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:C0178874 (
tumor progression
)
40,807
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Sixteen patients with advanced ovarian carcinoma were treated with anaxirone (1,2,4-triglycidylurazol, TGU), 600 mg/m2 every 4 weeks. Anaxirone was the second or later line of therapy. All patients had evaluable tumors and evidence of failure of prior therapy. None of the patients responded. Two had stabilization of the disease for 4 months. In one patient WHO grade 4 leukopenia and grade 4 thrombocytopenia were observed after the second TGU cycle starting on day 41 and persisted until the patient died due to
tumor progression
(day 50). No patient experienced
thrombophlebitis
.
...
PMID:Phase II trial of anaxirone (1,2,4-triglycidylurazol, TGU) in patients with advanced ovarian carcinoma: an EORTC Gynecological Cancer Cooperative Group Study. 365 4
In the nearly 130 years since Trousseau first described migratory
thrombophlebitis
in cancer patients, thromboembolism has become a well-established presenting sign and complication of cancer. The coagulation system is activated in cancer and is further amplified by treatment with chemotherapy, radiation or surgery. Hypercoagulation is documented in virtually all cancer types, albeit at different rates, and is the second leading cause of death in cancer patients. The relationship between clotting activation and carcinogenesis supports the view of cancer as a hypercoagulable state and holds implications for the development of thrombosis, enhancement of tumor growth and risk of poor clinical outcomes. Although it is well recognized that cancer can activate the coagulation cascade, it is less well known that activation of the coagulation system may also support
tumor progression
. Additionally, platelet activation in cancer patients and its impact on
tumor progression
and metastasis further expand the role of the hemostatic system in malignancy. The problem of thrombosis in patients with metastatic diseases is a serious concern for clinicians. This review explores the mechanisms and clinical implications of coagulation and platelet activation in cancer. The prevention and treatment of venous thromboembolism in cancer will also be discussed by reviewing data from key clinical investigations. Finally, the emerging role of low-molecular-weight heparin as an antineoplastic agent will be explored. Warfarin and unfractionated heparin have been in clinical use for more than 50 years. Both are effective anticoagulants, but their use is associated with a number of impediments, including the need for intensive coagulation monitoring, wide variation in dose-response relationships, multiple drug interactions (in the case of warfarin), and serious immune-mediated thrombocytopenia (in the case of heparin). The introduction of low-molecular weight heparin advanced anticoagulation therapy by enhancing efficacy and eliminating the need for intensive coagulation monitoring. Fondaparinux, the first selective factor Xa inhibitor, represents yet another improvement in anticoagulation therapy. By binding rapidly and strongly to antithrombin, its sole physiologic target in plasma, fondaparinux catalyzes specifically the inhibition of factor Xa, which results in effective and linear dose-dependent inhibition of thrombin generation. Additionally, efficient inhibition of factor Xa activity impairs the activation of tissue factor/factor VIIa complex leading to downregulation of procoagulant state, pro-angiogenesis, and proinflammatory factors induced by tissue factor/factor VIIa. Furthermore, a number of orally active direct antithrombin and anti-factor Xa are in advanced clinical development for various thromboembolic disorders.
...
PMID:Role of current and emerging antithrombotics in thrombosis and cancer. 1706 36
In the nearly 130 years since Trousseau first described migratory
thrombophlebitis
in cancer patients, thromboembolism has become a well-established presenting sign and complication of cancer. The coagulation system is activated in cancer and is further amplified by treatment with chemotherapy, radiation or surgery. Hypercoagulation is documented in virtually all cancer types, albeit at different rates, and is the second leading cause of death in cancer patients. The relationship between clotting activation and carcinogenesis supports the view of cancer as a hypercoagulable state and holds implications for the development of thrombosis, enhancement of tumor growth and risk of poor clinical outcomes. Although it is well recognized that cancer can activate the coagulation cascade, it is less well known that activation of the coagulation system may also support
tumor progression
. Additionally, platelet activation in cancer patients and its impact on
tumor progression
and metastasis further expand the role of the hemostatic system in malignancy. The problem of thrombosis in patients with metastatic diseases is a serious concern for clinicians. This review explores the mechanisms and clinical implications of coagulation and platelet activation in cancer. The prevention and treatment of venous thromboembolism in cancer will also be discussed by reviewing data from key clinical investigations. Finally, the emerging role of low-molecular-weight heparin as an antineoplastic agent will be explored. Warfarin and unfractionated heparin have been in clinical use for more than 50 years. Both are effective anticoagulants, but their use is associated with a number of impediments, including the need for intensive coagulation monitoring, wide variation in dose-response relationships, multiple drug interactions (in the case of warfarin), and serious immune-mediated thrombocytopenia (in the case of heparin). The introduction of low-molecular weight heparin advanced anticoagulation therapy by enhancing efficacy and eliminating the need for intensive coagulation monitoring. Fondaparinux, the first selective factor Xa inhibitor, represents yet another improvement in anticoagulation therapy. By binding rapidly and strongly to antithrombin, its sole physiologic target in plasma, fondaparinux catalyzes specifically the inhibition of factor Xa, which results in effective and linear dose-dependent inhibition of thrombin generation. Additionally, efficient inhibition of factor Xa activity impairs the activation of tissue factor/factor VIIa complex leading to downregulation of procoagulant state, pro-angiogenesis, and proinflammatory factors induced by tissue factor/factor VIIa. Furthermore, a number of orally active direct antithrombin and anti-factor Xa are in advanced clinical development for various thromboembolic disorders.
...
PMID:Role of current and emerging antithrombotics in thrombosis and cancer. 1680 96
Since the first report of the spontaneous appearance of venous
thrombophlebitis
as a sign of visceral cancer by Trousseau in 1865, many other studies have documented the existence of cancer-associated coagulation disorders. In this review, we describe the hypercoagulable state associated with colorectal cancer, from three perspectives: first, the incidence, risk factors and prevention of clinically symptomatic thromboembolic conditions associated with cancer, such as venous thromboembolism and arterial thrombosis; second, the association between hypercoagulable conditions, such as thrombocytosis, hyperfibrinogenemia, or D-dimer elevation, and the clinical progression and poor prognosis of cancer patients; third, the experimental approach to elucidate the role of various coagulation-related factors in the process of
cancer progression
, focusing specifically on the role of platelets and tissue factors.
...
PMID:Colorectal cancer and hypercoagulability. 2367 36
