1.Effects of anticoagulation protein defect in maternal plasma on spontaneous abortion.
Chun-mei BAI ; Shui-qing MA ; Ming-ying GAI ; Lian-kai FAN ; Feng-yan REN ; Guang-sheng FAN
Chinese Medical Sciences Journal 2004;19(4):290-292
OBJECTIVETo investigate the mechanism of anticoagulation protein defect in the pathogenesis of unexplained recurrent miscarriage.
METHODSFifty-seven patients with a history of unexplained abortion were enrolled as the investigation group for tests of protein C, protein S, antithrombin III (AT-III), as well as activated protein C resistance (APC-R). The control group consisted of fifty healthy women with a history of normal pregnancy and delivery. Blood samples were obtained for, measuring serum activity of protein C, protein S, AT-III, and APC-R. Patients with positive APC-R were tested for factor V (FV) Leiden gene mutation by PCR-RFLP method.
RESULTSOf the 57 patients, 12 (21.1%), 1 (1.8%), and 5 (8.8%) cases were found with protein S, protein C, and AT-III deficiency respectively, and 13 (22.8%) cases with positive results of APC-R. Of the control group, no protein C or AT-III deficiency was ever found, whereas 2 (4.0%) volunteers were presented with protein S deficiency and 3 (6.0%) with positive results of APC-R. No FV Leiden gene mutation was identified in all the patients with positive APC-R results. Late spontaneous abortion cases had higher incidence of anticoagulation protein defect than the early cases.
CONCLUSIONAnticoagulation protein defect may play a role in the pathogenesis of fetal loss, especially for those occurring in late stage of pregnancy.
Abortion, Habitual ; blood ; etiology ; Activated Protein C Resistance ; blood ; complications ; genetics ; Adult ; Antithrombin III ; metabolism ; Antithrombin III Deficiency ; blood ; complications ; Factor V ; genetics ; Female ; Humans ; Point Mutation ; Protein C ; metabolism ; Protein C Deficiency ; blood ; complications ; Protein S ; metabolism ; Protein S Deficiency ; blood ; complications
2.Celiac Artery Thrombosis and Splenic Infarction in a Patient with Protein S Deficiency.
Chan Woong KIM ; Jeong Wook KIM
The Korean Journal of Gastroenterology 2007;49(6):390-394
Protein S deficiency is a rare blood disorder associated with an increased risk of thrombosis. Only a few cases of arterial thrombosis of digestive tract have been noted. We report a case of celiac arterial thrombosis and splenic infarction in 46-year-old male with protein S deficiency. Abdominal computed tomography and angiography revealed thrombotic obstruction of the proximal celiac and common hepatic artery with splenic infarction. His total and free antigen of protein S were normal, however, the activity of protein S was low. Percutaneous transluminal angioplasty was performed to revascularise celiac and common hepatic artery.
*Celiac Artery/radiography
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Humans
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Male
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Middle Aged
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Protein S Deficiency/*complications/genetics
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Splenic Infarction/etiology/*radiography
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Thrombosis/etiology/*radiography
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Tomography, Spiral Computed
3.Portal-Splenic-Mesenteric Venous Thrombosis in a Patients with Protein S Deficiency due to Novel PROS1 Gene Mutation.
Eui Tae HWANG ; Won Sik KANG ; Jin Woo PARK ; Ji Hyun LEE ; Hyun Jeong HAN ; Sang Yong SHIN ; Hee Jin KIM ; Ja Sung CHOI
The Korean Journal of Gastroenterology 2014;64(2):110-114
Protein S (PS), a vitamin K-dependent glycoprotein, performs an important role in the anticoagulation cascade as a cofactor of protein C. Because of the presence of a pseudogene and two different forms of PS in the plasma, protein S deficiency (PSD) is one of the most difficult thrombophilias to study and a rare blood disorder associated with an increased risk of thrombosis. We describe a unusual case of previously healthy 37-year-old man diagnosed with portal-splenic-mesenteric vein thrombosis secondary to PSD. The patient was admitted to the hospital due to continuous nonspecific abdominal pain and nausea. Abdominal computed tomography revealed acute venous thrombosis from inferior mesenteric vein to left portal vein via splenic vein, and laboratory test revealed decreased PS antigen level and PS functional activity. Conventional polymerase chain reaction and direct DNA sequencing analysis of the PROS1 gene demonstrated duplication of the 166th base in exon 2 resulting in frame-shift mutation (p.Arg56Lysfs*10) which is the first description of the new PROS1 gene mutation to our knowledge. Results from other studies suggest that the inherited PSD due to a PROS1 gene mutation may cause venous thrombosis in a healthy young man without any known predisposing factor.
Adult
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Anticoagulants/therapeutic use
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Base Sequence
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Blood Proteins/*genetics
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Codon, Terminator
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Exons
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Humans
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Male
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Mesenteric Veins/radiography
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Polymorphism, Restriction Fragment Length
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Portal Vein/radiography
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Protein S Deficiency/complications/*diagnosis
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Sequence Analysis, DNA
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Splenic Vein/radiography
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Tomography, X-Ray Computed
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Venous Thrombosis/*diagnosis/drug therapy/etiology