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Journal of Peking University(Health Sciences) ›› 2018, Vol. 50 ›› Issue (6): 1033-1038. doi: 10.19723/j.issn.1671-167X.2018.06.016

• Article • Previous Articles     Next Articles

Case series and clinical analysis of 14 cases of catastrophic antiphospholipid syndrome

Jie-yu GU1,Cui LU2,Hui SHI1,Cheng-de YANG1,()   

  1. 1. Department of Rheumatology and Immunology, Ruijin Hospital, Shanghai Jiaotong University School of Medicine, Shanghai 200025, China
    2. Department of Rheumatism, Central Hospital of Songjiang District, Shanghai 201600, China
  • Received:2018-06-28 Online:2018-12-18 Published:2018-12-18
  • Contact: Cheng-de YANG E-mail:yangchengde@sina.com

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Abstract:

Objective: Catastrophic antiphospholipid syndrome (CAPS), also known as Asherson’s syndrome, is a special subtype of antiphospholipid syndrome (APS) characterized by multiple intravascular thrombosis involving multiple organs systems or tissues simultaneously or continuously, high titer antiphospholipid antibodies and high mortality rate. This article’s aims was to analyze the clinical manifestation, laboratory examination and treatment therapy of CAPS for the purpose of improving the understanding, diagnosis and treatment of the disease in clinical practice.Methods:Retrospective analysis and descriptive statistics were applied to the clinical manifestations and laboratory findings of 14 CAPS cases from APS Shanghai Database (APS-SH) with catastrophic antiphospholipid.Results:Of the 14 CAPS patients, 12 cases satisfied the 2003 CAPS Classification Criteria accepted in the 10 th International Congress on Antiphospholipid Antibody, and were diagnosed as definite APS and 2 cases were diagnosed as probable CAPS. Three cases were categorized as primary APS and 11 as APS secondary to systemic lupus erythematosus (SLE). Infection was mostly commonly seen before the onset of CAPS, followed by SLE activity and surgery. Among the involved organs, systems and tissues, brain and lung were most commonly affected sites of arterial thrombosis while peripheral vein was most commonly affected in venous thrombosis events among the clinical events. Triple positivity of anticardiolipin antibody (aCL), anti-β2 glyeoprotein Ⅰ antibody (aβ2GPI), lupus anticoagulant (LA) were detected in 54.55% of the patients. Thrombocytopenia and decreased hemoglobin were frequently seen in the CAPS patients, and the majority proved to be hemolytic anemia. Of all the cases, 6 ended with death. The triple therapy strategy (anticoagulants, glucocorticoid, intravenous immunoglobulin and/or plasma exchange) could help to improve prognosis, cyclophosphamide and rituximab might benefit the patients with other comorbidities such as SLE and micro-angiopathic hemolytic anemia (MHA). Conclusion:CAPS patients suffer from life-threatening acute multiple small vessel thrombosis with high titer of antiphospholipid antibody, potentially leading to multiple organ failure and a poor prognosis, thus early diagnosis and sufficient treatment are critical to prevent the progression of disease and improve the prognosis.

Key words: Antiphospholipid antibodies, Catastrophic antiphospholipid syndrome, Thromboembolism

CLC Number: 

  • R593.2

Table 1

The clinical data of the 14 CAPS patients"

Patient
No.		 Gender Age/
years		 Positive
numbers of
aCL/aβ2
GPI/LA		 Major diagnosis Sites of arterial
thrombosis		 Sites of venous
thrombosis		 Other involved organs Final
diagnosis
1bc# Male 50 3 PAPS Brain,superficial femoral artery, coronary artery Bilateral lower limb VHD, PAH, livedo reticularis, skin ulcers, renal insufficiency CAPS
2bc# Female 44 3 SLE, SAPS Brain, right toe Eye, kidney Skin ulcers, renal insufficiency CAPS
3bc# Female 54 1 SLE, SAPS Brain Left popliteal vein VHD, PAH, skin ulcers CAPS
4b*# Female 14 1 SLE, SAPS Brain, left lower limb VHD, livedo reticularis CAPS
5abc*# Male 16 2 SLE, SAPS Kidney, superior mesenteric artery Left femoral vein VHD, renal insufficiency CAPS
6c Female 56 1 SLE, SAPS Spleen Left lower limb, kidney Renal insufficiency CAPS
7c Female 45 1 SLE, SAPS Brain, coronary artery VHD CAPS
8b* Female 32 2 SLE, SAPS Brain, spleen Upper limb, cerebral sinus Renal insufficiency CAPS
9b Female 29 3 SLE, SAPS, AIH Brain Venae cava inferior VHD, PAH Probable CAPS
10abc# Female 18 3 SLE, Latent syphilis Brain, coronary artery, lung VHD, PAH, myocardial
fibrosis, pneumorrhagia, renal insufficiency		 CAPS
11a Male 24 3 PAPS Brain (right middle
cerebral artery), lung		 Axillary vein, branchial vein, bilateral cavernous sinus of internal jugular vein CAPS
12b Male 56 3 SLE, SAPS Aortaabdominalis, superior mesenteric artery, brain Skin VHD, PAH CAPS
13 Male 20 1 PAPS Lung, spleen Venae cava inferior CAPS
14b Female 50 1 SLE, SAPS Brain, lung VHD, PAH Probable CAPS

Table 2

Clinical manifestation and laboratory examination of the 14 CAPS patients"

Clinical manifestation n (%)
Arterial thrombosis 14 (100.00)
Brain 11 (78.57)
Lung 4 (28.57)
Coronary artery 3 (21.43)
Spleen 3 (21.43)
Peripheral artery 3 (21.43)
Superior mesenteric artery 2 (14.29)
Kidney 1 (7.14)
Venous thrombosis 10 (71.43)
Peripheral vein 6 (42.86)
Cerebral venous sinuses 2 (14.29)
Kidney 2 (14.29)
Venae cava inferior 2 (14.29)
Central vein of eye 1 (7.14)
Skin 1 (7.14)
Pregnancy morbiditya 3 (42.86)
Valvular heart disease 9 (64.29)
Pulmonary artery hypertension 6 (42.86)
Renal insufficiency 6 (42.86)
Livedo reticularis 2 (14.29)
Laboratory findings
Thrombocytopenia 10 (71.43)
Leukocytopenia 2 (28.57)
Decreased hemoglobin 12 (85.71)
Positive lupus anticoagulant 8 (72.73)
Positive anti-cardiolipin 11 (78.57)
Positive anti-β2GPI 9 (64.29)
Positive anti-nuclear antibody 11 (78.57)
Positive extractable nuclear antigen 4 (28.57)
Elevated ESR 8 (72.73)

Table 3

Treatment options of the 14 CAPS patients"

Treatment n (%)
Individual treatments
ACa 14 (100.00)
CS 12 (85.71)
IVIG 11 (78.57)
CTX 4 (28.57)
PE 3 (21.43)
RTX 1 (7.14)
FK506 1 (7.14)
Combined treatments
AC+CS+IVIG 7 (50.00)
AC alone 2 (14.28)
AC+CS+CTX 1 (7.14)
AC+CS+PE+CTX 1 (7.14)
AC+CS+IVIG+CTX 1 (7.14)
AC+CS+IVIG+PE+FK506 1 (7.14)
AC+CS+IVIG+PE+CTX 1 (7.14)
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