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1.
Heparin for prophylaxis of venous thromboembolism in intracerebral haemorrhage.
Sprügel, MI, Sembill, JA, Kuramatsu, JB, Gerner, ST, Hagen, M, Roeder, SS, Endres, M, Haeusler, KG, Sobesky, J, Schurig, J, et al
Journal of neurology, neurosurgery, and psychiatry. 2019;(7):783-791
Abstract
OBJECTIVE To determine the occurrence of intracranial haemorrhagic complications (IHC) on heparin prophylaxis (low-dose subcutaneous heparin, LDSH) in primary spontaneous intracerebral haemorrhage (ICH) (not oral anticoagulation-associated ICH, non-OAC-ICH), vitamin K antagonist (VKA)-associated ICH and non-vitamin K antagonist oral anticoagulant (NOAC)-associated ICH. METHODS Retrospective cohort study (RETRACE) of 22 participating centres and prospective single-centre study with 1702 patients with VKA-associated or NOAC-associated ICH and 1022 patients with non-OAC-ICH with heparin prophylaxis between 2006 and 2015. Outcomes were defined as rates of IHC during hospital stay among patients with non-OAC-ICH, VKA-ICH and NOAC-ICH, mortality and functional outcome at 3 months between patients with ICH with and without IHC. RESULTS IHC occurred in 1.7% (42/2416) of patients with ICH. There were no differences in crude incidence rates among patients with VKA-ICH, NOAC-ICH and non-OAC-ICH (log-rank p=0.645; VKA-ICH: 27/1406 (1.9%), NOAC-ICH 1/130 (0.8%), non-OAC-ICH 14/880 (1.6%); p=0.577). Detailed analysis according to treatment exposure (days with and without LDSH) revealed no differences in incidence rates of IHC per 1000 patient-days (LDSH: 1.43 (1.04-1.93) vs non-LDSH: 1.32 (0.33-3.58), conditional maximum likelihood incidence rate ratio: 1.09 (0.38-4.43); p=0.953). Secondary outcomes showed differences in functional outcome (modified Rankin Scale=4-6: IHC: 29/37 (78.4%) vs non-IHC: 1213/2048 (59.2%); p=0.019) and mortality (IHC: 14/37 (37.8%) vs non-IHC: 485/2048 (23.7%); p=0.045) in disfavour of patients with IHC. Small ICH volume (OR: volume <4.4 mL: 0.18 (0.04-0.78); p=0.022) and low National Institutes of Health Stroke Scale (NIHSS) score on admission (OR: NIHSS <4: 0.29 (0.11-0.78); p=0.014) were significantly associated with fewer IHC. CONCLUSIONS Heparin administration for venous thromboembolism (VTE) prophylaxis in patients with ICH appears to be safe regarding IHC among non-OAC-ICH, VKA-ICH and NOAC-ICH in this observational cohort analysis. Randomised controlled trials are needed to verify the safety and efficacy of heparin compared with other methods for VTE prevention.
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Safety and efficacy of heparin during dialysis in the context of systemic anticoagulant and antiplatelet medications.
Brunelli, SM, Cohen, DE, Marlowe, G, Liu, D, Njord, L, Van Wyck, D, Aronoff, G
Journal of nephrology. 2019;(3):453-460
Abstract
Heparin is widely used to prevent coagulation during hemodialysis. Although systemic anticoagulants and antiplatelet agents are commonly prescribed in the hemodialysis population, the safety and efficacy of heparin in the presence of these medications is unclear. This retrospective cohort study considered adult hemodialysis patients treated in the United States (August 2015-July 2017). For each month, patients were ascribed a three-part exposure status (heparin use, anticoagulant use, antiplatelet agent use) based on electronic health records. Outcomes included anemia measures, peri-treatment bleeding and clotting, and hospitalization for gastrointestinal (GI) bleeding. Within systemic medication exposure categories, associations of heparin use were examined using adjusted generalized linear, negative binomial, or Poisson models. Across all systemic medication exposures, heparin use was associated with lower erythropoiesis stimulating agent (ESA) dose, higher hemoglobin levels, and lower monthly intravenous (IV) iron dose; lower rates of clotting during treatment and hospitalization for GI bleeding; and similar rates of peri-treatment bleeding. Associations with respect to ESA, IV iron, hemoglobin, and clotting were approximately twofold more potent in the absence of a systemic anticoagulant; the presence of an antiplatelet agent had little impact. Neither medication type influenced associations between heparin use and peri-treatment or GI bleeding. These results suggest that heparin use is safe and effective in the presence and absence of systemic anticoagulants and antiplatelet agents. Clinical judgment must be applied to assess bleeding risk in individual patients; however, the decision to withhold heparin should not solely be based upon the concurrent use of anticoagulant or antiplatet agents.
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[Local drugs in treating and decreasing the incidence of adverse reactions after sclerotherapy of telangiectasia].
Bogachev, VI, Boldin, BV, Turkin, PI, Lobanov, VN
Angiologiia i sosudistaia khirurgiia = Angiology and vascular surgery. 2019;(4):102-107
Abstract
AIM: The purpose of the study was to assess efficacy and safety of heparin sodium gel 1000 IU/g and Detragel® in decreasing the incidence and treatment of the most common local adverse reactions in patients after endured sclerotherapy of reticular veins and telangiectasias. PATIENTS AND METHODS Our open prospective observational study included a total of sixty 18-to-35-year-old female patients who after undergoing standardized sclerotherapy of reticular veins and telangiectasias on symmetrical portions of lower limbs were given a tube of heparin sodium gel 1000 IU/g or Detragel® to be applied onto the skin of one (left) lower limb in the projection of the sclerotherapy-exposed vessels 2-3 times daily for 10 days followed by putting on a compression class 2 (RAL standard) stocking. The women were allowed to use only the paired stocking on the contralateral extremity. Efficacy and safety of heparin sodium gel 1000 IU/g and Detragel® were evaluated based on the incidence of typical adverse reactions (ecchymoses, phlebitides, hyperpigmentation and neovasculogenesis), as well as on the patient's subjective perceptions. RESULTS The use of heparin sodium gel 1000 IU/g and Detragel® in addition to compression after sclerotherapy of reticular veins and telangiectasias significantly and comparably decreased the incidence and accelerated the resolution of ecchymoses and phlebitides associated with phlebosclerosing treatment. The Detragel® group patients were found to develop hyperpigmentation or neovasculogenesis significantly less often as compared with the heparin sodium gel 1000 IU/g group women. What is more, using Detragel® was not accompanied by hyperkeratosis, pruritus or formation of a sticky film, the events, however, observed while applying heparin sodium gel 1000 IU/g. CONCLUSION The use of Detragel® or heparin sodium gel 1000 IU/g for 10 days additionally to compression significantly decreased the incidence of typical undesirable reactions associated with sclerotherapy of reticular veins and telangiectasias. The Detragel® group women turned out to have lower incidence of hyperpigmentation and neovasculogenesis. Besides, Detragel® demonstrated better organoleptic properties.
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Rationale and evidence for the incorporation of heparin into the diclofenac epolamine medicated plaster.
Rainsford, KD, Roberts, MS, Nencioni, A, Jones, C
Current medical research and opinion. 2019;(6):989-1002
Abstract
OBJECTIVE The nonsteroidal anti-inflammatory drug (NSAID) diclofenac epolamine (DHEP) formulated as a topical patch has demonstrated efficacy and safety in the localized treatment of acute pain from minor strains, sprains and contusions, and for epicondylitis and knee osteoarthritis. The glycosaminoglycan heparin enhances the activity of topical NSAIDs formulated as a medicated plaster, even in the absence of any significant release of heparin. Therefore, DHEP plus, a new formulation of the DHEP medicated plaster containing a small amount of heparin sodium as excipient, has been developed. METHODS We reviewed the pivotal and supportive studies of the clinical development program of the new patch and evaluated the role of heparin as an enhancer in the treatment of localized pain/inflammation of musculoskeletal structures, associated with post-traumatic and/or rheumatic conditions. RESULTS The data was consistent with the concept that heparin increased the clinical activity of the DHEP plus medicated plaster versus the reference DHEP medicated plaster through improved bioavailability due to enhanced movement of diclofenac from the plaster. Both DHEP formulations have the same dissolution profile, indicating that heparin does not change the physical and chemical characteristics of the plaster. Permeation testing showed that heparin is not released from the DHEP plus medicated plaster. Efficacy studies showed that the DHEP plus medicated plaster was significantly more effective in reducing pain than the reference marketed DHEP medicated plaster. CONCLUSIONS The benefit/risk assessment of DHEP plus 180 mg medicated plaster is favorable, with a safety profile equal to placebo and improved efficacy over the reference marketed DHEP medicated plaster.
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An update on evidence based diagnostic and confirmatory testing strategies for heparin induced thrombocytopenia using combined immunological and functional assays.
Amiral, J, Seghatchian, J
Transfusion and apheresis science : official journal of the World Apheresis Association : official journal of the European Society for Haemapheresis. 2018;(6):804-811
Abstract
This manuscript aims to provide a concise review on current diagnostic/ confirmatory strategies of Heparin Induced Thrombocytopenia (HIT) with the combined use of immunological / functional assays in addition to the clinical probability. Laboratory diagnosis of HIT is of primordial importance as the related complications could become rapidly severe and life-threatening and can provoke limb amputation in some cases. The first action in the presence of HIT suspicion is to withdraw heparin and to initiate an alternative anticoagulant. Whilst vitamin K antagonists are not appropriate, anticoagulant options include Fondaparinux, Sodium Danaparoid, DOACs, Argatroban, and Bivalirudin. However, if HIT is excluded, patients can benefit again from the high therapeutic and antithrombotic efficacy of this drug, which remains superior to all the substitutive anticoagulant treatments. HIT is suspected in the presence of a platelet count drop > 50% on 2 successive counts, or a platelet count < 100 G/L, and of a significant clinical probability (4 Ts score). Testing patients' plasma is required for establishing the diagnosis. Laboratory investigation involves first the immunological measurement of heparin dependent IgG antibodies (mainly targeted to Heparin-Platelet Factor 4 complexes). When positive, a functional assay for platelet activation, performed at a low and high heparin concentration, allows confirming this disease. In any case, if the immuno-assay is negative, HIT can be excluded with a high probability, and heparin can be continued (if clinical examination favors this decision). Conversely, the higher the IgG antibody concentration is (and affinity), the higher is the probability of developing HIT. The functional assay has now become for confirming the platelet activation capacity of antibodies, and therefore confirming the presence of HIT. Up to now, the gold reference method for testing antibody-dependent platelet activation is the C14-Serotonin Release Assay, available only in very few laboratories working with radio-isotopes. A simple, sensitive, and accurate flow cytometry assay becomes now available to all clinical sites, and it can be easily used for testing the capacity of heparin dependent-antibodies to activate platelets, at low heparin concentration. This technique can be performed in any laboratory equipped with a flow cytometer and can make the HIT confirmation diagnosis rapidly available, which introduces a great improvement for management of patients with HIT. We believe that an evidence-based update on this topic is timely and well warranted.
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Heparin-induced thrombocytopenia-associated thrombosis: from arterial to venous to venous limb gangrene.
Warkentin, TE
Journal of thrombosis and haemostasis : JTH. 2018;(11):2128-2132
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Abstract
Heparin-induced thrombocytopenia (HIT) is an acquired immune-mediated hypercoagulability state that is strongly associated with thrombosis. During the 1970s and 1980s, the prevailing concept was that HIT was associated only with arterial thrombosis, through its unique pathogenesis via heparin-dependent, platelet-activating IgG antibodies. However, in 1990, when I began to encounter HIT in my clinical practice, I found that most such patients developed symptomatic venous thrombosis. This historical sketch summarizes some of the research that challenged the dogma of HIT being a mainly arterial prothrombotic disorder. Two studies - one a substudy of a randomized trial of post-orthopedic surgery thromboprophylaxis, and the second a retrospective five-hospital analysis of consecutive patients with positive test results for HIT antibodies - showed a marked predominance of venous over arterial thrombosis complicating HIT (~ 4 : 1). By the end of the 1990s, an even more dramatic manifestation of HIT-associated venous thrombosis was recognized: venous limb gangrene. Here, ischemic limb necrosis occurs despite palpable arterial pulses, as a result of both macrovascular and microvascular venous thrombosis. The surprising explanation was natural anticoagulant impairment (severe depletion of protein C, a vitamin K-dependent anticoagulant) resulting from treatment of HIT-associated deep vein thrombosis with warfarin (vitamin K antagonist). These insights from HIT research helped to elucidate the pathogenesis of ischemic limb losses in other intense non-HIT hypercoagulability states, including warfarin-associated venous limb gangrene complicating cancer-associated hypercoagulability, and symmetrical peripheral gangrene complicating disseminated intravascular coagulation of critical illness, in which proximate 'shock liver' helps to explain the profound failure of natural anticoagulant systems (protein C; antithrombin) in predisposing to peripheral limb microthrombosis in circulatory shock.
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Management of Perioperative Anticoagulation for Device Implantation.
Stewart, MH, Morin, DP
Cardiac electrophysiology clinics. 2018;(1):99-109
Abstract
Periprocedural management of anticoagulation for cardiac device implantation has evolved over the past 20 years. The traditional paradigm of vitamin K antagonist interruption with heparin bridging has now been shown to be less safe than continuation of vitamin K antagonists at therapeutic levels. Dual antiplatelet therapy during device implantation poses substantial risk but is often necessary. The safest dosing strategy for newer direct oral anticoagulants is still not clear.
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Interactions of methacryloylated gelatin and heparin modulate physico-chemical properties of hydrogels and release of vascular endothelial growth factor.
Claaßen, C, Southan, A, Grübel, J, Tovar, GEM, Borchers, K
Biomedical materials (Bristol, England). 2018;(5):055008
Abstract
Gelatin hydrogels are used as tissue engineering scaffolds and systems for controlled release due to their inherent biodegradability and biocompatibility. In this study gelatin methacryloyl(-acetyl) (GM/A) with various degrees of methacryloylation (DM) and methacryl-modified heparin (HepM) were cross-linked radically via thermal-redox initiation. Investigation of gel yields (79.4%-85.8%) and equilibrium degrees of swelling (EDS; 564.8%-750.3%) by an experimental design approach suggested interaction effects between the applied HepM mass fraction and the DM of gelatin. HepM reduced the cross-linking effectivity (gel yield) only when added to GM with low DM (83% without HepM, 79% with HepM) but not when added to GM with high DM. For EDS combined impacts of the physical and chemical nature of the applied biopolymers are indicated: the elevated hydrophilicity and low cross-linking potential of HepM enhanced EDS in GM gels with low DM (Ø 1.1-fold increase), and lowered the storage moduli of all GM formulations (Ø 1.2-fold decrease). Vascular endothelial growth factor (VEGF) loading before cross-linking of gels resulted in major loss of functional growth factor (Ø 0.5% release), while loading after cross-linking was successful and significant release was detected over 28 days (6.4%-10.4% release). Release kinetics were mainly controlled by the VEGF concentration used for loading, and thus VEGF release and physico-chemical properties of the hydrogels can be tuned independently from each other in a broad range.
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Heparinized saline versus normal saline for maintaining peripheral venous catheter patency in China: An open-label, randomized controlled study.
Xu, L, Hu, Y, Huang, X, Fu, J, Zhang, J
The Journal of international medical research. 2017;(2):471-480
Abstract
Objective To evaluate the effects of heparin saline versus normal saline as locking solution for maintaining patency in peripheral venous catheters in Chinese patients. Methods This open-label, randomized controlled study was conducted in two hepatobiliary surgery wards, where patients received identical treatments, at a tertiary referral hospital. Patients were randomly divided into a normal saline group (NS, 3 ml) or a heparin saline group (HS, 50 IU/ml, 3 ml) for catheter sealing. Results The study enrolled 286 patients and 609 peripheral venous catheters were included in the analysis. The patients in the two groups had no local infections or catheter-related bloodstream infections. There were no significant differences between the two groups in terms of the rate of catheter obstruction, duration time, or the rates of phlebitis, infiltration, and accidental catheter removal. Conclusions No significant differences in the peripheral venous catheter sealing effects were observed between normal saline and heparin saline usage in Chinese patients.
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Molecular dynamics simulations on networks of heparin and collagen.
Kulke, M, Geist, N, Friedrichs, W, Langel, W
Proteins. 2017;(6):1119-1130
Abstract
Synthetic scaffolds containing collagen (Type I) are of increasing interest for bone tissue engineering, especially for highly porous biomaterials in combination with glycosaminoglycans. In experiments the integration of heparin during the fibrillogenesis resulted in different types of collagen fibrils, but models for this aggregation on a molecular scale were only tentative. We conducted molecular dynamic simulations investigating the binding of heparin to collagen and the influence of the telopeptides during collagen aggregation. This aims at explaining experimental findings on a molecular level. Novel structures for N- and C-telopeptides were developed with the TIGER2 replica exchange algorithm and dihedral principle component analysis. We present an extended statistical analysis of the mainly electrostatic interaction between heparin and collagen and identify several binding sites. Finally, we propose a molecular mechanism for the influence of glycosaminoglycans on the morphology of collagen fibrils. Proteins 2017; 85:1119-1130. © 2017 Wiley Periodicals, Inc.