Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0149871 (deep vein thrombosis)
 12,364 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The array of clinicopathologic factors associated with acquired immune deficiency syndrome (AIDS) patients continues to increase and surprise many physicians. The recent literature contains reports of thrombotic episodes occurring in patients with human immunodeficiency virus (HIV) infection. Various abnormalities predisposing to a hypercoagulable state have also been reported in AIDS patients including the presence of antiphospholipid antibodies and the lupus anticoagulant; deficiencies of protein C, protein S, heparin cofactor II, and antithrombin and increased levels of von Willebrand factor, and d-dimers. These abnormalities correlate with the severity of HIV-associated immunosuppression as measured by the CD4 cell counts and with the presence of concurrent infectious or neoplastic diseases. The authors reviewed the medical literature and describe various abnormalities predisposing to a hypercoagulable state in AIDS patients along with the management of such complications. This issue is important because deep venous thrombosis (DVT), pulmonary embolus (PE), or thrombosis at other sites can develop in patients with AIDS who are ambulatory and have no known risk factors for pathologic thrombus formation, providing another challenge in an already difficult clinical situation. This also provides a strong rationale for careful prospective studies focusing on the prevalence and risk factors involved in the development of thromboembolic complications in patients with AIDS.
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PMID:HIV and thrombosis: a review. 1117 84

Since the first patient with antithrombin deficiency was reported, various hereditary thrombophilia have been discovered. However, we experienced a family line of multiple thrombosis in which known hereditary thrombophilia were all refuted. Case 1 died of inferior vena cava thrombosis at the age of 56 days. Case 2, the elder sister of Case 1, developed deep vein thrombosis of the left leg at age 2. She was started on warfarin but contracted deep vein thrombosis of the right leg at the age of 7. In the family of these cases there have been another five cases of thrombosis, spanning three generations, giving a total of seven cases. Six of the cases developed at an early age, below 50 years. Antithrombin, protein C, protein S, heparin cofactor II, soluble thrombomodulin, plasminogen, alpha 2 plasminogen inhibitor, and tissue factor pathway inhibitor were measured but there were no abnormalities, nor was there any resistance to activated protein C. The onset of thrombosis in this family is becoming younger with the passing of generations, and clinical symptoms have been showing a worsening tendency.
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PMID:[A family with multiple thrombosis including infancy occurrence]. 1157 53

Ever since the introduction of low molecular weight heparins (LMWHs) for clinical use, one of the major questions raised relates to product interchangeability and the differences between each of the individual LMWH preparations. Although differences between various commercially available products have been described in terms of molecular weight profile and biologic properties, very limited information on the direct comparison of individual products in a defined clinical setting is available at this time. European Pharmacopeia (EP) and the World Health Organization (WHO) have developed guidelines to characterize these agents in terms of molecular weight and biologic profiles. On a gravimetric basis, these potency assignments differ for anti-Xa and anti-IIa activities in terms of U potency per mg. The relative distribution of various molecular weight components has also been reported to vary. The oligosaccharide composition, microstructural differences in terms of specific sugars and the presence of unique structural features and the interaction with endogenous mediators such as antithrombin (AT) and heparin cofactor II (HC II) also differ. At equivalent anti-Xa levels, the amount of the anti-IIa activity and anticoagulant activity differs. Since the bioavailability and relative pharmacokinetics of the anti-Xa and anti-IIa effects are different, the specific pharmacodynamic effects of these drugs also differ. A large preclinical data base is now available on the differences between various LMWHs. However, only limited clinical data is available in the current literature. To date, the LMWHs have been primarily used for the management of post-surgical DVT. Only smaller dosages (30-40 mg or 2,500 to 4,000 anti-Xa U total dose) have been used. In these studies, because of the low dose and subcutaneous route of administration, the differences in clinical effects are rather small. Since LMWHs are now developed for therapeutic use, where relatively higher doses are used, these pharmacokinetic/pharmacodynamic differences will become more apparent. The reported differences in the clinical efficacy of LMWHs in such indications as unstable angina may be due to their pharmacologic properties and molecular composition. There are also major differences in the non-anticoagulant actions of these agents such as their ability to interact with growth factors and antithrombotic effects. Based on the available literature, it can be concluded that each product exhibits individuality.
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PMID:Biochemical and pharmacologic heterogeneity in low molecular weight heparins. Impact on the therapeutic profile. 1507 28

Alfa Wassermann, in collaboration with Opocrin, is developing Desmin 370, an antithrombotic agent which is in phase III clinical trials for the treatment of deep vein thrombosis, and may have potential in the treatment of pulmonary embolism. The antithrombotic effect is attributed to the inhibition of thrombin generation, potentiation of heparin cofactor II activity, and local fibrinolytic effects. Opocrin is the product patent holder (EP-00221977 and US-04973580), while Alfa Wassermann is the developer and responsible for the clinical research.
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PMID:Desmin 370 (Opocrin SpA/Alfa Wassermann). 1612 21


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