Low-Molecular-Weight Heparins (LMWH) and Synthetic Factor X Inhibitors Can Impair the Osseointegration Process of a Titanium Implant in an Interventional Animal Study.

Background and objectives: Cementless total hip arthroplasty is a common surgical procedure and perioperative thromboprophylaxis is used to prevent deep vein thrombosis or pulmonary embolism. Osseointegration is important for long-term implant survival, and there is no research on the effect of different thromboprophylaxis agents on the process of osseointegration. Materials and Methods: Seventy rats were allocated as follows: Group I (control group), Group II (enoxaparin), Group III (nadroparin), and Group IV (fondaparinux). Ovariectomy was performed on all subjects, followed by the introduction of an intramedullary titanium implant into the femur. Thromboprophylaxis was administered accordingly to each treatment group for 35 days postoperatively. Results: Group I had statistically significantly lower anti-Xa levels compared to treatment groups. Micro-CT analysis showed that nadroparin had lower values compared to control in bone volume (0.12 vs. 0.21, p = 0.01) and percent bone volume (1.46 vs. 1.93, p = 0.047). The pull-out test showed statistically significant differences between the control group (8.81 N) compared to enoxaparin, nadroparin, and fondaparinux groups (4.53 N, 4 N and 4.07 N, respectively). Nadroparin had a lower histological cortical bone tissue and a higher width of fibrous tissue (27.49 µm and 86.9 µm) at the peri-implant area, compared to control (43.2 µm and 39.2 µm), enoxaparin (39.6 µm and 24 µm), and fondaparinux (36.2 µm and 32.7 µm). Conclusions: Short-term administration of enoxaparin, nadroparin, and fondaparinux can reduce the osseointegration of titanium implants, with nadroparin having the most negative effect. These results show that enoxaparin and fondaparinux are preferred to be administered due to a lesser negative impact on the initial implant fixation.

Optimising the Nadroparin Dose for Thromboprophylaxis During Hemodialysis by Developing a Population Pharmacodynamic Model Using Anti-Xa Levels.

INTRODUCTION: The optimal nadroparin dose in patients undergoing hemodialysis is difficult to determine in clinical practice. Anti-Xa levels ≥ 0.4 IU/mL and < 2.0 IU/mL are suggested to prevent thrombus formation within the extracorporeal circuit whilst minimizing bleeding risk. We aimed to characterize the variability in the association between dose and anti-Xa levels, identify patient and dialysis characteristics that explained this variability, and optimize nadroparin dosing based on the identified characteristics. METHODS: Anti-Xa samples were collected in patients who received intravenous nadroparin as thromboprophylaxis during routine dialysis sessions. A population pharmacodynamic model was developed using non-linear mixed-effects modelling. The percentage of patients ≥ 0.4 IU/mL (efficacy) and < 2.0 IU/mL (safety) was simulated for different doses, patient and dialysis characteristics. RESULTS: Patients (n = 137) were predominantly receiving standard hemodialysis (84.7% vs. hemodiafiltration 15.3%) and had a mean bodyweight of 76.3 kg (± 16.9). Lean body mass (LBM), mode of dialysis, and dialyzer partially explained between-subject variability in anti-Xa levels. Patients on hemodiafiltration and those receiving hemodialysis with a high LBM (≥ 80 kg) had a low probability (< 29%) of anti-Xa levels ≥ 0.4 IU/mL during the entire dialysis session. All patients, except hemodialysis patients with a low LBM (< 50 kg), had a high probability (> 70%) of peak anti-Xa levels < 2.0 IU/mL. CONCLUSION: Mainly patients receiving hemodiafiltration and those receiving hemodialysis with a high LBM can benefit from a higher nadroparin dose than currently used in clinical practice, while having anti-Xa levels < 2.0 IU/mL.

Effective use of fondaparinux in patient with unresponsiveness to nadroparin.

WHAT IS KNOWN AND OBJECTIVE: Fondaparinux exhibits a similar mechanism of action as LMWH. Since both of these drugs bind to antithrombin and increase its affinity to factor Xa, fondaparinux is not expected to be an effective alternative anticoagulant to LMWH in case of LMWH resistance. CASE SUMMARY: We report on a case of effective anticoagulation using fondaparinux following total unresponsiveness to high doses of nadroparin administered twice daily, as confirmed via repeated anti-Xa measurements. The antithrombin levels were within the normal range. WHAT IS NEW AND CONCLUSION: To the best of our knowledge, this is the first report of the effective use of fondaparinux in the case of unresponsiveness to LMWH.

Low molecular weight heparin (nadroparin) improves placental permeability in rats with gestational diabetes mellitus via reduction of tight junction factors.

Placental structural abnormalities and dysfunction in those with gestational diabetes mellitus (GDM) can lead to increased placental permeability, which is in turn related to a poorer maternal and fetal prognosis. The present study sought to assess whether increased placental permeability in rats with GDM was accompanied by alterations in tight junction (TJ) factors and to evaluate the impact of low molecular weight heparin (LMWH) on these factors. The present study was conducted using pregnant female rats that were randomized into control, GDM and GDM + LMWH groups. Diabetes was induced via intraperitoneal administration of streptozotocin to rats in the GDM and GDM + LMWH groups, whereas rats in the GDM + LMWH group received daily subcutaneous LMWH starting on day 5 of pregnancy. On gestational day 16, all rats were sacrificed and Evans Blue (EB) assay was used to gauge vascular permeability based on EB dye leakage. Transmission electron microscopy was further used to assess TJ structures, and the TJ proteins zonular occludens­1 (ZO­1) and occludin (OCLN) were assessed using immunohistochemistry and western blotting. Blood samples were obtained from the abdominal aorta for ELISA measurements of advanced glycation end products (AGEs) concentrations, and placental receptor for AGEs (RAGE) and vascular endothelial growth factor (VEGF) expression was assessed using reverse transcription­quantitative PCR. In addition, western blotting was used to measure placental NF­κB. Compared with in the control group, EB leakage was markedly increased in GDM group rats; this was associated with reduced ZO­1 and OCLN expression. Conversely, LMWH attenuated this increase in placental permeability in rats with GDM and also mediated a partial recovery of ZO­1 and OCLN expression. Blood glucose and serum AGEs concentrations did not differ between the GDM and GDM + LMWH groups. Furthermore, LMWH treatment resulted in decreases in RAGE and VEGF mRNA expression levels, which were upregulated in the GDM group, whereas it had the opposite effect on the expression of NF­κB. In conclusion, GDM was associated with increased placental permeability and this may be linked with changes in TJs. LMWH intervention mediated protection against this GDM­associated shift in placental permeability via the RAGE/NF­κB pathway.

Fondaparinux versus nadroparin for thromboprophylaxis following minimally invasive esophagectomy: A randomized controlled trial.

BACKGROUND: The methodology of thromboprophylaxis post minimally invasive esophagectomy (MIE) is unclear. Thus, we compared the efficacy and safety of fondaparinux and nadroparin on the prophylaxis of venous thromboembolism (VTE) after MIE. MATERIALS AND METHODS: We conducted a randomized, double-blind, treatment-controlled study. Consecutive patients undergoing MIE randomly received a single dose of either nadroparin 2850 AxaIU (Group H) or fondaparinux 2.5 mg (Group F) daily. We used ultrasonography to identify deep vein thrombosis (DVT) on postoperative day 7. The coagulation status was examined using thromboelastography (TEG) prior to and at 0, 24, 48, and 72 h after the operation. Bleeding events were recorded during anticoagulation therapy and analysis was performed on an intention-to-treat basis. RESULTS: We randomly assigned the patients to Group H (n = 57) or Group F (n = 59). Symptomatic or asymptomatic DVT was identified in seven patients in Group H and one patient in Group F (12.28% vs. 1.69%, p = 0.031). Pulmonary embolism developed in one patient in Group H, and the VTE incidence was significantly lower in Group F than Group H (1.69% vs. 14.04%, RR: 0.121, 95% CI: 0.016-0.935, p = 0.016). TEG analysis showed a more inhibited coagulation profile of Group F compared with Group H reflected by the significantly prolonged R time at 48 h and 72 h after operation (6.8 ±â€¯2.2 min vs. 8.4 ±â€¯2.7 min, p = 0.005; 7.1 ±â€¯1.6 min vs. 9.2 ±â€¯3.7 min, p = 0.002). Bleeding events were not recorded in either group. CONCLUSIONS: Fondaparinux could provide similar efficacy and safety in postoperative thromboprophylaxis following MIE compared with nadroparin.

Hypercoagulability causes atrial fibrosis and promotes atrial fibrillation.

AIMS: Atrial fibrillation (AF) produces a hypercoagulable state. Stimulation of protease-activated receptors by coagulation factors provokes pro-fibrotic, pro-hypertrophic, and pro-inflammatory responses in a variety of tissues. We studied the effects of thrombin on atrial fibroblasts and tested the hypothesis that hypercoagulability contributes to the development of a substrate for AF. METHODS AND RESULTS: In isolated rat atrial fibroblasts, thrombin enhanced the phosphorylation of the pro-fibrotic signalling molecules Akt and Erk and increased the expression of transforming growth factor ß1 (2.7-fold) and the pro-inflammatory factor monocyte chemoattractant protein-1 (6.1-fold). Thrombin also increased the incorporation of 3H-proline, suggesting enhanced collagen synthesis by fibroblasts (2.5-fold). All effects could be attenuated by the thrombin inhibitor dabigatran. In transgenic mice with a pro-coagulant phenotype (TMpro/pro), the inducibility of AF episodes lasting >1 s was higher (7 out of 12 vs. 1 out of 10 in wild type) and duration of AF episodes was longer compared with wild type mice (maximum episode duration 42.8 ± 68.4 vs. 0.23 ± 0.39 s). In six goats with persistent AF treated with nadroparin, targeting Factor Xa-mediated thrombin generation, the complexity of the AF substrate was less pronounced than in control animals (LA maximal activation time differences 23.3 ± 3.1 ms in control vs. 15.7 ± 2.1 ms in nadroparin, P < 0.05). In the treated animals, AF-induced α-smooth muscle actin expression was lower and endomysial fibrosis was less pronounced. CONCLUSION: The hypercoagulable state during AF causes pro-fibrotic and pro-inflammatory responses in adult atrial fibroblasts. Hypercoagulability promotes the development of a substrate for AF in transgenic mice and in goats with persistent AF. In AF goats, nadroparin attenuates atrial fibrosis and the complexity of the AF substrate. Inhibition of coagulation may not only prevent strokes but also inhibit the development of a substrate for AF.

Nadroparin for the prevention of venous thromboembolism in nonsurgical patients: a systematic review and meta-analysis.

Anticoagulant thromboprophylaxis with low molecular weight heparin is widely used in nonsurgical settings. To obtain best estimates of the effects of nadroparin for the prevention of venous thromboembolism (VTE) in nonsurgical patients, we conducted a systematic review and meta-analysis. Data sources were Medline, Embase, and Cochrane Library supplemented with conference abstracts, without language restrictions. Selection criteria were randomized controlled trials with nadroparin at prophylactic dose in adult nonsurgical patients. Main efficacy outcomes were major VTE (the composite of symptomatic deep vein thrombosis, symptomatic pulmonary embolism, asymptomatic proximal deep vein thrombosis and VTE-related death) and symptomatic VTE. The main safety outcome was major bleeding. We expressed treatment effects as risk ratios. Ten studies (4 vs. placebo or no treatment, 4 vs. UFH, 1 vs. fondaparinux and 1 vs. warfarin) enrolling a total of 7658 patients were included. In comparison with placebo, nadroparin reduced major VTE by about one-half (RR 0.48, 95% CI 0.24-0.97) with a consistent effect on symptomatic VTE (RR 0.69, 95% CI 0.46-1.05) and no increase in major bleeding (RR 1.51, 95% CI 0.40-5.79). In comparison with other pharmacological prophylaxis, nadroparin was similarly efficacious for prevention of major VTE (RR 1.14, 95% CI 0.63-2.10) and symptomatic VTE (RR 1.10, 95% CI 0.51-2.35) and produced similar effects on major bleeding (RR 0.60, 95% CI 0.25-1.50). Five studies were open label, and for three of these the adjudication method was not described or not blinded. In nonsurgical populations at risk of VTE, nadroparin reduced VTE by about one half compared with placebo or no treatment and appeared similarly effective and safe as other prophylactic anticoagulants.

Microvascular effects of the low molecular weight heparins in a colorectal xenograft model: an intravital microscopy study.

BACKGROUND: Low molecular weight heparins (LMWHs) are the cornerstone of the prevention of thromboembolic events in surgical patients. Recent clinical data suggest that LMWHs might improve survival of cancer patients, independent of their anticoagulant effect. The anti-cancer mechanism of LMWHs is incompletely understood, but may include effects on tumor angiogenesis. We assessed the effects of LMWHs on tumor angiogenesis and microcirculation in a mouse colorectal xenograft model using in vivo microscopy in window chambers. METHODS: HT29 human colorectal cancers were implanted in dorsal skinfold window chambers in athymic mice. Animals (n = 8 per group) were treated with 200 IU of nadroparin, enoxaparin, or saline for 8 d. Repeated intravital fluorescence microscopy was performed to calculate functional microcirculatory parameters as follows: number (N) and length (L) of microvessels, vascular area fraction (AF), and red blood cell velocity. Microvessel density, microvessel fractal dimension, and pericyte coverage were assessed histologically. RESULTS: Active angiogenesis was observed in control animals, resulting in a significant increase in N, L, and AF. In nadroparin- and enoxaparin-treated animals, however, AF did not change significantly over time and N and L remained significantly lower than untreated animals on day 7. Compared with control animals, nadroparin- and enoxaparin-treated animals showed a significantly lower microvessel density, but a higher pericyte coverage index, indicating a more mature microvessel network. CONCLUSIONS: The LMWHs nadroparin and enoxaparin inhibit tumor angiogenesis and result in microvessel normalization in this in vivo observed colorectal xenograft model.

Population pharmacodynamic model for low molecular weight heparin nadroparin in morbidly obese and non-obese patients using anti-Xa levels as endpoint.

PURPOSE: In absence of specific dosing guidelines, the optimal dose of low molecular weight heparins for thrombosis prophylaxis in morbidly obese patients (BMI>40 kg/m(2)) remains unknown. In order to guide dosing in this patient group, a pharmacodynamics model is developed for nadroparin in morbidly obese and non-obese patients using anti-Xa levels as an endpoint, thereby characterizing the influence of excessive body weight on different pharmacodynamic model parameters. METHODS: Twenty-eight morbidly obese and seven non-obese patients receiving 5700 IU and 2850 IU subcutaneous (s.c.) nadroparin for surgery, respectively, were included with a mean total body weight (TBW) of 135 kg (range 72-252 kg). Up to 11 anti-Xa levels were collected from the start until 24 h after nadroparin administration. Population pharmacodynamic modelling with covariate analysis was performed using NONMEM. RESULTS: In a two-compartment pharmacodynamic model with baseline endogenous anti-Xa levels, the effect of nadroparin was found to be delayed and could be best described using a transit compartment. TBW was the most predictive covariate for clearance (CL=23.0 mL/min × (TBW/70)), while lean body weight (LBW) proved the most predictive covariate for central volume of distribution (V1=7.0 L × (LBW/60)). CONCLUSIONS: A pharmacodynamic model was developed characterizing anti-Xa levels after s.c. administration of nadroparin in patients weighing between 72 and 252 kg with TBW and LBW as the major determinants for clearance and volume of distribution, respectively.

Effects of ultrapure hemodialysis and low molecular weight heparin on the endothelial surface layer.

BACKGROUND: Chronic kidney disease patients show changes in the endothelial surface layer (ESL). Whether hemodialysis (HD) itself or low molecular weight heparins (LMWH) induce ESL alterations is unknown. METHODS: We studied the ESL in 20 HD patients with Sidestream Dark Field Imaging [measuring perfused boundary region (PBR)] and measurement of ESL constituents in plasma during HD in 2 studies. LMWH was administered at the start of HD in study A, and 120 min after the start of HD in study B. Mean platelet volume (MPV) and platelet large cell ratio (P-LCR) were also measured. RESULTS: Syndecan-1 increased significantly 30 min after LMWH administration. sP-Selectin increased 120 min after HD start, and MPV and P-LCR decreased significantly during HD. No significant changes of PBR, sE-Selectin, sICAM-1, or sVCAM-1 were perceived. CONCLUSIONS: HD caused a significant increase in Syndecan-1 without a change in PBR. The administration of LMWH appeared to precede the rise in Syndecan-1.

Effects of low molecular weight heparins and unfractionated heparin on viability of human umbilical vein endothelial cells.

AIM: The aim of this study was to investigate the effects of bemiparin, nadroparin, enoxaparin, and heparin on viability of human umbilical vein endothelial cells (HUVEC). METHODS: Cultivation of HUVEC was performed in an incubator having 5 % CO(2) at 37 °C and with predefined supplemented medium, until cell monolayers attained confluence which occurred after 7 days. The assays were performed in the exponential growth phase of the cells. The cell viability was assessed using the cleavage of tetrazolium salts added to the culture medium. Heparin sodium, enoxaparin sodium, bemiparin sodium, and nadroparin calcium with concentrations of 100, 10, and 1 IU/100 µL were used for the proliferation assay in which cells were incubated for 24, 48, and 72 h with these drugs. The experiments were conducted in four replicates. RESULTS: Among the study drugs with maximal concentration used in the experiments (100 IU/100 µL), heparin was found to be associated with the lowest viability score in 24 and 48 h, while bemiparin showed the lowest at 72 h. Bemiparin 100 IU/100 µL was significantly associated with lower viability score than that of bemiparin 10 IU/100 µL and bemiparin 1 IU/100 µL at every time interval. Among gradual concentrations of enoxaparin, however, concentration of 1 IU/100 µL was associated with the lowest viability scores at every time point. Heparin 1 IU/100 µL, nadroparin 100 IU/100 µL, and enoxaparin 100 IU/100 µL groups had the highest viability score after 72 h of incubation. CONCLUSION(S): Among low molecular weight heparins (LMWHs), 100 IU/100 µL concentration of bemiparin was associated with a more pronounced effect on reducing viability of HUVEC after 72 h of incubation, while nadroparin 100 IU/100 µL and enoxaparin 100 IU/100 µL showed the least effects. LMWHs differ both from each other and heparin with respect to their effects on cellular viability of HUVEC in dose- and time-dependent manner.

The mechanisms of nadroparin-mediated inhibition of proliferation of two human lung cancer cell lines.

OBJECTIVES: Clinical data suggest that heparin treatment improves survival of lung cancer patients, but the mechanisms involved are not fully understood. We investigated whether low molecular weight heparin nadroparin, directly affects lung cancer cell population growth in conventionally cultured cell lines. MATERIALS AND METHODS: A549 and CALU1 cells' viability was assessed by MTT and trypan blue exclusion assays. Cell proliferation was assessed using 5-bromo-2-deoxyuridine incorporation. Apoptosis and cell-cycle distribution were analysed by flow cytometry; cyclin B1, Cdk1, p-Cdk1 Cdc25C, p-Cdc25C and p21 expressions were analysed by western blotting. mRNA levels were analysed by real time RT-PCR. RESULTS: Nadroparin inhibited cell proliferation by 30% in both cell lines; it affected the cell cycle in A549, but not in CALU-1 cells, inducing arrest in the G(2) /M phase. Nadroparin in A549 culture inhibited cyclin B1, Cdk1, Cdc25C and p-Cdc25C, while levels of p-Cdk1 were elevated; p21 expression was not altered. Dalteparin caused a similar reduction in A549 cell population growth; however, it did not alter cyclin B1 expression as expected, based on previous reports. Fondaparinux caused minimal inhibition of A549 cell population growth and no effect on either cell cycle or cyclin B1 expression. CONCLUSIONS: Nadroparin inhibited proliferation of A549 cells by inducing G(2) /M phase cell-cycle arrest that was dependent on the Cdc25C pathway, whereas CALU-1 cell proliferation was halted by as yet not elucidated modes.

Nadroparin sodium activates Nrf2/HO-1 pathway in acetic acid-induced colitis in rats.

Effects of nadroparin sodium, a low molecular weight heparin, in colitis was investigated by analyzing proteins implicated in nuclear factor E2-related factor-2/heme oxygenase-1 (Nrf2/HO-1) and nuclear factor kappa B (NF-κB) pathways. Twenty-eight rats were used. Colitis was induced by acetic acid (AA). Nadroparin sodium was given to prevention and treatment groups in addition to AA. Colitis was assessed histologically and levels of proteins were analyzed with Western blot. Nadroparin not only prevented and ameliorated the AA-induced colitis histopathologically but also decreased expression of colon NF-κB, activator protein-1, cyclooxygenase-2, tumor necrosis factor-alpha, and IL-6, which were significantly increased in group AA compared to control. The accumulation of Nrf2 in nuclear fraction and HO-1 found low in group AA was increased with nadroparin (p < 0.05). The mean malondialdehyde level increased with AA and was decreased significantly with nadroparin prevention and treatment (p < 0.001). Nadroparin sodium has both protective and therapeutic effects against colonic inflammation via exerting anti-oxidative and anti-inflammatory effects by modulating Nrf2/HO-1 and NF-κB pathways.

Antiangiogenic activities of bemiparin sodium, enoxaparin sodium, nadroparin calcium and tinzaparin sodium.

INTRODUCTION: The low-molecular-weight heparins have been demonstrated to have antiangiogenic effects in various assays. We aimed to demonstrate and compare the antiangiogenic effects of four types of commercially available low-molecular weight heparins in the chick embryo chorioallantoic membrane model. MATERIALS AND METHODS: The antiangiogenic efficacies of bemiparin, enoxaparin, nadroparin, and tinzaparin were examined in vivo in the chick chorioallantoic membrane model. Drug solutions are prepared in three different concentrations (100 IU, 10 IU, or 1 IU/10 µl). For each set of experiment twenty fertilized eggs were used. The decrease of vessel formation is examined and scored according to previous literature. RESULTS: Bemiparin, enoxaparin, nadroparin, and tinzaparin sodium all have antiangiogenic effects on chick chorioallantoic membrane at the concentration of 100 IU/10 µl. This effect was also observed in 10 IU/10 µl concentrations of nadroparin and tinzaparin. CONCLUSIONS: The low molecular weight heparins studied have obvious antiangiogenic effects. There may be a difference in the potency of the drugs that could have a significant implication for further clinical research.

The individually optimized bolus dose of nadroparin is safe and effective in diabetic and nondiabetic patients with bleeding risk on hemodialysis.

The risk of bleeding is a well-known complication in patients on hemodialysis (HD). The aim of this prospective study was to determine the lowest single bolus dose of low-molecular-weight heparin nadroparin for safe and effective HD in patients with a bleeding risk. Forty HD patients were divided into 4 subgroups with 10 participants (diabetics with and without a bleeding risk, nondiabetics with and without a bleeding risk). The actual starting bolus dose was decreased by 25% after the initial 4 weeks, further decreased by 25% of the starting dose after 4 weeks, and changed due to extracorporeal circuit clotting in the last 4 weeks. The parameters of coagulation were measured at the beginning, after 2 and 4 h of HD sessions. A significant reduction of nadroparin (first vs. last HD session) was observed in: diabetics with a bleeding risk (49.66 ± 12.33 vs. 28.78 ± 9.60 IU/kg/HD; P<0.001), diabetics without a bleeding risk (50.70 ± 15.23 vs. 33.95 ± 16.97 IU/kg/HD; P<0.001), and nondiabetics with a bleeding risk (61.25 ± 18.68 vs. 32.96 ± 10.06 IU/kg/HD; P<0.001). Altogether, the reduction of the nadroparin dose in these groups was 42.05%; 33.04%, and 46.19%, respectively. Although anti-Xa at hour 4 at the end of the study was <0.4 IU/mL in our diabetic and nondiabetic patients without a risk of bleeding, serious clottings in the extracorporeal circuit and vascular access thromboses were not found. This study demonstrated for the first time that individually optimized doses of nadroparin are sufficient for safe and effective HD in patients with a bleeding risk.

Effects of nadroparin, enoxaparin, and unfractionated heparin on endogenous formation of factor Xa and IIa and on thrombelastometry profiles in cord versus adult blood.

BACKGROUND: To date, only few pharmacokinetic studies on low-molecular-weight heparins (LMWHs) in neonates exist not allowing to formally assess pharmacodynamics of LMWHs in neonates. OBJECTIVE: To evaluate the anticoagulant effects of the two LMWHs nadroparin and enoxaparin on endogenous formation of FXa or FIIa in cord versus adult platelet-poor plasma (PPP) and on thrombelastometry profiles in cord versus adult whole blood (WB). Unfractionated heparin (UH) was the reference antithrombotic drug. METHODS: The effects of nadroparin, enoxaparin, or UH on endogenous formation of FXa or FIIa was investigated in tissue factor-activated PPP using a subsampling technique and chromogenic substrates. The anticoagulant efficacy of these drugs was also investigated in WB triggered by the physiological relevant activator collagen/endogenous thrombin using thrombelastometry. RESULTS: The major findings are (i) nadroparin is as efficient as enoxaparin concerning inhibition of the endogenous formation of FXa and FIIa, (ii) cord PPP and WB are significantly more susceptible to the addition of LMWHs or UH than adult PPP or WB, and (iii) compared by equivalent anti-FXa activity, the anticoagulant action of UH is markedly higher than that of the LMWHs in PPP and WB of neonatal or adult origin. CONCLUSIONS: Administration of LMWHs in neonates has to be performed carefully to avoid bleeding side effects due to their high anticoagulant efficacy in cord PPP and WB.

The low-molecular-weight heparin, nadroparin, inhibits tumour angiogenesis in a rodent dorsal skinfold chamber model.

BACKGROUND: Recently, low-molecular-weight heparins (LMWHs) were found to confer a survival advantage in cancer patients. The mechanism underlying this observation is unclear, but may involve inhibition of tumour angiogenesis. We aimed to examine the effects of nadroparin on tumour angiogenesis using a dorsal skinfold window chamber model in the Syrian hamster. METHODS: AMel-3 and HAP-T1 tumours were grown in donor animals and fragments implanted in the window chambers. Animals (N=46) were treated with 200 IU of nadroparin or saline for 10 days. Repeated intravital fluorescence microscopy was performed to calculate functional microcirculatory parameters: number (N) and length (L) of microvessels, vascular area fraction (AF), and red blood cell velocity (V). Microvessel density (MVD), fractal dimension, and pericyte coverage were assessed histologically. RESULTS: Active angiogenesis was observed in control animals, resulting in a significant increase in N, L, and AF. In nadroparin-treated animals, however, N and L did not increase whereas AF decreased significantly. Both groups showed an initial increase in V, but nadroparin treatment resulted in an earlier decrease in red blood cell velocity over time. Compared with control animals, nadroparin-treated animals showed a significantly lower MVD and fractal dimension but significantly higher pericyte coverage index (PCI). CONCLUSIONS: Taken together, these results suggest that the LMWH nadroparin inhibits tumour angiogenesis and results in microvessel normalisation.

Impact of hyperlipidaemia on the orbital bone cefotaxime levels in rats.

Facial injuries are critical conditions, leading to serious complications, such as occult facial infections. Infectious endophthalmitis occurs despite of antibiotics use during implantation of intraocular lenses and is generally resistant to antibiotic therapy. It is a crucial situation in ophthalmology, since it often induces a substantial reduction of visual acuity and in some cases the loss of the eye despite treatment. It is, therefore, important to obtain drug levels able to exert antimicrobial effect in the diseased organ. The distribution of a drug depends on the binding extent to both plasma proteins and tissues and only the free drug is capable to be transported/diffused across membranes from blood vessels into tissues, in order to achieve its effect on the target organ. Hyperlipidaemia and consequent enhanced concentration of free fatty acid can modify binding pharmacokinetics of antibiotics through antagonism for the same binding sites. Cefotaxime, the third generation cephalosporin with easy penetration in a variety of tissues and body fluids and low incidence of adverse effects, can obtain adequate concentration in blood, eye bulb, and in the orbital bones. Its levels are influenced by hyperlipidaemia with clinical impact.

Hepatocyte growth factor/activin A/follistatin system activation during hemodialysis with different low molecular weight heparins.

Hepatocyte growth factor (HGF), activin A (Act A), and follistatin (FS) compose an organotrophic system; interestingly it is modified by heparin. To understand if LMWHs (considered distinct drugs) have different clinical profiles regarding the above growth factors, we studied the effects of enoxaparin, nadroparin, and dalteparin on their plasma levels. Seventeen chronic HD patients completed this prospective, crossover trial. They were randomized into six groups: each patient was administered enoxaparin (effective dose of 0.75 mg/kg), nadroparin (70.4 IU/kg) and dalteparin (78.6 IU/kg) in three time periods of two months each. At the end of this period, the cytokine's plasma levels were measured by immunoassays at the start and at 10 min and 180 min of the HD procedure. At 10 min, we observed a striking increase in plasma HGF (32-fold), Act A (4-fold), and FS (53%), all p = 0.0003. The levels of HGF and Act A remained markedly elevated after 180 min (by 295% and 87%, respectively; both p < 0.002), while those of FS returned to baseline. There were no differences in cytokine profile comparing both their peak concentrations and the areas under the curve. Enoxaparin, dalteparin, and nadroparin are seemingly not different considering the release of HGF/Act A/FS during HD procedures; this may reflect their similar profile in other aspects. Moreover, the concentrations of HGF/Act A/FS are close to therapeutic ones, which may partly explain the mechanisms underlying some of the emerging extra-anticoagulant effects of LMWHs.

Effects of low-molecular-weight heparin on adhesion and vesiculation of phospholipid membranes: a possible mechanism for the treatment of hypercoagulability in antiphospholipid syndrome.

Heparins represent an efficient treatment of acute thrombosis and obstetric complications in antiphospholipid syndrome (APS). Enhanced microvesiculation of cell membranes, as detected by reduced membrane adhesion, can contribute to hypercoagulability in APS. Healthy donor IgG antibodies significantly increased beta2-glycoprotein I (beta2-GPI)-induced membrane adhesion, indicating that IgG antibodies might supplement the role of beta2-GPI in the regulation of membrane microvesiculation in healthy individuals. Anti-beta2-GPI IgG antibodies significantly reduced beta2-GPI-induced membrane adhesion, suggesting a direct role of anti-beta2-GPI antibodies in enhancing membrane microvesiculation in APS. Therapeutic concentration of nadroparin completely restored beta2-GPI-induced membrane adhesion in the presence of anti-beta2-GPI IgG antibodies. A novel anticoagulant mechanism of nadroparin in APS is suggested that supplements its direct effect on the coagulation cascade. Restoration of adhesion between negatively charged membranes in the presence of nadroparin might decrease shedding of microvesicles into the surrounding solution and could thus contribute to the efficacy of heparin treatment in APS.