.B.B.S.[3]

Overview

PAN if left untreated, the disease is fatal in most cases. The most serious associated conditions generally involve the kidneys and gastrointestinal tract. Common complications of PAN include Stroke,Kidney failure, heart attack,Intestinal necrosis and perforation. Prognosis is generally good if the treatment is started.Therapy results in remissions or cures in 90% of cases. Guillevin and coworkers have described five prognostic factors that predict high probability of mortality and are considered indications for another immunosuppressive drug in addition to prednisone.

Natural History

  • PAN if left untreated, the disease is fatal in most cases.
  • The most serious associated conditions generally involve the kidneys and gastrointestinal tract.
  • Without treatment, the outlook is poor.

Complications

Prognosis

  • Prognosis is generally good if the treatment is started.
  • Therapy results in remissions or cures in 90% of cases.
  • Current treatments using steroids and other drugs that suppress the immune system (such as cyclophosphamide) can improve symptoms and the chance of long-term survival.[1]
  • Guillevin and coworkers have described five prognostic factors that predict high probability of mortality and are considered indications for another immunosuppressive drug in addition to prednisone.[2]
  1. Proteinuria >1g/day
  2. Azotemia
  3. Cardiomyopathy
  4. Gastrointestinal involvement
  5. Central nervous system disease With none of these factors, 5-year mortality is 12%. With 2 or more 5-year mortality is 46%[3]

References

  1. Leib ES, Restivo C, Paulus HE (December 1979). “Immunosuppressive and corticosteroid therapy of polyarteritis nodosa”. Am. J. Med. 67 (6): 941–7. PMID 42314.
  2. Guillevin L, Lhote F, Gayraud M, Cohen P, Jarrousse B, Lortholary O, Thibult N, Casassus P (January 1996). “Prognostic factors in polyarteritis nodosa and Churg-Strauss syndrome. A prospective study in 342 patients”. Medicine (Baltimore). 75 (1): 17–28. PMID 8569467.
  3. Kelley’s Textbook of Rheumatology,8th edition

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Diagnosis

Diagnosis

Diagnostic Criteria | History and Symptoms | Physical Examination | Laboratory Findings | Electrocardiography | Chest X Ray | CT | MRI | Other Diagnostic Studies | Other Imaging Findings

Treatment

Treatment

Medical Therapy | Surgery | Primary Prevention | Secondary Prevention |Cost-Effectiveness of Therapy | |Future or Investigational Therapies

Case Studies

Case Studies

Case #1



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