Lipoprotein lipase in hemodialysis patients and healthy controls : effects of heparin

Näsström, Birgit

January 2004

Mortality from cardiovascular disease in patients on chronic hemodialysis (HD) is 10 to 20 times greater than in the general population. One major risk factor is renal dyslipidemia, characterised by an impaired catabolism of triglyceride (TG)-rich lipoproteins with accumulation of atherogenic remnant particles. A contributing factor may be derangement of the lipoprotein lipase (LPL) system, the major lipase in the catabolism of TG-rich lipoproteins. The functional pool of LPL is located at vascular surfaces, and is released by heparin into the circulating blood and extracted and degraded by the liver. Unfractionated heparin (UFH) is commonly used during dialysis to avoid clotting in the extracorporeal devices, but is increasingly replaced by various low molecular weight heparin (LMWH) preparations. Plasma LPL activity is usually lower after injection of LMWH which is therefore said to release less LPL and cause less disturbance of lipoprotein metabolism than UFH. However, animal studies have revealed that LMWH is as efficient as UFH in releasing LPL but is less efficient in retarding hepatic uptake. The aim of this study was to explore the effects of UFH and a LMWH (dalteparin) on LPL activity and TG concentrations in HD-patients compared with healthy controls, matched for age and gender. A disturbed LPL system might contribute to an impaired lipoprotein metabolism, and hence, an aggravated cardiovascular condition. An 8-hour primed infusion of UFH to controls gave rise to an initial peak of LPL activity within 30 minutes. The activity then dropped by almost 80% over the next two hours and levelled off to a plateau that corresponded to 15% of the peak level. When UFH was infused to HD-patients the curve for LPL activity resembled that for controls, but was reduced by 50% during the peak, while the plateau activities were comparable. The interpretation was that the functional pool, represented by the initial peak, was impaired in HD-patients, while the production of lipase molecules, reflected by the plateau, was only marginally reduced. During the peak of LPL activity TG decreased in both groups, but less in HD-patients, as was expected from the lower circulating lipase activity. During the plateau phase with low lipase activity, TG increased towards and beyond baseline values. When dalteparin was infused, the same pattern of plasma LPL activity was observed, although remarkably reduced. In controls the peak was only 30% and the subsequent plateau 40% compared with the activities during the UFH infusion. A bolus of UFH given when the LPL activity had levelled off to a plateau brought out about the same amount of activity, regardless of whether dalteparin or UFH had been infused. The conclusion was that both heparin preparations had reduced endothelial LPL to a similar extent, but that dalteparin less efficiently retarded the hepatic uptake of the enzyme. As a consequence to this, TG tended to reach higher levels after the dalteparin infusion. The LPL activities were further reduced in HD-patients during infusion with dalteparin, the peak was only 27% and the plateau 35% compared with the activities when UFH was infused. There was no decrease in TG, but rather a continuous increase, suggesting a profound depletion of functional LPL. In another study in HD-patients, two anticoagulation regimes based on present clinical practice were compared, and the doses were adjusted to the respective manufacturers recommendation. UFH was administered as a primed infusion, whereas dalteparin was given only as a single bolus pre-dialysis, not followed by an infusion. The results were in line with those in the experimental studies and indicate that also in the clinical setting LMWH interferes with the LPL system as least as much as an infusion of UFH does, and temporarily impairs lipolysis of TG. This interference might, in consequence, contribute to an aggravated cardiovascular condition in HD-patients.

dalteparin

dialysis

lipoprotein metabolism

LMWH

LPL

triglycerides

UFH

uremia

Thromboembolism following orthopaedic surgery : outcome and diagnostic procedures after prophylaxis in lower limb injuries /

Lapidus, Lasse,

January 2007

Diss. (sammanfattning) Stockholm : Karolinska institutet, 2007. / Härtill 4 uppsatser.

Investigation de l’état hypercoagulable chez le chien grâce à la génération de thrombine modifiée par l’ajout d’anticoagulants

Trudel, Caroline

04 1900

Les tests de coagulation actuellement disponibles en médecine vétérinaire ne parviennent pas à détecter l’état hypercoagulable de manière fiable. Les tests usuels de l’hémostase (ex : PT, PTT, antithrombine, D-dimères, etc.) n’évaluent malheureusement qu’une infime portion de la coagulation sanguine. Les tests globaux de l’hémostase, incluant la thromboélastographie et la génération de thrombine, permettent une évaluation plus complète de l’hémostase, incluant l’équilibre entre les facteurs procoagulants et anticoagulants. Ceux-ci comportent cependant encore certaines lacunes quant à leur performance diagnostique. L’étude présentée dans ce mémoire propose des modifications à la génération de thrombine conventionnelle dans le but d’identifier un état hypercoagulable chez des chiens malades. Plus précisément, nous avons comparé les effets in vitro de la thrombomoduline et de daltéparine sur la génération de thrombine réalisée chez des chiens sains et des chiens malades, pour démontrer une déficience en anticoagulants endogènes (i.e. protéine C et antithrombine) chez ces derniers. Pour se faire, 10 chiens sains et 10 chiens malades ont été sélectionnés en fonction de leur historique, examen physique et analyses sanguines. Du plasma pauvre en plaquettes a été obtenu pour chaque chien à partir de sang total citraté, aliquoté et congelé à -80 ̊Celsius pendant moins de 18 mois. La génération de thrombine a été mesurée sur le plasma décongelé à l'aide de la méthode Calibrated Automated Thrombogram. Les mesures ont d’abord été réalisées sans anticoagulant, puis avec l’addition de thrombomoduline et de trois concentrations de daltéparine (0,2, 0,4 et 0,6 U/ml). Le potentiel de thrombine endogène (ETP), le temps d’initiation (Lag time), le temps pour l’atteinte du pic (TTPeak) et le pic (Peak) ont été obtenus et analysés à l'aide d'un modèle linéaire mixte (p < 0,05). Aucune différence n’était observée entre les groupes avant l’ajout d’anticoagulants. L’ajout de thrombomoduline et de daltéparine entraînait une diminution significative de l'ETP et du Peak dans les deux groupes. Cependant, l’effet de ces deux anticoagulants étaient significativement moins marqué dans le groupe malade par rapport au groupe sain, à l'exception du Peak aux concentrations de daltéparine les plus élevées (0,4 U/ml et 0,6 U/ml). Cette modification de la génération de thrombine conventionnelle permet donc de mettre en évidence un déficit en anticoagulant endogène chez les chiens malades, chez lesquels la génération de thrombine est moins affectée par l’ajout in vitro de substances anticoagulantes. Par conséquent, effectuer la génération de thrombine avec et sans l'ajout d'anticoagulants exogènes pourrait être bénéfique pour la détection des états d'hypercoagulables chez le chien. / Current coagulation testing in veterinary medicine fails to reliably and consistently identify hypercoagulable states. Traditional coagulation assays (e.g. PT, PTT, antithrombin, D-dimers, etc.) only assess a small portion of the process of coagulation. Global coagulation assays, including thromboelastography and thrombin generation, allow a more complete evaluation of hemostasis, including the balance of procoagulant versus anticoagulant blood components. However, these tests still have shortcomings in terms of their diagnostic utility. The study presented in this thesis investigates modifications to conventional thrombin generation techniques as an attempt to better identify hypercoagulable states in sick dogs. More specifically, we aimed to compare the in vitro effects of thrombomodulin and dalteparin on thrombin generation performed in healthy dogs and dogs presented with illnesses associated with hypercoagulable states. We hypothesized that addition of these agents would demonstrate endogenous anticoagulant deficiencies (i.e. protein C and antithrombin) in sick dogs. Ten healthy dogs and ten sick dogs were selected based on history, physical examination and complete blood work. Platelet-poor plasma was obtained from citrated whole blood, aliquoted and frozen at -80 ̊Celsius for less than 18 months. Thrombin generation was measured on thawed plasma using a Calibrated Automated Thrombogram assay. Measurements were performed without anticoagulant and with the addition of thrombomodulin and dalteparin at three dilutions (0.2, 0.4 and 0.6 U/ml). Endogenous thrombin potential (ETP), lag time (Lag time), time to peak (TTPeak) and peak thrombin generation (Peak) were recorded and analyzed using a mixed linear model (p < 0.05). No difference was observed between the groups before the addition of anticoagulants. The addition of thrombomodulin and dalteparin significantly decreased ETP and Peak thrombin generation in both groups. However, the effects of both anticoagulants were significantly less in the diseased group compared to the healthy group, except for Peak at the highest dalteparin concentrations (0.4 U/ ml and 0.6 U/ml). The addition of thrombomodulin and dalteparin to plasma in vitro highlights an endogenous anticoagulant deficiency in this population of sick dogs, by failing to reduce thrombin generation to the same extent as in healthy dogs. Therefore, performing thrombin generation with and without the addition of exogenous anticoagulants might be beneficial for the detection of hypercoagulable states in the dog.

Calibrated Automated Thrombogram

chiens

daltéparine

état hypercoagulable

génération de thrombine

thrombomoduline

dalteparin

dogs

hypercoagulable state

thrombin generation

thrombomodulin