Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UMLS:C0149871 (
deep vein thrombosis
)
12,364
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
In addition to their use in postsurgical and medical prophylaxis of
deep vein thrombosis
(
DVT
), low molecular weight heparins (LMWHs) are being developed for cardiovascular and cerebrovascular indications. Because of manufacturing differences, each LMWH exhibits distinct pharmacological and biochemical profiles that may influence clinical performance. The specific activity of these agents in anticoagulant assays ranges from 35 to 45 anti-IIa U/mg or 80 to 120 anti-Xa U/mg. LMWHs are capable of producing product-specific dose- and time-dependent antithrombotic effects in animal models of thrombosis. While the ex vivo effects are initially present at antithrombotic doses, these agents have been found to produce sustained antithrombotic effects without any detectable ex vivo anticoagulant actions. In experimental animal models and in various clinical trials, these agents have also been found to release
tissue factor pathway inhibitor
(
TFPI
) after both intravenous and subcutaneous administration. Repeated administration of LMWHs produces progressively stronger antithrombotic effects. However, the hemorrhagic responses vary and are largely product dependent. The product-dependent release of
TFPI
following intravenous and subcutaneous administration in a primate model also demonstrates the relevance of this inhibitor to the actions of LMWHs. The effect of repeated administration of LMWH mimicking the postsurgical prophylaxis of
DVT
exhibited product-based augmentation of the antithrombotic or hemorrhagic effects.
...
PMID:Low molecular weight heparins: are they different? 977 31
The increased risk for
deep vein thrombosis
(
DVT
) after orthopaedic surgery has been well documented as well as hypercoagulable state during both total hip arthroplasty (THA) and total knee replacement (TKR). To investigate the influence of the surgical procedure [posterolateral (PL) or lateral (L) approach for THA, use of tourniquet (TQ) or not use of TQ for TKR] on the hypercoagulability and the role of extrinsic pathway activation and endothelial stimulation during orthopaedic surgery we have examined 40 patients (20 patients undergoing primary THA--10 with PL approach and 10 with L approach--and 20 patients undergoing TKR--10 with TQ application and 10 without TQ). Thrombin-antithrombin complexes (TAT), tissue factor (TF),
tissue factor pathway inhibitor
(
TFPI
), thrombomodulin (TM) and von Willebrand factor antigen (vWF:Ag) were analyzed before and during the orthopaedic surgery. During THA, TAT plasma levels increased more markedly in patients assigned to the L than PL approach (p <0.05); during TKR an elevation of TAT of higher degree (p <0.05) was observed when TQ was not applicated. Blood clotting activation was significantly (p <0.001) more relevant during THA than TKR. No changes in TF and vWF:Ag plasma levels were observed in all patients undergoing THA and TKR.
TFPI
plasma levels significantly (p <0.05) decreased 1 h after the end of the THA in group PL and group L, whereas they remained unaffected in the two groups of patients undergoing TKR. Similarly TM plasma levels significantly decreased during THA, but not during TKR. In conclusion, these results show that: 1) the site of surgical procedures and the type of approach affect the degree of hypercoagulability, 2) the blood clotting activation takes place in the early phases of orthopaedic surgery, without signs of extrinsic pathway and endothelial activation.
...
PMID:Procedure-dependence and tissue factor-independence of hypercoagulability during orthopaedic surgery. 1040 60
Intermittent pneumatic compression (IPC) devices are an effective prophylaxis against lower extremity
deep vein thrombosis
. Their antithrombotic effect has been attributed to a reduction in venous stasis and enhanced fibrinolysis. The initiating mechanism for blood coagulation is the tissue factor (TF) dependent pathway, which is inhibited by
tissue factor pathway inhibitor
(
TFPI
). We have investigated the effect of IPC on the TF pathway in 6 normal subjects and 6 patients with postthrombotic venous disease undergoing IPC for 120 minutes; all subjects were studied with each of 5 IPC devices. In normal subjects and patients, plasma factor VIIa (FVIIa) activity (the activated form of factor VII [FVII]) declined from mean values ranging 51 to 65 and 50 to 53 mU/mL before IPC with different devices to 10 to 13 and 20 to 22 mU/mL at 180 minutes, respectively (P<0.001 for all groups). FVII antigen levels were unchanged. Plasma
TFPI
(P<0.001) rose from mean baseline values ranging 69 to 79 and 57 to 61 ng/mL to 76 to 123 and 71 to 79 ng/mL at 180 minutes in normal subjects and patients, respectively (P<0. 001 for all groups). Plasma prothrombin fragment F1.2 levels showed minimal changes. There was an inverse relationship between
TFPI
and FVIIa in normal subjects (r=-0.31, P=0.001) and patients (r=-0.37, P<0.001). IPC results in an increase in plasma
TFPI
and decline in FVIIa. Inhibition of TF pathway, the initiating mechanism of blood coagulation, is a possible mechanism for the antithrombotic effect of IPC.
...
PMID:Inhibition of tissue factor pathway during intermittent pneumatic compression: A possible mechanism for antithrombotic effect. 1055 31
There is adequate preclinical data to support the differential biochemical and pharmacological behavior of the currently approved low molecular weight heparins (LMWHs) in the United States. Initial studies on the anti-Xa, anti-IIa, and U.S. Pharmacopoeial (USP) potencies have clearly demonstrated differences among these products. Furthermore, the ratios between the anti-X and anti-IIa activities vary from one product to another. This is primarily due to the composition of each product manufactured by using different patented methods. Studies in pharmacologic animal models, using gravimetric dosages or adjusted anti-Xa dosages of the LMWHs, produce product-specific results. The pharmacokinetics and pharmacodynamics of each product also vary markedly and are not predictable on the basis of any pharmacopoeial potency designation. These agents are capable of releasing
tissue factor pathway inhibitor
(
TFPI
), an inhibitor of the coagulation process. Its release is also dependent on the type of LMWH. In the United States enoxaprin, dalteparin, and ardeparin have been approved for
DVT
prophylaxis. Only enoxaparin and dalteparin have been approved for the acute coronary syndrome. Recently the clinical differentiation among these LMWHs has been demonstrated in the treatment of acute coronary syndrome. Similarly, when these drugs are used at high dosages, they are expected to produce product-specific pharmacodynamic effects. It must be noted that while these drugs may be interchangeable at clinically optimized/approved dosages, these drugs are not interchangeable at equivalent anti-Xa dosages. Even at optimized dosages, the clinical provile of each drug may be different. Thus, each of the LMWHs should be considered a distinct entity and their use in a given clinical situation should be validated in proper clinical trials.
...
PMID:Low molecular weight heparins: differences and similarities in approved preparations in the United States. 1072 38
Tissue factor pathway inhibitor
(
TFPI
) is a Kunitz-type inhibitor that regulates the initiation of tissue factor-mediated coagulation. Recent reports in the literature have described variable results using different methodologies for
TFPI
measurement. In this study, we used one clotting and two amidolytic methodologies to assess
TFPI
functional levels. The study groups included normal healthy donors as well as patients with acute hepatitis, diabetes, coronary artery bypass graft operations,
deep vein thrombosis
, and prior to and during heparin therapy. The aims were to compare the results obtained in normal plasma using different assay systems, to compare
TFPI
levels in a range of clinical samples, including those previously not determined using a clotting methodology, and to report
TFPI
levels in patient groups previously not investigated. The results clearly demonstrate poor correlation between functional
TFPI
values using the different methodologies, highlighting the requirement for standardization.
...
PMID:A comparative study of functional assays for tissue factor pathway inhibitor using normal plasma and clinical samples. 1084 19
Low-molecular-weight heparins (LMWH) are widely used as antithrombotic prophylactic pharmaceutical agents in orthopedic and general surgery. Their antithrombotic characteristics are expressed by plasma mediators such as anti-Xa, anti-IIa, and increased release of
tissue factor pathway inhibitor
(
TFPI
) from vascular endothelium. The purpose of this clinical research is to study the relation between plasma levels of these mediators and postoperative bleeding. Forty-one consecutive patients undergoing hip or knee arthroplasty (n = 36) and colectomy (n = 5) received the standard enoxaparin (a LMWH) dose preoperatively (general surgery) or immediately postoperatively (orthopedic surgery). Major bleeding was defined as a postoperative drop of > or = 5 g/dL) of hemoglobin. The authors observed that there was a linear relationship between an increase in free/total
TFPI
ratio levels and postoperative bleeding. When that ratio increased by > 60%, the hemoglobin dropped to > 5 g/dL (n = 17). This relationship between free/total
TFPI
ratio increase and postoperative bleeding was statistically significant (P < 0.001). Those who did not bleed (hemoglobin drop was less than 5 g/dL) (n = 24) had a ratio increase (if any) of less than 50%. However, the authors did not observe any statistical relationship between anti-Xa, anti-IIa, or prothrombin time and postoperative bleeding in patients receiving LMWH for
deep vein thrombosis
prophylaxis in orthopedic and general surgery patients. The authors recommend a pre- and postoperative ratio level measurement whenever major bleeding is anticipated, as adjustments of LMWH dose or frequency might be necessary.
...
PMID:Plasma tissue factor pathway inhibitor levels as a marker for postoperative bleeding after enoxaparin use in deep vein thrombosis prophylaxis in orthopedics and general surgery. 1119 Sep 8
Low-molecular-weight heparins (LMWH) are widely used as antithrombotic prophylactic pharmaceutical agents in orthopedic and general surgery. Their antithrombotic characteristics are expressed by plasma mediators such as anti-Xa. anti-IIa, and increased release of
tissue factor pathway inhibitor
(
TFPI
) from vascular endothelium. The purpose of this clinical research is to study the relation between plasma levels of these mediators and postoperative bleeding. Forty-one consecutive patients undergoing hip or knee arthroplasty (n = 36) and colectomy (n = 5) received the standard enoxaparin (a LMWH) dose preoperatively (general surgery) or immediately postoperatively (orthopedic surgery). Major bleeding was defined as a postoperative drop of > or = 5 g/dL) of hemoglobin. The authors observed that there was a linear relationship between an increase in free/total
TFPI
ratio levels and postoperative bleeding. When that ratio increased by >60%, the hemoglobin dropped to >5 g/dL (n = 13). This relationship between free/total
TFPI
ratio increase and postoperative bleeding was statistically significant (P < 0.001). Those who did not bleed (hemoglobin drop was less than 5 g/dL) (n = 28) had a ratio increase (if any) of less than 50%. However, the authors did not observe any statistical relationship between anti-Xa, anti-IIa, or prothrombin time and postoperative bleeding in patients receiving LMWH for
deep vein thrombosis
prophylaxis in orthopedic and general surgery patients. The authors recommend a pre- and postoperative ratio level measurement whenever major bleeding is anticipated, as adjustments of LMWH dose or frequency might be necessary.
...
PMID:Plasma tissue factor pathway inhibitor levels as a marker for postoperative bleeding after enoxaparin use in deep vein thrombosis prophylaxis in orthopedics and general surgery. 1103 May 26
Tissue factor pathway inhibitor
(
TFPI
) inhibits tissue factor-induced coagulation. The major part of
TFPI
is releasable by heparin. We recently found eight patients with thrombosis and low levels of heparin-releasable
TFPI
in whom we investigated the
TFPI
gene for mutations. A transition of G to A coding for Valine264Methionine in the heparin-binding domain was found. The Val264Met polymorphism had an allele frequency of 3% in 96 healthy individuals. A silent polymorphism was identified in
TFPI
exon IV (T-->C), which does not alter Tyrosine 56. Apart from Val264Met, which was detected in one out of the eight patients, no other mutations in the
TFPI
gene were found in patients with low heparin-releasable
TFPI
. Analysis of Val264Met in 317 patients with
deep vein thrombosis
(
DVT
) and 292 controls showed no association between Val264Met and
DVT
. However, a study of total
TFPI
antigen levels in 122
DVT
patients and 126 controls demonstrated an association between
TFPI
levels and venous thrombosis (P = 0.0001). These results provide evidence for a relationship between venous thrombosis and total
TFPI
level as a possible risk factor, whereas they do not support a link between
DVT
and mutations in the nine exons of the
TFPI
gene.
...
PMID:Analysis of the tissue factor pathway inhibitor gene and antigen levels in relation to venous thrombosis. 1138 Apr 28
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.
...
PMID:[A family with multiple thrombosis including infancy occurrence]. 1157 53
This review focuses on antithrombotic therapy for venous thromboembolism and covers a diverse range of topics including a discussion of emerging anticoagulant drugs, a renewed focus on thrombolytic agents for selected patients, and an analysis of the factors leading to adverse events in patients on warfarin, and how to optimize therapy. In Section I Dr. Weitz discusses new anticoagulant drugs focusing on those that are in the advanced stages of development. These will include drugs that (a) target factor VIIa/tissue factor, including
tissue factor pathway inhibitor
and NAPc2; (b) block factor Xa, including the synthetic pentasaccharide and DX9065a; (c) inhibit factors Va and VIIIa, i.e., activated protein C; and (d) block thrombin, including hirudin, argatroban, bivalirudin and H376/95. Oral formulations of heparin will also be reviewed. In Section II, Dr. Comerota will discuss the use of thrombolysis for selected patients with venous thromboembolism. Fibrinolytic therapy, which has suffered from a high risk/benefit ratio for routine
deep venous thrombosis
, may have an important role to play in patients with iliofemoral venous thrombosis. Dr. Comerota presents his own results with catheter-directed thrombolytic therapy and the results from a large national registry showing long-term outcomes and the impact on quality of life. In Section III, Dr. Ansell presents a critical analysis of the factors responsible for adverse events with oral anticoagulants and the optimum means of improving outcomes. The poor status of present day anticoagulant management is reviewed and the importance of achieving a high rate of "time in therapeutic range," is emphasized. Models of care to optimize outcomes are described, with an emphasis on models that utilize patient self-testing and patient self-management of oral anticoagulation which are considered to be the ultimate in anticoagulation care. The treatment of venous and arterial thromboembolism is undergoing rapid change with respect to the development of new antithrombotic agents, an expanding list of new indications, and new methods of drug delivery and management. In spite of these changes, many of the traditional therapeutics are still with us and continue to play a vital role in the treatment of thromboembolic disease. The following discussion touches on a wide range of therapeutic interventions, from old to new, exploring the status of anticoagulant drug development, describing a new intervention for iliofemoral venous thrombosis, and analyzing the critical factors for safe and effective therapy with oral anticoagulants.
...
PMID:Advances in Therapy and the Management of Antithrombotic Drugs for Venous Thromboembolism. 1170 46
<< Previous
1
2
3
4
5
Next >>
