Significance of heparin induced thrombocytopenia (HIT) in COVID-19: a systematic review and meta-analysis.

Heparin-induced thrombocytopenia (HIT) occurs in approximately 3% of patients receiving heparinoids. About 30-75% of patients with type 2 of HIT develop thrombosis as a result of platelet activation. The most important clinical symptom is thrombocytopenia. Patients with severe COVID-19 are among those receiving heparinoids. This meta-analysis performed to picture the current knowledge and results of published studies in this field. Three search engines were searched and 575 papers were found. After evaluation, 37 articles were finally selected of which 13 studies were quantitatively analyzed. The pooled frequency rate of suspected cases with HIT in 13 studies with 11,241 patients was 1.7%. The frequency of HIT was 8.2% in the extracorporeal membrane oxygenation subgroup with 268 patients and 0.8% in the hospitalization subgroup with 10,887 patients. The coincidence of these two conditions may increase the risk of thrombosis. Of the 37 patients with COVID-19 and confirmed HIT, 30 patients (81%) were treated in the intensive care unit or had severe COVID-19. The most commonly used anticoagulants were UFH in 22 cases (59.4%). The median platelet count before treatment was 237 (176-290) x 103/µl and the median nadir platelet count was 52 (31-90.5) x 103/µl.

Efficacy of heparinoid PSS in treating cardiovascular diseases and beyond-A review of 31 years clinical experiences in China.

Heparin is a life-saving drug with multiple molecular targets and mostly well known for its anticoagulant and antithrombotic pharmacological effects in treating cardiovascular diseases. All the heparin-like polysaccharides that mimic the biological activities of heparin are called heparinoids. However, heparin has no pharmacological effect if taken orally and has to be used by injection in hospital settings. Thus, heparinoids that can be taken orally are critically needed. Propylene glycol alginate sodium sulfate (PSS) is the world's first oral heparinoid used in treating cardiovascular diseases approved by Chinese Food and Drug Administration in 1987. PSS is produced by modifying partially hydrolyzed alginate, one of the most abundant marine polysaccharides isolated from brown algae, by epoxypropane esterification and by chemical sulfation. It is used for treating and preventing cardiovascular-related diseases. The low cost (US$1.29/100 tablets, ~4 tablets/day), remarkable clinical effects, and convenient oral administration make PSS an ideal long-term cardiovascular disease-prevention drug. PSS is also clinically trialed for treating diabetes and diabetes-associated complications, hepatitis, kidney, skin, and many other diseases in China. PSS is available in most drug stores in China, and millions of patients take PSS routinely during the past 31 years. The 24,089 reported clinical cases as well as the structure, preparation, clinical efficacy, adverse reactions, pharmacokinetics, pharmacodynamics, and future perspectives of PSS based on the results of peer-reviewed publications will be discussed. This review should bring the knowledge of PSS gained in China to the world to stimulate in depth academic and clinical studies of PSS and other heparinoids.

Non-immediate heparin and heparinoid cutaneous allergic reactions: a role for fondaparinux.

Non-immediate allergic cutaneous reactions to heparins have been increasingly reported, typically manifesting as large, eczematous plaques at sites of subcutaneous injection. Patients may demonstrate cross-reactivity between unfractionated heparin, low molecular weight heparin and semi-synthetic heparinoids, making finding an alternative difficult. Fondaparinux has been identified as a useful alternative in such patients; here we present the first two documented cases in Australia and a literature review.

[Anticoagulation]. / Antikoagulation.

Anticoagulant drugs belong to the group of antithrombotic agents and are successfully used in the prophylaxis and treatment of thromboembolic disorders. The use of anticoagulants in the prevention of deep venous thrombosis has significantly lowered the risk of venous thrombosis and fatal pulmonary embolisms even in high-risk situations such as orthopedic surgery. Anticoagulants play a central role in the treatment of acute venous thrombosis and in the prevention of recurrent events. Long-term anticoagulation therapy with orally active anticoagulants significantly reduces the risk of thromboembolic complications in patients showing cardiac arrhythmias. Whereas a few years ago heparins and vitamin K antagonists were the dominant anticoagulants, today a wide range of anticoagulants with improved pharmacological profiles are available. It remains an open question whether these new anticoagulants will improve the efficacy, safety, and acceptance of anticoagulant treatment approaches.

Should anticoagulation be resumed after intracerebral hemorrhage?

Intracerebral hemorrhage (ICH) is the most feared and the most deadly complication of oral anticoagulant therapy, eg, with warfarin (Coumadin). After such an event, clinicians wonder whether their patients should resume anticoagulant therapy. The authors review the management of anticoagulation during and after anticoagulation-associated ICH.

Heparinoids algal and their anticoagulant, hemorrhagic activities and platelet aggregation.

Polysaccharides extracted from brown marine algae represent a source of marine compounds with potential applications in medicine. Heparin-like compounds, fucoidans, have been proposed as alternatives to the anticoagulant heparin, which is prepared from mucous membrane of mammals. In this study, the activity of anticoagulant in activated partial thromboplastin time (APTT) and prothrombin time (PT) tests was assessed in the fucoidan (TF), from seaweed Fucus vesiculosus, partially desulfated fucoidans (PDF), desulfated fucoidans (DF) and purified fractions F1, F2 and F3 in acetone. Studies were also conducted to assess these polysaccharides for platelet aggregation and hemorrhagic activity. The APTT test showed high activity at 5 microg (> or = 240s) for TF, F1 and F2 (P<0.001). PT test showed high anticoagulant activity at 50 microg (> or = 120s) for F1 (P<0.001). Fraction F3, with low MW (15.2 kDa) and sulfate content (26.1%), had little effect in these two in vitro tests (P<0.001). These compounds demonstrated a two-phase response to platelet aggregation at 50 microg/mL. However, at a concentration of 0.1 mg/mL, a hypoaggregate profile was observed for all fractions tested (P<0.001). The analysis showed that fucoidans irreversibly induced platelet aggregation in high concentration. These polymers have low hemorrhagic effect when compared to heparin.

Delayed-type hypersensitivity to low molecular weight heparins and heparinoids: cross-reactivity does not depend on molecular weight.

BACKGROUND: Cross-reactivity is a widespread phenomenon in patients who develop cutaneous delayed-type hypersensitivity (DTH) reactions to low molecular weight heparins (LMWHs). As molecular weight is believed to be a key determinant of sensitization to heparins, the recently developed LMWH bemiparin, with the lowest molecular weight of all LMWHs, appeared to be a significant improvement. OBJECTIVES: To evaluate cross-reactivity between bemiparin and several other LMWHs and heparinoids by means of subcutaneous testing. Methods Test doses of bemiparin and several other LMWHs/heparinoids were given to eight patients with a history of local eczematous reactions after subcutaneous injection of enoxaparin. RESULTS: Seven of eight patients showed cross-reactivity following subcutaneous injection of bemiparin. In addition, nearly all tested substances caused local eczematous reactions in at least some patients, with the exception of fondaparinux, which was well tolerated by all patients. Of all substances tested, bemiparin had the highest cross-reactivity with enoxaparin. Substances with a lower molecular weight did not cross-react less frequently than the others. CONCLUSIONS: No significant correlation was found between the molecular weight of the tested substances and the frequency of DTH reactions. In patients with DTH to enoxaparin, the LMWH bemiparin is not a suitable alternative.

Allergy to heparins and anticoagulants with a similar pharmacological profile: an update.

Heparins are widely used as anticoagulants. Immunologically-mediated side effects raise the question as to whether other substances with heparin-like pharmacological effects can be safely applied. Hypersensitivity reactions to heparin consist of heparin-induced immune thrombocytopenia, allergic vasculitis, hypereosinophilia, immediate hypersensitivity as well as delayed-type skin reactions. Hypersensitivity to unfractionated and low-molecular-weight heparins and semisynthetic heparinoids is increasingly common, and the pathogenesis, however, is still not fully understood. Clinically, this phenomenon is of relevance because of its increasing incidence and the resulting therapeutic difficulties that arise because several cross-reactions between unfractionated and low-molecular-weight heparins as well as between various heparins and heparinoids have been observed. In some patients with cross-reactivity between various heparins and semisynthetic heparinoids, recombinant hirudins, may be safe and effective. Combined allergy to recombinant hirudins and heparins, however, has been reported. Therefore, there is an urgent need for therapeutic alternatives.

Tolerance to intravenous heparin in patients with delayed-type hypersensitivity to heparins: a prospective study.

Delayed-type hypersensitivity to subcutaneously injected heparin is relatively common. Particularly, extensive cross-reactivity between different heparins and heparinoids often occurs. Delayed-type hypersensitivity to heparin implies the risk of a generalized eczema when heparin is administered intravenously. However, case reports demonstrated a tolerance to intravenous heparin in patients with delayed-type hypersensitivity to subcutaneous heparin, but prospective studies have not been performed. Our study group, of 28 patients with a proven delayed-type hypersensitivity to subcutaneous heparin, was challenged with intravenous heparin, which was well tolerated in all 28 patients. Therefore, in case of therapeutic necessity, the shift from subcutaneous to intravenous heparin administration is justified.

Molecular weight determines the frequency of delayed type hypersensitivity reactions to heparin and synthetic oligosaccharides.

Eczematous lesions, resulting from type IV sensitizations are well-known and relatively frequent cutaneous adverse effects of s.c. heparin therapy. If anticoagulation is further required intravenous heparin, heparinoids or lepirudin may be used as a substitute. However, these alternatives are not optimal in terms of practicability and/or safety-profiles. As molecular weight of different heparin preparations has repetitively been implied to determine the frequency of sensitization, we hypothesized, that due to its low molecular weight the pentasaccharide fondaparinux may provide a practicable and safe anticoagulant therapy in patients with delayed type hypersensitivity reactions (DTH) to heparin and other oligosaccharides. To test this concept, patients referred for diagnosis of cutaneous reactions after s.c. anticoagulant treatment underwent a series of in vivo skin allergy- and challenge-tests with unfractionated heparin, a series of low molecular weight heparins (nadroparin, dalteparin, tinzaparin, enoxaparin and certoparin), the heparinoid danaparoid and the synthetic pentasaccharide fondaparinux. In total, data from twelve patients was evaluated. In accordance with previously published data, we report a high crossreactivity among heparins and heparinoids. In contrast--and in support of our initial hypothesis--sensitization towards the synthetic pentasaccharide fondaparinux was rarely observed. Plotting the cumulative incidence against the determined molecular weight of the individual anticoagulant preparations, shows that molecular weight generally is a key determinant of sensitization towards heparins and other oligosaccharides (r2 = 0.842, p = 0.009). Hence, fondaparinux may be used as a therapeutic alternative in patients with cutaneous DTH relations towards heparin and other polysaccharides.

Heparins and heparinoids: occurrence, structure and mechanism of antithrombotic and hemorrhagic activities.

The correlation between structure, anticlotting, antithrombotic and hemorrhagic activities of heparin, heparan sulfate, low molecular weight heparins and heparin-like compounds from various sources that are in used in clinical practice or under development is briefly reviewed. Heparin-like molecules composed exclusively of iduronic acid 2-O-sulfate residues have weak anticlotting activities, whereas molecules that contain both iduronic acid 2-O sulfate, iduronic acid and small amounts of glucuronic acid, such as heparin, or mixed amounts of glucuronic and iduronic acids (mollusk heparins) possess high anticlotting and anti-Xa activities. These results also suggest that a proper combination of these elements might produce a strong antithrombotic agent. Heparin isolated from shrimp mimics the pharmacological activities of low molecular weight heparins. A heparan sulfate derived from bovine pancreas and a sulfated fucan from brown algae have a potent antithrombotic activity in arterial and venous thrombosis model "in vivo" with a negligible activity upon the serine-proteases of the coagulation cascade "in vitro". These and other results led to the hypothesis that antithrombotic activity of heparin and other antithrombotic agents is due at least in part by their action on endothelial cells stimulating the synthesis of an antithrombotic heparan sulfate. All the antithrombotic agents derived from heparin and other heparinoids have hemorrhagic activity. Exceptions to this are a heparan sulfate from bovine pancreas and a sulfated fucan derived from brown algae, which have no hemorrhagic activity but have high antithrombotic activities "in vivo". Once the structure of these compounds are totally defined it will be possible to design an ideal antithrombotic.

[Heparin during acute ischemic stroke. Present data and clinical situation]. / Heparin in der Akutphase des ischämischen Schlaganfalls. Datenlage und klinische Realität.

Therapy with low- or high-dose heparin in acute stroke is changing. Despite several clinical studies (>20), some with quite large numbers of patients, no statistically significant benefit was found for the clinical endpoints of death and functional outcome. This negative result remains even when considering the preventive effect of high-dose heparin on secondary acute embolic events (e.g., cardiac emboli-arrhythmia) and low-dose heparin on venous thrombosis. Based on study results, most reviews and therapy recommendations for the treatment of acute stroke generally decline the use of high-dose heparins and heparinoids with full anticoagulation for improving outcome or preventing secondary embolic events as well as low-dose applications for venous thrombosis prophylaxis. This paper reviews the literature and presents the data of a standardised survey on coagulation therapy in acute stroke patients from all university and major stroke units in Germany (n=33). Contrary to the restrictive recommendations, therapy with heparin is firmly established in most stroke units. Full anticoagulation with heparin ("full dose") is performed on selected patients in 32/33 stroke units (97%). The selection criteria and thus the frequency of high-dose heparin use varies widely among the different centers. Almost all German stroke units (97%) routinely use low-dose heparin to prevent venous thrombosis and pulmonary embolism.The heparin agents and dosage, however, vary. These data correspond to those from the USA and Canada,where daily routine also departs from evidence-based treatment recommendations. That may be due to individual pathophysiological and aetiological considerations and of course the low acceptance of treatment recommendations based on classic, randomised trials. This underlines the need for new concepts (e.g.observational trials, continuous registers, etc.) addressing the adaptation of study-related conditions to the much more complex situation of daily routine (with risk/benefit, safety, and economic variables).

Delayed-type hypersensitivity skin reactions due to heparins and heparinoids. Tolerance of recombinant hirudins and of the new synthetic anticoagulant fondaparinux.

Eczema-like, infiltrated plaques at subcutaneous heparin-injection sites are well-documented side effects of these anticoagulants. They are due to delayed-type hypersensitivity. In 4 patients, patch, intradermal and subcutaneous tests were performed with a panel of unfractionated heparins (UFHs), low-molecular-weight heparins (LMWHs), heparinoids, recombinant hirudins and a new synthetic pentasaccharide anticoagulant fondaparinux sodium, to find safe alternatives. 3 patients were sensitized to all the UFHs and LMWHs. The LMWH tinzaparin sodium and the heparinoid pentosan polysulfate were found to be a possible substitute in patient no. 1 and 2, respectively. The recombinant hirudins and fondaparinux sodium were tolerated without any side effects in all patients tested. Fondaparinux is a synthetic copy of a pentasaccharide sequence in the heparin molecule. It is the first in a new class of antithrombotic agents. Our study suggests that it is a new safe alternative in patients with eczema-like, infiltrated plaques at subcutaneous heparin-injection sites.