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Henoch–Schönlein purpura

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Title: Henoch–Schönlein purpura  
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Subject: List of cutaneous conditions, Giant-cell arteritis, Henoch, Johann Lukas Schönlein, Intussusception (medical disorder)
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Henoch–Schönlein purpura

Henoch-Schönlein purpura
Typical purpura on lower legs and buttocks
Classification and external resources
Specialty Dermatology
ICD-10 D69.0
(ILDS D69.010)
ICD-9-CM 287.0
DiseasesDB 5705
MedlinePlus 000425
eMedicine derm/177 emerg/767 emerg/845 ped/3020
MeSH D011695

Henoch–Schönlein purpura (HSP, also known as anaphylactoid purpura,[1] purpura rheumatica,[1] and Schönlein–Henoch purpura)[1] is a disease of the palpable purpura (small hemorrhages); often with joint and abdominal pain. With kidney involvement, there may be a loss of small amounts of blood and protein in the urine, but this usually goes unnoticed; in a small proportion of cases, the kidney involvement proceeds to chronic kidney disease. HSP is often preceded by an infection, such as a throat infection.

HSP is a systemic vasculitis (inflammation of blood vessels) and is characterized by deposition of immune complexes containing the antibody IgA; the exact cause for this phenomenon is unknown. It usually resolves within several weeks and requires no treatment apart from symptom control, but may relapse in a third of the cases and cause irreversible kidney damage in about one in a hundred cases.


  • Signs and symptoms 1
  • Pathophysiology 2
  • Diagnosis 3
    • Classification 3.1
  • Treatment 4
  • Prognosis 5
    • Kidney involvement 5.1
  • Epidemiology 6
  • History 7
  • See also 8
  • References 9

Signs and symptoms

Typical purpura on lower leg
More severe case of HSP on child's foot, leg, and arm

central nervous system (brain and spinal cord) and lungs may occur, but is much less common than in the skin, bowel and kidneys.[5]

Of the 40% of patients who develop kidney involvement, almost all have evidence (visible or on urinalysis) of blood in the urine. More than half also have proteinuria (protein in the urine), which in one eighth is severe enough to cause nephrotic syndrome (generalised swelling due to low protein content of the blood). While abnormalities on urinalysis may continue for a long time, only 1% of all HSP patients develop chronic kidney disease.[5] Hypertension (high blood pressure) may occur. Protein loss and high blood pressure, as well as the features on biopsy of the kidney if performed, may predict progression to advanced kidney disease. Adults are more likely than children to develop advanced kidney disease.[5][6]


Henoch–Schönlein purpura is a small-vessel vasculitis in which complexes of immunoglobulin A (IgA) and complement component 3 (C3) are deposited on arterioles, capillaries, and venules. As with IgA nephropathy, serum levels of IgA are high in HSP and there are identical findings on renal biopsy; however, IgA nephropathy has a predilection for young adults while HSP is more predominant among children. Further, IgA nephropathy typically only affects the kidneys while HSP is a systemic disease. HSP involves the skin and connective tissues, scrotum, joints, gastrointestinal tract and kidneys.[7]


Immunostaining showing IgA in the glomerulus of a patient with Henoch-Schönlein nephritis

The diagnosis is based on the combination of the symptoms, as very few other diseases cause the same symptoms together. Blood tests may show elevated creatinine and urea levels (in kidney involvement), raised IgA levels (in about 50%[7]), and raised C-reactive protein (CRP) or erythrocyte sedimentation rate (ESR) results; none are specific for Henoch–Schönlein purpura. The platelet count may be raised, and distinguishes it from diseases where low platelets are the cause of the purpura, such as idiopathic thrombocytopenic purpura and thrombotic thrombocytopenic purpura.[2]

If there is doubt about the cause of the skin lesions, a biopsy of the skin may be performed to distinguish the purpura from other diseases that cause it, such as vasculitis due to cryoglobulinemia; on microscopy the appearances are of a hypersensitivity vasculitis, and immunofluorescence demonstrates IgA and C3 (a protein of the complement system) in the blood vessel wall.[2] However, overall serum complement levels are normal.

On the basis of symptoms, it is possible to distinguish HSP from hypersensitivity vasculitis (HV). In a series comparing 85 HSP patients with 93 HV patients, five symptoms were found to be indicative of HSP: palpable purpura, abdominal angina, digestive tract hemorrhage (not due to intussussception), hematuria and age less than 20. The presence of three or more of these indicators has an 87% sensitivity for predicting HSP.[8]

Biopsy of the kidney may be performed both to establish the diagnosis or to assess the severity of already suspected kidney disease. The main findings on kidney biopsy are increased cells and Ig deposition in the mesangium (part of the glomerulus, where blood is filtered), white blood cells, and the development of crescents. The changes are indistinguishable from those observed in IgA nephropathy.[7]

Microphotograph of a histological section of human skin prepared for direct immunofluorescence using an anti-IgA antibody, the skin is a biopsy of a patient with Henoch-Schönlein purpura. IgA deposits are found in the walls of small superficial capillaries (yellow arrows). The pale wavy green area on top is the epidermis, the bottom fibrous area is the dermis.

HSP can develop after infections with streptococci (β-haemolytic, Lancefield group A), hepatitis B, herpes simplex virus, parvovirus B19, Coxsackievirus, adenovirus, Helicobacter pylori,[5] measles, mumps, rubella, Mycoplasma and numerous others.[7] Drugs linked to HSP, usually as an idiosyncratic reaction, include the antibiotics vancomycin and cefuroxime, ACE inhibitors enalapril and captopril, anti-inflammatory agent diclofenac, as well as ranitidine and streptokinase. Several diseases have been reported to be associated with HSP, often without a causative link. Only in about 35% of cases can HSP be traced to any of these causes.[7]

The exact cause of HSP is unknown, but most of its features are due to the deposition of abnormal antibodies in the wall of blood vessels, leading to vasculitis. These antibodies are of the subclass IgA1 in polymers; it is uncertain whether the main cause is overproduction (in the digestive tract or the bone marrow) or decreased removal of abnormal IgA from the circulation.[7] It is suspected that abnormalities in the IgA1 molecule may provide an explanation for its abnormal behaviour in both HSP and the related condition IgA nephropathy. One of the characteristics of IgA1 (and IgD) is the presence of an 18 amino acid-long "hinge region" between complement-fixating regions 1 and 2. Of the amino acids, half is proline, while the others are mainly serine and threonine. The majority of the serines and the threonines have elaborate sugar chains, connected through oxygen atoms (O-glycosylation). This process is thought to stabilise the IgA molecule and make it less prone to proteolysis. The first sugar is always N-acetyl-galactosamine (GalNAc), followed by other galactoses and sialic acid. In HSP and IgAN, these sugar chains appear to be deficient. The exact reason for these abnormalities is not known.[5][7]


Multiple standards exist for defining Henoch–Schönlein purpura, including the 1990 American College of Rheumatology (ACR) classification[9][10] and the 1994 Chapel Hill Consensus Conference (CHCC).[11] Some have reported the ACR criteria to be more sensitive than those of the CHCC.[12]

More recent classifications, the 2006 European League Against Rheumatism (EULAR) and Pediatric Rheumatology Society (PReS) classification, include palpable purpura as a mandatory criterion, together with at least one of the following findings: diffuse abdominal pain, predominant IgA deposition (confirmed on skin biopsy), acute arthritis in any joint, and renal involvement (as evidenced by the presence of blood and/or protein in the urine).[13]


Analgesics may be needed for the abdominal and joint pains. It is uncertain as to whether HSP needs treatment beyond controlling the symptoms. Most patients do not receive therapy because of the high spontaneous recovery rate. Steroids are generally avoided.[5] However, if they are given early in the disease episode, the duration of symptoms may be shortened, and abdominal pain can improve significantly. Moreover, the chance of severe kidney problems may be reduced.[14] However, some evidence suggests that steroids do not decrease the likelihood of developing long-term kidney disease.[15]

Evidence of worsening kidney damage would normally prompt a kidney biopsy. Treatment may be indicated on the basis of the appearance of the biopsy sample; various treatments may be used, ranging from oral steroids to a combination of intravenous methylprednisolone (steroid), cyclophosphamide and dipyridamole followed by prednisone. Other regimens include steroids/azathioprine, and steroids/cyclophosphamide (with or without heparin and warfarin). Intravenous immunoglobulin (IVIG) is occasionally used.[7]


Overall prognosis is good in most patients, with one study showing recovery occurring in 94% and 89% of children and adults, respectively (some having needed treatment).[16] In children under ten, the condition recurs in about a third of all cases and usually within the first four months after the initial attack.[3] Recurrence is more common in older children and adults.[5]

Kidney involvement

In adults, kidney involvement progresses to end-stage renal disease (ESRD) more often than in children. In a UK series of 37 patients, 10 (27%) developed advanced kidney disease. Proteinuria, hypertension at presentation, and pathology features (crescentic changes, interstitial fibrosis and tubular atrophy) predicted progression.[6] About 20% of children that exhibit nephrotic or nephritic features experience long permanent renal impairment.[17]

The findings on renal biopsy correlate with the severity of symptoms: those with asymptomatic hematuria may only have focal mesangial proliferation while those with proteinuria may have marked cellular proliferation or even crescent formation. The number of crescentic glomeruli is an important prognostic factor in determining whether the patient will develop chronic renal disease.[5]

In ESRD, some eventually need hemodialysis or equivalent renal replacement therapy (RRT). If a kidney transplant is found for a patient on RRT, the disease will recur in the graft (transplanted kidney) in about 35% of cases, and in 11%, the graft will fail completely (requiring resumption of the RRT and a further transplant).[7]


HSP occurs more often in children than in adults,[16] and usually follows an upper respiratory tract infection. Half of affected patients are below the age of six, and 90% are under ten. It occurs about twice as often in boys as in girls.[5] The incidence of HSP in children is about 20 per 100,000 children per year, making it the most common vasculitis in children.[18]

Cases of HSP may occur anytime throughout the year, but some studies have found that fewer cases occur during the summer months.[19]


The disease is named after Eduard Heinrich Henoch (1820–1910), a German pediatrician (nephew of Moritz Heinrich Romberg) and his teacher Johann Lukas Schönlein (1793–1864), who described it in the 1860s. Schönlein associated the purpura and arthritis, and Henoch the purpura and gastrointestinal involvement. The English physician William Heberden (1710–1801) and the dermatologist Robert Willan (1757–1812) had already described the disease in 1802 and 1808, respectively, but the name Heberden–Willan disease has fallen into disuse. William Osler was the first to recognise the underlying allergic mechanism of HSP.[20]

See also


  1. ^ a b c Rapini RP, Bolognia JL, Jorizzo JL (2007). Dermatology. St. Louis: Mosby.  
  2. ^ a b c d Kraft DM, Mckee D, Scott C (1998). "Henoch-Schönlein purpura: a review". American Family Physician 58 (2): 405–8, 411.  
  3. ^ a b c Saulsbury FT (1999). "Henoch-Schönlein purpura in children. Report of 100 patients and review of the literature". Medicine (Baltimore) 78 (6): 395–409.  
  4. ^ Fauci AS (1987). "269:The Vasculitis Syndromes". In Braunwald E, Isselbacher KJ, Petersdorf RG, Wilson JD, Martin JB, Fauci AS. Harrison's Book of Internal Medicine 2 (11th ed.). McGraw Hill. p. 1441.  
  5. ^ a b c d e f g h i Saulsbury FT (2001). "Henoch-Schönlein purpura". Current Opinion in Rheumatology 13 (1): 35–40.  
  6. ^ a b Shrestha S, Sumingan N, Tan J, et al. (2006). "Henoch Schönlein purpura with nephritis in adults: adverse prognostic indicators in a UK population". QJM 99 (4): 253–65.  
  7. ^ a b c d e f g h i Rai A, Nast C, Adler S (1 December 1999). "Henoch-Schönlein purpura nephritis".  
  8. ^ Michel BA, Hunder GG, Bloch DA, Calabrese LH (1992). "Hypersensitivity vasculitis and Henoch-Schönlein purpura: a comparison between the 2 disorders". Journal of Rheumatology 19 (5): 721–8.  
  9. ^ Mills JA, Michel BA, Bloch DA, et al. (1990). "The American College of Rheumatology 1990 criteria for the classification of Henoch-Schönlein purpura". Arthritis and Rheumatism 33 (8): 1114–21.  
  10. ^ American College of Rheumatology. "1990 criteria for the classification of Henoch-Schönlein purpura". Retrieved 2007-12-15. 
  11. ^ Jennette JC, Falk RJ, Andrassy K, et al. (1994). "Nomenclature of systemic vasculitides. Proposal of an international consensus conference". Arthritis and Rheumatism 37 (2): 187–92.  
  12. ^ Murali NS, George R, John GT, et al. (2002). "Problems of classification of Henoch Schonlein purpura: an Indian perspective". Clinical and Experimental Dermatolology 27 (4): 260–3.  
  13. ^ Ozen S, Ruperto N, Dillon MJ, et al. (July 2006). "EULAR/PReS endorsed consensus criteria* for the classification of childhood vasculitides". Annals of Rheumatic Diseases 65 (7): 936–41.  
  14. ^ Weiss PF, Feinstein JA, Luan X, Burnham JM, Feudtner C (2007). "Effects of corticosteroid on Henoch-Schönlein purpura: a systematic review". Pediatrics 120 (5): 1079–87.  
  15. ^ Chartapisak, W; Opastirakul, S; Hodson, EM; Willis, NS; Craig, JC (8 July 2009). "Interventions for preventing and treating kidney disease in Henoch-Schönlein Purpura (HSP).". Cochrane database of systematic reviews (Online) (3): CD005128.  
  16. ^ a b Blanco R, Martínez-Taboada VM, Rodríguez-Valverde V, García-Fuentes M, González-Gay MA (1997). "Henoch-Schönlein purpura in adulthood and childhood: two different expressions of the same syndrome". Arthritis and Rheumatism 40 (5): 859–64.  
  17. ^ Watson, L; Richardson, AR; Holt, RC; Jones, CA; Beresford, MW (January 2012). "Henoch schonlein purpura--a 5-year review and proposed pathway.". PLoS ONE 7 (1): e29512.  
  18. ^ Gardner-Medwin JM, Dolezalova P, Cummins C, Southwood TR (2002). "Incidence of Henoch-Schönlein purpura, Kawasaki disease, and rare vasculitides in children of different ethnic origins". Lancet 360 (9341): 1197–202.  
  19. ^ Saulsbury FT (2002). "Epidemiology of Henoch-Schönlein purpura" (PDF). Cleveland Clinic journal of medicine. 69 Suppl 2: SII87–9.  
  20. ^ Schönlein-Henoch purpura at Who Named It?
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