Ultrastructural analysis of platelets and fibrin networks in stroke patients

De Lange, Albe Carina

18 April 2011

Ischaemic stroke represent more than 80% of the total stroke instances. The location of the occlusion and the amount of brain tissue involved determines the effect of the stroke. Stroke can result in paralysis, memory loss, speech impairment and even a “lock-in” state. The amount of neuronal damage will determine whether these symptoms will be temporary or permanent. Stroke is deemed the second leading cause of death for individuals over the age of 60. According to the World Stroke Organization (WSO) every six seconds stroke claims a life, regardless of age or gender. Stroke is a global burden and the medical costs and disability related to stroke in America for 2010 was projected at almost $73.7 billion. The morphology of platelets, fibrin networks and erythrocytes as well as the differential white blood cell counts of 20 thrombo-embolic ischaemic stroke patients were investigated. Internal and external alterations were revealed in the platelets of stroke patients when compared to healthy controls. The decreased numbers of alpha granules in the platelets of the stroke patients indicated these platelets to be activated. Substances released by activated platelets promote fibrin network structure, specifically the formation of fibrin strands and accumulation of additional platelets. The fibrin network of healthy individuals consists of major, thick fibers with minor, thin fibers distributed between them. The fibrin network of stroke patients exhibited an abnormally layered and matted ultrastructure comprising of mainly thin, minor fibrin fibers packed closely together. An uncharacteristic circular morphology was also observed. These alterations in the fibrin network indicate the activated platelets to be actively involved in the thrombotic event. Neuronal damage related to stroke is also advanced by the vasoactive substances released by activated platelets. It can therefore be deduced that the morphology of the fibrin network is altered long before the concrete thrombotic event transpire. Large numbers of abnormal erythrocytes were distinguished in the blood of stroke patients. Among these abnormal forms of erythrocytes specifically codocytes, knizocytes, stomatocytes and echinocytes were identified. Abnormal erythrocyte forms were significantly increased in hypertensive patients and females independently. Alterations in the ultrastructure of erythrocytes disturb blood flow in the microcirculation and could possibly augment the ischaemic event. Inflammation is closely related to ischaemic stroke. An increased monocyte count and a reduced number of neutrophils were a significant feature among all the stroke patients of this study. Patients with hypertension as well as patients consuming aspirin on a daily basis showed the greatest influence on the observed differential white blood cell counts. These morphological alterations observed in the platelets, fibrin network and erythrocytes as well as the differential white blood cell count could be incorporated in an analysis regime that could probably indicate an impending thrombotic event. Therefore treatment could be initiated before the ischaemic event to possibly prevent the stroke. For future studies a larger study population, a more refined patient enrolment as well as the analysis of follow-up blood samples from patients could substantiate the above-mentioned findings and provide additional information concerning the thrombotic event and the effectiveness of treatment procedures. / Dissertation (MSc)--University of Pretoria, 2010. / Anatomy / Unrestricted

Morphology

Platelets

Thrombo-embolic ischaemic stroke

Fibrin

UCTD

Fibrin Specificity of Plasminogen Activators, Rebound Generation of Thrombin, and Their Therapeutic Implications

Sobel, Burton E.

28 June 2001

Optimal induction of coronary thrombolysis depends in part upon the nature of the specific plasminogen activator used. The two general classes of plasminogen activators available clinically differ in a fundamental respect delineated by the term, clot selectivity. Clot selective agents are less prone to induce plasminemia and consequent occult activation of the coagulation cascade than are non-selective agents. However, under clinical conditions, all plasminogen activators result in some activation of the cascade with consequent generation of thrombin. Accordingly, optimal therapy requires the use of conjunctive anticoagulation to preclude the deleterious effects of rebound generation of thrombin, which has been well documented biochemically. The potential value of antiplatelet agents that can attenuate the positive feedback loop between activation of platelets and markedly amplified generation of thrombin in the setting of coronary thrombolysis is under active exploration. With appropriate monitoring of the efficacy of such agents in vivo it should be possible to enhance even further the benefits that can be conferred by pharmacologically induced coronary thrombolysis.

coronary thrombolysis

fibrin specificity

fibrinolysis

DETERMINATION OF <i>in vitro</i> DRUG RELEASE FROM WOUND DRESSINGS THROUGH AN ARTIFICAL WOUND MODEL

ZHOU, YING

22 May 2002

No description available.

Chemistry, Pharmaceutical

Fibrin clot

Diffusion

vitamin E

chlorhexidine digluconate

membrane

Comparison of conjunctival pedicle flap to corneal adhesion achieved by Tisseel® fibrin glue, ethyl cyanoacrylate adhesive, ReSure® hydrogel sealant, and conventional suturing with 8-0 VICRYL® suture

VerHulst, Elodie Marie

09 February 2023

Background: Conjunctival pedicle flaps are one of the most frequently employed surgical interventions used to address a variety of sight threatening corneal diseases in veterinary ophthalmic practice. Securing the conjunctiva to the cornea is typically achieved through suturing, which is technically challenging and can result in prolonged surgical times, increased corneal edema, increased scar tissue, foreign body reaction, suture abscess and dehiscence. In human ophthalmology, a number of sutureless techniques to affix ocular tissues are being explored. Specifically, these approaches include synthetic tissue adhesives, bioadhesives, and hydrogel sealants. The proposed advantages of adhesives over suture, include reduced operative times, watertight seals, decreased foreign-body sensation and inflammation, faster healing times and tissue regeneration with original architecture restoration. Objective. To evaluate the maximum tensile force a conjunctival pedicle flap is able to withstand with respect to different fixation methods, i.e., Tisseel® fibrin glue, ethyl cyanoacrylate adhesive, ReSure® hydrogel sealant, or 8-0 VICRYL suture. Animals Studied. Ex-vivo porcine globes Procedures. Following a 500-micron restricted depth lamellar keratectomy, conjunctival pedicle flaps were dissected and secured to corneal defects with either the bioadhesive Tisseel®, or the synthetic adhesives ReSure®, ethyl cyanoacrylate, or 8-0 VICRYL® suture. Harvested corneoconjunctival flap interfaces were clamped to an accelerometer and potentiometer device, and loaded under video surveillance until the point of failure. Peak load at failure was determined for each test and used to compare between sample types. Results. 40 flaps underwent tensile force testing, with 6 being omitted for dehiscence prior to tensile testing. Of the 34 tests included in analysis, 10 conjunctival flaps were secured with suture, 10 with cyanoacrylate, 8 with ReSure® hydrogel sealant, and 6 with Tisseel® fibrin glue. A significant increase in maximum withstood tensile force was recorded between sutured flap fixation when compared with cyanoacrylate glue (p=0.02474), ReSure® hydrogel sealant (p= 0.00000), and Tisseel® fibrin glue (p= 0.00002). Cyanoacrylate fixation was significantly stronger when compared with ReSure® hydrogel sealant and Tisseel fibrin glue (p=0.01194 and 0.01798 respectively). There was no significant difference in adhesion strength between ReSure® hydrogel sealant and Tisseel® fibrin glue (p=0.95675). Conclusions. Conjunctival pedicle flap fixation using 8-0 VICRYL® suture fixation was able to withstand significantly greater maximum tensile force application in comparison with the ReSure®, Tisseel®, or cyanoacrylate adhesives. / Master of Science / Conjunctival pedicle flaps are one of the most frequently employed surgical interventions to address sight threatening corneal disorders in companion animals. Due to its redundant nature and close proximity to the corneal surface, conjunctival tissue is readily available for grafting to the cornea. It is surgically dissected to appropriate size and repositioned over the corneal defect where it effectively aids in healing through direct provision of structural support and indirectly via its rich blood supply. Securing the conjunctiva to cornea is typically achieved through suturing, which is technically challenging and can result in prolonged surgical times, increased corneal edema, increased scar tissue, foreign body reaction, abscess and dehiscence. In human ophthalmology, a number of sutureless techniques to affix ocular tissues are being explored. Specifically, these approaches include synthetic tissue adhesives, bioadhesives, and hydrogel sealants. The proposed advantages of tissue adhesives over suture, include reduced operation times, watertight closures, decreased foreign-body reaction and inflammatory response, faster healing times and increased ability to induce regeneration of the original tissue architecture. The purpose of this study was to evaluate the maximum tensile force a corneoconjunctial pedicle flap is able to withstand with respect to four different fixation methods, 40 ex-vivo porcine globes underwent conjunctival pedicle flap procedures. Each pedicle flap was secured to cornea with either 8-0 Vicryl® suture, Tisseel®, ethyl cyanoacrylate, or ReSure®. After harvesting from the globe, the corneoconjunctival unions were clamped to an accelerometer and potentiometer device, and loaded under video surveillance until the point of failure. The peak load was determined for each test and used to compare between sample types.

conjunctival pedicle flap

Tisseel®

ReSure®

cyanoacrylate

PEG adhesive

fibrin glue

Microparticles in colorectal and pancreatic cancers / Les microparticules dans les cancers colorectal et pancréatique

Mège, Diane

28 October 2016

Le cancer colorectal (CRC) est le plus fréquent des cancers digestifs. Cependant, il est moins grave et moins fréquemment associé à une complication thrombo-embolique que le cancer du pancréas (PC). Les microparticules (MPs) sont de petites vésicules produites par bourgeonnement de la membrane cellulaire. Les MPs sont impliquées dans la croissance tumorale, le développement de métastases et l’activité pro-coagulante associée aux cancers. Les objectifs de ces travaux étaient d’identifier et de caractériser les différentes MPs dans le CRC and le PC, afin de décrire une signature microparticulaire, puis d’évaluer leur implication dans la survenue de complications thrombo-emboliques. Nous avons donc rapporté une signature microparticulaire spécifique dans le CRC et le PC par rapport à des pathologies bénignes colorectales et pancréatiques, ainsi que des sujets sains, que nous avons appelé “microparticulosome”. Le microparticulosome se modifie avec l’évolution de la maladie, pour se rapprocher des formes bénignes voire des sujets sains, en cas de rémission du CRC. De plus,il varie en présence ou non d'une complication thrombo-embolique. Nous avons également rapporté le cas d’un cancer du sein diagnostiqué grâce à des taux élevés de MPs exprimant la fibrine. En conclusion, les MPs pourraient constituer de nouveaux bio-marqueurs pertinents en cancérologie, dans le diagnostic, le pronostic de survie et de survenue d’une complication thrombo-embolique. La connaissance des interactions des MPs avec le microenvironnement tumoral permettra de mettre au point des thérapeutiques adaptées et efficaces dans la croissance tumorale et l’extension métastatique. / Colorectal cancer (CRC) is the most common gastrointestinal cancer. It is less serious and less frequently associated with thrombo-embolic event than pancreatic cancer (PC). Microparticles (MPs) are small vesicles produced and released by exocytic blebbing of the activated and apoptotic cell membrane from most, if not all, types of cells. They are known to be implicated in the tumor growth, the development of metastases and the cancer-associated procoagulant activity. Our objectives were to identify and to characterize the different concentrations of circulating MPs in CRC and PC, in order to describe a MPs hallmark, and to evaluate their implication in the occurrence of a venous thromboembolism. We have thus reported a specific hallmark of MPs in CRC and PC, comparing to benign colorectal and pancreatic diseases and healthy subjects, so-called the “microparticulosome”. We have observed that microparticulosome changed with the evolution of the disease, and tended to the signature observed for benign diseases or healthy subject in case of CRC remission. We also reported variations in the microparticulosome in case of an occurrence of a thrombo-embolic event.In conclusion, MPs may constitute new pertinent biomarkers in cancers, in the diagnosis, the survival prognostic and the prognostic of the occurrence of thrombo-embolic events. Understanding the interactions of MPs with tumor environment will allow to find efficient treatments against tumor growth and metastases development.

Microparticules

Cancer colorectal

Cancer du pancréas

Thrombose

Facteur tissulaire

Fibrin

Lactadhérine

Microparticles

Colorectal cancer

Pancreatic cancer

Thrombosis

Tissue factor

Fibrin

Lactadherin

Collagen and Fibrin Biopolymer Microthreads For Bioengineered Ligament Regeneration

Cornwell, Kevin G.

04 May 2007

Rupture of the anterior cruciate ligament (ACL) of the knee leads to chronic joint instability and reduced range of motion while the long term results are marred by a high prevalence of degenerative joint disease especially osteoarthritis. Bundles of collagen threads have been widely investigated for the repair of torn ACL, but are limited by insufficient tissue ingrowth to repopulate and completely regenerate these grafts. We have developed a novel in vitro method of characterizing fiber-based thread matrices by probing their ability to promote tissue ingrowth from a wound margin as a measure of their ability to promote repopulation and regeneration. This method is useful in the optimization of thread scaffolds, and is sensitive enough to distinguish between subtle variations in biopolymer chemistry and organization. Furthermore, this method was used to characterize the effects of crosslinking on the cell outgrowth and correlated the findings with the mechanical properties of collagen threads. The results suggest that crosslinking is required to achieve sufficient mechanical properties for high stress applications such as ACL replacement, but regardless of technique, crosslinking attenuated the cell outgrowth properties of the threads. To improve the regenerative capacity of these scaffolds, novel fibrin microthread matrices were developed with a similar morphology to collagen threads and sufficient mechanical strength to be incorporated in composite thread scaffold systems. These fibrin microthreads were loaded with FGF-2, a potent mitogen and chemotactic agent that works synergistically with fibrin in regulating cell signaling and gene expression. Increases in fibroblast migration and proliferation in FGF-2-loaded fibrin threads were successfully demonstrated with the concomitant promotion of oriented, aligned, spindle-like fibroblast morphology. These results suggest that fibrin-FGF-2 microthreads have distinct advantages as a biomaterial for the rapid regeneration of injured tissues such as the ACL.

ligament

ACL

collagen

fibrin

microthread

fiber

thread

FGF-2

fibroblast

tissue regeneration

tissue engineering

Ligaments

Knee

Anterior cruciate ligament

Ligament prostheses

Fibrin

Vascular outgrowth of normal and atherosclerotic aortic grafts in modified fibrin gels : a clinically translatable model

Collins, Scott Forrest

13 June 2011

The success of regenerative cardiac therapy requires reestablishing a capable blood supply via vasculature. The objective of this study was to develop an optimal scaffold formulation for de novo collateral vessel growth of aortic grafts using modified fibrin clots. This ex vivo vascular outgrowth model can be used to interrogate the complex cell or tissue interactions on the angiogenic front as vessels are formed. Based on formulation constraints, the methods used here may provide a clinically applicable option for guided collateral formation. Once understood, the methods and procedures can be tested and modified as necessary for in vivo, in situ regenerative therapy. Aortic segments from wild-type (C57BL/6J) and apolipoprotein-E deficient (ApoE) atherosclerosis-prone mice were cultured in a 3D environment created by various formulations of PEGylated fibrin. Aortic outgrowth was assessed and the optimal formulation was chosen to test the formation of de novo vascular circuits -- the first step necessary for collateral artery formation. The cultures were examined by conventional and confocal microscopy as well as by optical coherence tomography. Experiments testing the relationship between fibrin PEGylation and aortic vascular outgrowth showed that PEGylating fibrinogen prior to clot formation increased outgrowth over non-PEG control (n=6, p<.05) at lower fibrin concentrations. Lowering fibrin concentration to 10, 5, or 2.5mg/ml resulted in significantly higher outgrowth that was 1.92, 2.04, or 2.20 times that of 20mg/ml PEGylated fibrin gels. When multiple aortic segments are cultured in proximity, microvascular outgrowths visually anastamose suggesting that aorta-aorta conduits can be formed in fibrin based hydrogels. Anastomosing circuits appeared between wild-type aortic segments as well as between wild-type and atherosclerotic prone ApoE knockout segments. Fibrin gels, with or without PEGylation, form scaffolds suitable for regenerative vascular outgrowth ex vivo in normal and atherogenic environments. PEGylating fibrin prior to thrombin-initiated polymerization will allow the incorporation of growth factors or other bioactive components, making this a customizable therapy for guided collateral formation. Additionally, the incorporation of PEG itself does not limit and may actually increase the outgrowth from aortic segments in lower density gels. Finally, PEGylated fibrin gels offer an environment that will promote vascular extensions that visually anastamose, making this a viable model for ex vivo collateral formation. / text

Scaffold formulation

Collateral vessel growth

Aortic grafts

Fibrin clots

Vascular outgrowth

Angiogenic front

Guided collateral formation

Regenerative therapy

PEGylation

Fibrin gels

Core–shell bioprinting of vascularized in vitro liver sinusoid models

Taymour, Rania, Chicaiza-Cabezas, Nathaly Alejandra, Gelinsky, Michael, Lode, Anja

18 April 2024

In vitro liver models allow the investigation of the cell behavior in disease conditions or in response to changes in the microenvironment. A major challenge in liver tissue engineering is to mimic the tissue-level complexity: besides the selection of suitable biomaterial(s) replacing the extracellular matrix (ECM) and cell sources, the three-dimensional (3D) microarchitecture defined by the fabrication method is a critical factor to achieve functional constructs. In this study, coaxial extrusion-based 3D bioprinting has been applied to develop a liver sinusoid-like model that consists of a core compartment containing pre-vascular structures and a shell compartment containing hepatocytes. The shell ink was composed of alginate and methylcellulose (algMC), dissolved in human fresh frozen plasma. The algMC blend conferred high printing fidelity and stability to the core–shell constructs and the plasma as biologically active component enhanced viability and supported cluster formation and biomarker expression of HepG2 embedded in the shell. For the core, a natural ECM-like ink based on angiogenesis-supporting collagen-fibrin (CF) matrices was developed; the addition of gelatin (G) enabled 3D printing in combination with the plasma-algMC shell ink. Human endothelial cells, laden in the CFG core ink together with human fibroblasts as supportive cells, formed a pre-vascular network in the core in the absence and presence of HepG2 in the shell. The cellular interactions occurring in the triple culture model enhanced the albumin secretion. In conclusion, core–shell bioprinting was shown to be a valuable tool to study cell–cell-interactions and to develop complex tissue-like models.

info:eu-repo/classification/ddc/570

ddc:570

Fibrinogen functionality in black South Africans : the PURE study / Christina Magrietha Kotzé

Kotzé, Christina Magrietha

January 2014

INTRODUCTION AND AIM Black South Africans are experiencing an increase in the prevalence of cardiovascular disease (CVD). Fibrinogen functionality, including total and gamma prime (y’) fibrinogen concentration, as well as fibrin network structure, play an important role in CVD development and events. Several genetic and environmental factors influence fibrinogen functionality, and in turn, known CVD risk factors associated with total and y’ fibrinogen concentration have also been associated with altered fibrin clot structure. However, the main body of evidence regarding the role of fibrinogen functionality in CVD is based on studies conducted in white ethnicities and/or in vitro. The main aim of this study was, therefore, to determine the relationship between fibrinogen functionality and CVD in black South Africans in a plasma setting. Since there is greater genetic diversity in Africans than in non-black ethnicities, it was also our objective to investigate the influence of genetic polymorphisms in determining fibrinogen synthesis and plasma clot properties, and to determine possible gene-environment interactions altering clot properties. PARTICIPANTS AND METHODS The South African arm of the Prospective Urban and Rural Epidemiology (PURE) study included 2010 apparently healthy black men and women between the ages of 35 and 65 years, residing in rural or urban settlements. Blood samples were collected from the participants during a 12-week period in 2005. The following variables were analysed: total and y’ fibrinogen concentration, CVD risk factors and genetic polymorphisms in the fibrinogen and Factor XIII genes as well as turbidimetric analysis of clot formation and lysis (expressed as clot lysis time (CLT)). RESULTS Increased plasma levels of both total (largest contribution of 33%) and y’ fibrinogen were associated with increased fibre diameter while y’/total fibrinogen ratio had the opposite effect. The rate of lateral aggregation of fibrin fibres (slope) increased with an increase in total fibrinogen concentration, but not fibrinogen y’. Increasing fibrinogen y’ concentration was associated with longer CLTs and was the largest contributor to its variance (12%). Increased total and y’ fibrinogen were significantly associated with increased waist circumference, body mass index, C-reactive protein (CRP), glycosylated haemoglobin, metabolic syndrome (MetS) and low high-density lipoprotein (HDL) cholesterol levels. Furthermore, the association of fibrinogen y’ with these CVD risk factors was independent of total fibrinogen levels. C-reactive protein was the largest contributor to variance in fibrinogen y’ levels and y’/total fibrinogen ratio (apart from total fibrinogen). We observed significant associations between single nucleotide polymorphisms (SNPs) at rs1049636 and rs2070011 loci and increased total and y’ fibrinogen levels, respectively. Only SNP rs1800787 was associated with clot properties (increased maximum absorbance). Significant gene-environment interactions were observed between SNPs rs2227385, rs1800787, rs1800788, rs4220 and rs5985 and total and/or y’ fibrinogen levels in determining clot properties. The CVD risk factors age, MetS, CRP, HDL-cholesterol and homocysteine associated significantly with clot properties, independent of total and/or y’ fibrinogen plasma concentration. CONCLUSION The results of this thesis provide several novel insights relevant to this research field. Plasma y’ fibrinogen concentration and y’ ratio were found to be associated with altered clot properties in a plasma setting, and are also influenced by CVD risk factors other than fibrinogen. The associations between SNPs, total and y’ fibrinogen and clot properties differ somewhat from evidence reported in white populations. Significant gene-environment interactions between SNPs and total and y’ fibrinogen in determining clot properties existed and had opposing effects, i.e. both prothrombotic and antithrombotic, suggesting that the influence of genetic factors on fibrinogen should focus not only on concentration, but also on functionality. Cardiovascular disease risk factors also influence clot properties in vivo, through mechanisms independent of total and/or y’ fibrinogen concentration. / PhD (Nutrition), North-West University, Potchefstroom Campusm, 2015

Total fibrinogen

Fibrinogen y’

Genetic polymorphisms

Fibrin clot properties

CVD risk factors

Fibrinogen functionality in black South Africans : the PURE study / Christina Magrietha Kotzé

Kotzé, Christina Magrietha

January 2014

INTRODUCTION AND AIM Black South Africans are experiencing an increase in the prevalence of cardiovascular disease (CVD). Fibrinogen functionality, including total and gamma prime (y’) fibrinogen concentration, as well as fibrin network structure, play an important role in CVD development and events. Several genetic and environmental factors influence fibrinogen functionality, and in turn, known CVD risk factors associated with total and y’ fibrinogen concentration have also been associated with altered fibrin clot structure. However, the main body of evidence regarding the role of fibrinogen functionality in CVD is based on studies conducted in white ethnicities and/or in vitro. The main aim of this study was, therefore, to determine the relationship between fibrinogen functionality and CVD in black South Africans in a plasma setting. Since there is greater genetic diversity in Africans than in non-black ethnicities, it was also our objective to investigate the influence of genetic polymorphisms in determining fibrinogen synthesis and plasma clot properties, and to determine possible gene-environment interactions altering clot properties. PARTICIPANTS AND METHODS The South African arm of the Prospective Urban and Rural Epidemiology (PURE) study included 2010 apparently healthy black men and women between the ages of 35 and 65 years, residing in rural or urban settlements. Blood samples were collected from the participants during a 12-week period in 2005. The following variables were analysed: total and y’ fibrinogen concentration, CVD risk factors and genetic polymorphisms in the fibrinogen and Factor XIII genes as well as turbidimetric analysis of clot formation and lysis (expressed as clot lysis time (CLT)). RESULTS Increased plasma levels of both total (largest contribution of 33%) and y’ fibrinogen were associated with increased fibre diameter while y’/total fibrinogen ratio had the opposite effect. The rate of lateral aggregation of fibrin fibres (slope) increased with an increase in total fibrinogen concentration, but not fibrinogen y’. Increasing fibrinogen y’ concentration was associated with longer CLTs and was the largest contributor to its variance (12%). Increased total and y’ fibrinogen were significantly associated with increased waist circumference, body mass index, C-reactive protein (CRP), glycosylated haemoglobin, metabolic syndrome (MetS) and low high-density lipoprotein (HDL) cholesterol levels. Furthermore, the association of fibrinogen y’ with these CVD risk factors was independent of total fibrinogen levels. C-reactive protein was the largest contributor to variance in fibrinogen y’ levels and y’/total fibrinogen ratio (apart from total fibrinogen). We observed significant associations between single nucleotide polymorphisms (SNPs) at rs1049636 and rs2070011 loci and increased total and y’ fibrinogen levels, respectively. Only SNP rs1800787 was associated with clot properties (increased maximum absorbance). Significant gene-environment interactions were observed between SNPs rs2227385, rs1800787, rs1800788, rs4220 and rs5985 and total and/or y’ fibrinogen levels in determining clot properties. The CVD risk factors age, MetS, CRP, HDL-cholesterol and homocysteine associated significantly with clot properties, independent of total and/or y’ fibrinogen plasma concentration. CONCLUSION The results of this thesis provide several novel insights relevant to this research field. Plasma y’ fibrinogen concentration and y’ ratio were found to be associated with altered clot properties in a plasma setting, and are also influenced by CVD risk factors other than fibrinogen. The associations between SNPs, total and y’ fibrinogen and clot properties differ somewhat from evidence reported in white populations. Significant gene-environment interactions between SNPs and total and y’ fibrinogen in determining clot properties existed and had opposing effects, i.e. both prothrombotic and antithrombotic, suggesting that the influence of genetic factors on fibrinogen should focus not only on concentration, but also on functionality. Cardiovascular disease risk factors also influence clot properties in vivo, through mechanisms independent of total and/or y’ fibrinogen concentration. / PhD (Nutrition), North-West University, Potchefstroom Campusm, 2015

Total fibrinogen

Fibrinogen y’

Genetic polymorphisms

Fibrin clot properties

CVD risk factors