scholarly journals NOVEL NANOPARTICLES FOR THE ORAL DELIVERY OF LOW MOLECULAR WEIGHT HEPARIN: IN VITRO AND IN VIVO ASSESSMENT

2017 ◽  
Vol 10 (2) ◽  
pp. 254 ◽  
Author(s):  
Nallaguntla Lavanya ◽  
Indira Muzib ◽  
Aukunuru Jithan ◽  
Balekari Umamahesh
Keyword(s):  
Molecular Weight ◽  
Low Molecular Weight Heparin ◽  
Ex Vivo ◽  
In Vitro Release ◽  
Low Molecular Weight ◽  
Scanning Calorimetry ◽  
Ex Vivo Permeation ◽  
Permeation Studies

Objective: The objective of the present study was to prepare and evaluate a novel oral formulation of nanoparticles for the systemic delivery of low molecular weight heparin (LMWH). Methods: Nanoparticles were prepared by polyelectrolyte complexation (PEC) method using polymers sodium alginate and chitosan. Entrapment efficiency of LMWH in nanoparticles was found to be  ̴88%. Fourier transform infrared spectroscopy (FTIR), differential scanning calorimetry (DSC), X‑ray diffraction (XRD), Scanning electron microscopy (SEM)  studies carried for nanoparticles. In vitro release studies were performed for the formulations. Ex vivo permeation studies were performed optimized formulation by using small intestine of rat and in vivo studies were conducted on rat model.Results: In vitro release studies demonstrated that the release of LMWH was negligible in the stomach and high in the small intestine. FTIR has indicated that there is no interaction between the ingredients in nanoparticle. DSC and XRD studies confirmed that the amino groups of chitosan interacted with the carboxylic groups of alginate. Invitro % drug release of 95% was shown by formulation AC5. Ex vivo permeation studies have elucidated that ̴ 73% of LMWH was transported across the epithelium. Nanoparticles have shown enhanced oral bioavailability of LMWH as revealed by 4.5 fold increase in AUC of plasma drug concentration time curve.Conclusion: The results suggest that the nanoparticles prepared can result in targeted delivery of LMWH into systemic circulation via intestinal and colon routes. Novel nanoparticles thus prepared in this study can be considered as a promising delivery system.Keywords: Antifactor Xa activity, Chitosan, Differential scanning calorimetry, Sodium alginate, Low-molecular-weight heparin, Oral bioavailability.

Studies in Man and Experimental Animals of a Low Molecular Weight Heparin Fraction

1981 ◽  
Vol 45 (03) ◽  
pp. 214-218 ◽  
Author(s):  
D P Thomas ◽  
R E Merton ◽  
W E Lewis ◽  
T W Barrowcliffe
Keyword(s):  
Molecular Weight ◽  
Low Molecular Weight Heparin ◽  
Specific Activity ◽  
Ex Vivo ◽  
High Specific Activity ◽  
Factor Xa ◽  
In Vivo Studies ◽  
Low Molecular Weight

SummaryIn vitro and in vivo studies were carried out on a commercially prepared low molecular weight heparin fraction. By APTT assay the fraction had a specific activity of half that of unfractionated mucosal heparin, yet retained full potency by anti-Xa assay (both clotting and chromogenic substrate). When administered intravenously to human volunteers, the anti-Xa/APTT ratio remained the same as it was in vitro. However, after subcutaneous injection, the ratio increased and anti-Xa activity could not be fully neutralized ex vivo by PF4. The fraction was as effective as unfractionated heparin in preventing experimental serum-induced thrombosis, suggesting that a heparin fraction with high specific activity by anti-Factor Xa assay compared to APTT activity may be an effective drug for the prophylaxis of venous thrombosis.

Effects of Unfractionated and Low Molecular Weight Heparins on Platelet Thromboxane Biosynthesis “In Vivo”

1994 ◽  
Vol 72 (06) ◽  
pp. 942-946 ◽  
Author(s):  
Raffaele Landolfi ◽  
Erica De Candia ◽  
Bianca Rocca ◽  
Giovanni Ciabattoni ◽  
Armando Antinori ◽  
...  
Keyword(s):  
Molecular Weight ◽  
Unfractionated Heparin ◽  
Low Molecular Weight Heparin ◽  
Primary Source ◽  
In Vivo Studies ◽  
Low Molecular Weight ◽  
Heparin Administration ◽  
To Receive

SummarySeveral “in vitro” and “in vivo” studies indicate that heparin administration may affect platelet function. In this study we investigated the effects of prophylactic heparin on thromboxane (Tx)A2 biosynthesis “in vivo”, as assessed by the urinary excretion of major enzymatic metabolites 11-dehydro-TxB2 and 2,3-dinor-TxB2. Twenty-four patients who were candidates for cholecystectomy because of uncomplicated lithiasis were randomly assigned to receive placebo, unfractionated heparin, low molecular weight heparin or unfractionaed heparin plus 100 mg aspirin. Measurements of daily excretion of Tx metabolites were performed before and during the treatment. In the groups assigned to placebo and to low molecular weight heparin there was no statistically significant modification of Tx metabolite excretion while patients receiving unfractionated heparin had a significant increase of both metabolites (11-dehydro-TxB2: 3844 ± 1388 vs 2092 ±777, p <0.05; 2,3-dinor-TxB2: 2737 ± 808 vs 1535 ± 771 pg/mg creatinine, p <0.05). In patients randomized to receive low-dose aspirin plus unfractionated heparin the excretion of the two metabolites was largely suppressed thus suggesting that platelets are the primary source of enhanced thromboxane biosynthesis associated with heparin administration. These data indicate that unfractionated heparin causes platelet activation “in vivo” and suggest that the use of low molecular weight heparin may avoid this complication.

Neutralization of a Low Molecular Weight Heparin (LHN-1) and Conventional Heparin by Protamine Sulfate in Rats

1986 ◽  
Vol 56 (03) ◽  
pp. 318-322 ◽  
Author(s):  
V Diness ◽  
P B Østergaard
Keyword(s):  
Molecular Weight ◽  
Low Molecular Weight Heparin ◽  
Thrombus Formation ◽  
Experimental Models ◽  
Protamine Sulfate ◽  
Low Molecular Weight ◽  
Antithrombotic Effect ◽  
Higher Doses

SummaryThe neutralization of a low molecular weight heparin (LHN-1) and conventional heparin (CH) by protamine sulfate has been studied in vitro and in vivo. In vitro, the APTT activity of CH was completely neutralized in parallel with the anti-Xa activity. The APTT activity of LHN-1 was almost completely neutralized in a way similar to the APTT activity of CH, whereas the anti-Xa activity of LHN-1 was only partially neutralized.In vivo, CH 3 mg/kg and LHN-1 7.2 mg/kg was given intravenously in rats. The APTT and anti-Xa activities, after neutralization by protamine sulfate in vivo, were similar to the results in vitro. In CH treated rats no haemorrhagic effect in the rat tail bleeding test and no antithrombotic effect in the rat stasis model was found at a protamine sulfate to heparin ratio of about 1, which neutralized APTT and anti-Xa activities. In LHN-1 treated rats the haemorrhagic effect was neutralized when APTT was close to normal whereas higher doses of protamine sulfate were required for neutralization of the antithrombotic effect. This probably reflects the fact that in most experimental models higher doses of heparin are needed to induce bleeding than to prevent thrombus formation. Our results demonstrate that even if complete neutralization of APTT and anti-Xa activities were not seen in LHN-1 treated rats, the in vivo effects of LHN-1 could be neutralized as efficiently as those of conventional heparin. The large fall in blood pressure caused by high doses of protamine sulfate alone was prevented by the prior injection of LHN-1.

Novel concatameric heparin-binding peptides reverse heparin and low-molecular-weight heparin anticoagulant activities in patient plasma in vitro and in rats in vivo

Blood ◽  
2004 ◽  
Vol 103 (4) ◽  
pp. 1356-1363 ◽  
Author(s):  
Barbara P. Schick ◽  
David Maslow ◽  
Adrianna Moshinski ◽  
James D. San Antonio
Keyword(s):  
Molecular Weight ◽  
Low Molecular Weight Heparin ◽  
Tandem Repeats ◽  
Factor Xa ◽  
Low Molecular Weight ◽  
Heparin Binding ◽  
High Affinity ◽  
Binding Peptides

Abstract Patients given unfractionated heparin (UFH) or low-molecular-weight heparin (LMWH) for prophylaxis or treatment of thrombosis sometimes suffer serious bleeding. We showed previously that peptides containing 3 or more tandem repeats of heparin-binding consensus sequences have high affinity for LMWH and neutralize LMWH (enoxaparin) in vivo in rats and in vitro in citrate. We have now modified the (ARKKAAKA)n tandem repeat peptides by cyclization or by inclusion of hydrophobic tails or cysteines to promote multimerization. These peptides exhibit high-affinity binding to LMWH (dissociation constant [Kd], ≈ 50 nM), similar potencies in neutralizing anti–Factor Xa activity of UFH and enoxaparin added to normal plasma in vitro, and efficacy equivalent to or greater than protamine. Peptide (ARKKAAKA)3VLVLVLVL was most effective in all plasmas from enoxaparin-treated patients, and was 4- to 20-fold more effective than protamine. Several other peptide structures were effective in some patients' plasmas. All high-affinity peptides reversed inhibition of thrombin-induced clot formation by UFH. These peptides (1 mg/300 g rat) neutralized 1 U/mL anti–Factor Xa activity of enoxaparin in rats within 1 to 2 minutes. Direct blood pressure and heart rate measurements showed little or no hemodynamic effect. These heparin-binding peptides, singly or in combination, are potential candidates for clinical reversal of UFH and LMWH in humans.

scholarly journals Inhibition of Plasmin Generation in Plasma By Heparin, Low Molecular Weight Heparin and a Covalent Antithrombin-Heparin Complex (ATH)

Blood ◽  
2014 ◽  
Vol 124 (21) ◽  
pp. 4217-4217
Author(s):  
Gabriela Chang ◽  
Helen M. Atkinson ◽  
Leslie R. Berry ◽  
Anthony K.C. Chan
Keyword(s):  
Molecular Weight ◽  
Plasminogen Activator ◽  
Low Molecular Weight Heparin ◽  
Conflicts Of Interest ◽  
Area Under The Curve ◽  
Low Molecular Weight ◽  
Plasminogen Activator Inhibitor 1 ◽  
Significant Difference

Abstract Introduction: Unfractionated heparin (UFH) and low molecular weight heparin (LMWH) are widely used anticoagulants for thrombosis treatment. However, these anticoagulants have limitations such as increased bleeding, variable dose response, required frequent monitoring, and, in the case of LMWH, inability to inhibit thrombin. This has led to the development of a covalent complex of antithrombin and heparin (ATH), which has been shown to overcome many of these shortcomings. ATH has faster rates of inhibition of many coagulation factors, is able to inhibit clot-bound thrombin, and is a more effective inhibitor of both venous and arterial thrombosis in animal models. Moreover, in a rabbit thrombosis model, ATH has been shown to decrease clot mass and fibrin accretion, while the contrary was observed for UFH. From these observations, it was suggested that ATH may enhance fibrin breakdown and thus led to investigations into the effects of UFH and ATH on fibrinolysis. In vitro studies have shown that UFH enhances antithrombin inhibition of plasmin. In addition, ATH displays a slightly greater inhibition of plasmin generation and activity. Such studies were conducted in purified systems, in the absence of other plasmin inhibitors naturally present in plasma. Therefore, the aim of the present study was to compare the effects of UFH, LMWH, and ATH on plasmin generation in plasma. Methods: At 37°C tissue plasminogen activator (tPA) and soluble fibrin fragments (fib) were added to normal adult pooled platelet poor plasma supplemented with 0.35, 0.7, 1.4, or 2.1 U anti-Xa/ml UFH, LMWH, or ATH, to initiate plasmin generation (8.93nM tPA and 300µg/ml fib). At various time points, subsamples were mixed with excess plasminogen activator inhibitor 1 (PAI-1) (55.12nM) to stop further plasmin generation. The plasmin concentration at each time point was determined using a plasmin-specific chromogenic substrate and a standard curve produced from purified plasmin. Results: Comparisons of mean area under the curve (AUC) for plasmin generation displayed a significant decrease in plasmin generation in the presence of all three anticoagulants at all doses tested (p<0.05). Comparing the anticoagulants at similar doses, plasmin generation was significantly decreased in the presence of ATH (15384.66±1930.23nM/min) compared to LMWH (23892.28±3090.54nM/min) at 0.7 U/ml (p<0.05). At a dose of 1.4 U/ml, there was significantly less plasmin generated, over time, in the presence of UFH (20089.49±3022.1623nM/min) and ATH (19273.86±1805.7323nM/min) when compared to LMWH (24743.18±1265.1023nM/min) (p<0.05). There was no significant difference in plasmin inhibition between UFH and ATH at any of the doses tested. Conclusion: The present study supports previous findings that UFH and ATH can facilitate antithrombin inhibition of plasmin. It is also observed that LMWH catalyzes the inhibition of plasmin by antithrombin but possibly to a lesser extent. These findings suggest that ATH has a similar inhibitory effect on plasmin generation and activity in plasma compared to UFH, despite its overall superior anticoagulant properties. Therefore, previous in vivo observations displaying decrease in clot mass with administration of ATH was due to its enhanced anticoagulant abilities and not fibrinolysis enhancement. These findings add to our understanding of ATH mechanisms of action and aid in its development for clinical use. Disclosures No relevant conflicts of interest to declare.

Nanostructured Lipid Carriers for Intranasal Administration of Olanzapine in the management of Schizophrenia

2021 ◽  
Vol 14 ◽  
Author(s):  
Sarbjot Kaur ◽  
Ujjwal Nautiyal ◽  
Pooja A. Chawla ◽  
Viney Chawla
Keyword(s):  
Drug Delivery ◽  
Ex Vivo ◽  
In Vitro Release ◽  
Nanostructured Lipid Carriers ◽  
Polydispersity Index ◽  
Poloxamer 407 ◽  
Ex Vivo Permeation ◽  
Permeation Studies ◽  
Vitro Release

Background: Background: Olanzapine belongs to a new class of dual spectrum antipsychotic agents. It is known to show promise in managing both the positive and negative symptoms of schizophrenia. Drug delivery systems based on nanostructured lipid carriers (NLC) are expected to provide rapid nose-to-brain transport of this drug and improved distribution into and within the brain. Objective: The present study deals with the preparation and evaluation of olanzapine loaded NLC via the intranasal route for schizophrenia. Methods: Olanzapine-NLC were formulated through the solvent injection method using isopropyl alcohol as the solvent, stearic acid as solid lipid, and oleic acid as liquid lipid, chitosan as a coating agent, and Poloxamer 407 as a surfactant. NLC were characterized for particle size, polydispersity index, entrapment efficiency, pH, viscosity, X-ray diffraction studies, in-vitro mucoadhesion study, in- vitro release and ex-vivo permeation studies. The shape and surface morphology of the prepared NLC was determined through transmission electron microscopy. To detect the interaction of the drug with carriers, compatibility studies were also carried out. Results: Average size and polydispersity index of developed formulation S6 was 227.0±6.3 nm and 0.460 respectively. The encapsulation efficiency of formulation S6 was found to be 87.25 %. The pH, viscosity, in-vitro mucoadhesion study, and in- vitro release of optimized olanzapine loaded NLC were recorded as 5.7 ± 0.05, 78 centipoise, 15±2 min, and 91.96 % respectively. In ex-vivo permeation studies, the percent drug permeated after 210 min was found to be 84.03%. Conclusion: These results reveal potential application of novel olanzapine-NLC in intranasal drug delivery system for treatment of schizophrenia.

Novel Design of Peptides to Reverse the Anticoagulant Activities of Heparin and other Glycosaminoglycans

2001 ◽  
Vol 85 (03) ◽  
pp. 482-487 ◽  
Author(s):  
Joel Gradowski ◽  
James San Antonio ◽  
Jose Martinez ◽  
Barbara Schick
Keyword(s):  
Molecular Weight ◽  
Unfractionated Heparin ◽  
Low Molecular Weight Heparin ◽  
Factor Xa ◽  
Low Molecular Weight ◽  
Heparin Binding ◽  
Antifactor Xa ◽  
Novel Design

SummaryPatients undergoing anticoagulation with unfractionated heparin, low molecular weight heparin, or danaparoid may experience excess bleeding which requires reversal of the anticoagulant agent. Protamine is at present the only agent available for reversal of unfractionated heparin. Protamine is not effective in patients who have received low molecular weight heparin or danaparoid. We have developed a series of peptides based on consensus heparin binding sequences (Verrecchio et al., J Biol Chem 2000; 275: 7701-7707) that are capable of neutralizing the anti-thrombin activity of unfractionated heparin in vitro, the antifactor Xa activity of unfractionated heparin, Enoxaparin (Lovenox) and danaparoid (Orgaran) in vitro and the anti-Factor Xa activity of Enoxaparin in vivo in rats. These peptides may serve as alternatives for Protamine reversal of UFH and may be useful for neutralization of enoxaparin and danaparoid in humans.

Effect of Low-Molecular-Weight Heparin (Tinzaparin) and Unfractionated Heparin on Platelet Aggregation

1996 ◽  
Vol 2 (3) ◽  
pp. 209-212 ◽  
Author(s):  
Hanne B. Ravn ◽  
Claus Bregengaard ◽  
Henrik Vissinger ◽  
Per Østergaard ◽  
Jan Holst ◽  
...  
Keyword(s):  
Molecular Weight ◽  
Platelet Aggregation ◽  
Unfractionated Heparin ◽  
Low Molecular Weight Heparin ◽  
Ex Vivo ◽  
Subcutaneous Administration ◽  
Low Molecular Weight ◽  
Pronounced Difference ◽  
Dose Dependent

A low-molecular-weight heparin (LMWH), when anti-IIa activity was compared. In the ex vivo part Tinzaparin, was compared with unfractionated heparin of the study, a significant enhancement of ADP-induced (UFH) for their effects on platelet aggregation in vitro and platelet aggregation was observed after i.v. administra ex vivo. Both heparins showed a dose-dependent proag- tion of both Tinzaparin and UFH with no difference in gregatory effect on ADP- and collagen-induced platelet potency. Subcutaneous administration of Tinzaparin in aggregation in vitro, but LMWH was less potent. The two different doses did not have any effect on platelet differences in potency between Tinzaparin and UFH de- activity. In conclusion, Tinzaparin appears, like other pended on how the compounds were compared. The most LMWHs, to have less proaggregatory effect on platelets pronounced difference was found when molar concentra- than UFH both in vitro and ex vivo.

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