Your search keyword '"Valentino, L. A."' showing total 14 results

1. Physiopathology of haemophilic arthropathy.

Author

Lafeber FP, Miossec P, and Valentino LA

Subjects

Animals, Cartilage Diseases metabolism, Cartilage, Articular metabolism, Cartilage, Articular physiopathology, Hemarthrosis metabolism, Hemophilia A metabolism, Hemophilia A physiopathology, Humans, Iron metabolism, Models, Animal, Synovial Membrane metabolism, Synovial Membrane physiopathology, Synovitis metabolism, Tissue Culture Techniques, Cartilage Diseases physiopathology, Hemarthrosis physiopathology, Synovitis physiopathology

Abstract

Haemophilic arthropathy, which shares some clinical and biological injury characteristics with rheumatoid arthritis, is characterized by two main features: chronic proliferative synovitis and cartilage destruction. It is the consequence of repeated extravasation of blood into joint cavities, but its exact pathogenesis, particularly with regard to early changes in the joint, is still incompletely understood. This review presents recent findings obtained in experiments performed in vitro and using animal models, which have improved our knowledge of the pathogenesis of haemophilic arthropathy. These experimental studies show that haemophilic arthropathy is a multifactorial event in which the deposit of iron in the joints appears to exert a central role. First, iron may promote the apoptosis of chondrocytes by catalysing the formation of oxygen metabolites; this may explain the fact that intra-articular blood exerts a directly harmful effect on cartilage before, and independent of synovial changes. Secondly, iron may also act on the synovial membrane by favouring its proliferation through the induction of proto-oncogenes involved in cellular proliferation and stimulation of inflammatory cytokines as well as abrogation of apoptosis. These two processes, one degenerative and cartilage-mediated, the other inflammatory and synovium-mediated could occur in parallel or sequentially. Overall, it may be expected that these experimental results will yield new therapeutic strategies capable of effectively preventing the occurrence of this still serious and common complication in patients with severe haemophilia.

Published

2008

2. The impact of joint bleeding and synovitis on physical ability and joint function in a murine model of haemophilic synovitis.

Author

Mejia-Carvajal C, Hakobyan N, Enockson C, and Valentino LA

Subjects

Animals, Disease Models, Animal, Joints injuries, Mice, Movement, Range of Motion, Articular, Sex Factors, Survival Rate, Synovitis etiology, Hemarthrosis physiopathology, Hemophilia A complications, Synovitis physiopathology

Abstract

Haemophilia is a congenital disorder that commonly results in musculoskeletal bleeding and orthopaedic complications. After an acute joint haemorrhage, an increase in intra-articular pressure and inflammation cause pain, swelling and limited motion. Blood in the joint space provokes a proliferative disorder known as haemophilic synovitis. Overgrowth of the synovial membrane causes mechanical dysfunction. Eventually, there is destruction of the articular surface and underlying bone. The aim of this project was to test the hypothesis that a minimum number of haemarthroses negatively impacts on joint function and that this would be reflected by decreased physical performance of experimental animals. Mice deficient in factor VIII coagulant activity were trained to ambulate on a rotating rod then injured three times at weekly intervals. Their ability to walk was then compared to a group of uninjured mice. Cohorts of mice were killed after 1, 2 or 3 months and the knee joints examined by gross and histological methods. The results supported the following conclusions: (i) haemophilic mice can be trained to ambulate on a rotating rod; (ii) acute hemarthrosis temporarily impairs their ability to ambulate and (iii) following recovery from acute injury, mice developing synovitis demonstrated inferior physical ability compared to mice not developing synovitis. This is the first description of a quantitative assay to monitor joint function in experimental animals and should be useful to evaluate the efficacy of new therapies developed to prevent and treat bleeding and to test strategies to counter the devastating effects of synovitis.

Published

2008

3. Pathogenesis of haemophilic synovitis: clinical aspects.

Author

Hoots WK, Rodriguez N, Boggio L, and Valentino LA

Subjects

Adolescent, Adult, Age Factors, Cartilage, Articular, Child, Child, Preschool, Disease Management, Factor IX therapeutic use, Factor VIII therapeutic use, Female, Hemarthrosis prevention & control, Hemophilia A drug therapy, Hemophilia A physiopathology, Humans, Male, Prospective Studies, Randomized Controlled Trials as Topic, Synovitis complications, Synovitis drug therapy, Hemarthrosis etiology, Hemophilia A complications, Synovitis etiology

Abstract

Arthropathy remains a major cause of morbidity in patients with haemophilia. Frequent bleeding into the joints leads to joint damage with resultant contractures, joint deformities and arthritis. This in turn leads to muscle atrophy, limited physical activity, osteoporosis and disability. Even though several studies of prophylactic factor replacement for persons with severe haemophilia demonstrate improved joint function, this therapy is still not readily available to most people with haemophilia around the world and a universal treatment protocol has not been used. In this article, we discuss key issues in the treatment of severe haemophilia: the optimal timing of initiation and termination of therapy, dosing options and goals of therapy. The options for countries where prophylaxis is not readily available are also discussed. Most studies are small and not randomized making consensus treatment recommendations difficult to formulate. Randomized, clinical trials are needed to provide the answers regarding the optimal treatment of patients with severe haemophilia.

Published

2007

4. Pathogenesis of haemophilic synovitis: experimental studies on blood-induced joint damage.

Author

Valentino LA, Hakobyan N, Rodriguez N, and Hoots WK

Subjects

Animals, Arthritis physiopathology, Cartilage, Articular, Cytokines metabolism, Factor IX therapeutic use, Factor VII therapeutic use, Female, Hemarthrosis physiopathology, Hemophilia A drug therapy, Hemophilia A physiopathology, Humans, Iron metabolism, Male, Mice, Models, Molecular, Synovitis physiopathology, Arthritis prevention & control, Hemarthrosis etiology, Hemophilia A complications, Iron adverse effects, Synovitis etiology

Abstract

Hemarthrosis is a common manifestation of haemophilia, and joint arthropathy remains a frequent complication. Even though the exact mechanisms related to blood-induced joint disease have not yet been fully elucidated, it is likely that iron deposition in the synovium induces an inflammatory response that causes not only immune system activation but also stimulates angiogenesis. This process ultimately results in cartilage and bone destruction. Investigating the processes that occur in the early stages of blood-induced joint disease in humans has been very limited. Therefore, the use of haemophilic animal models is critical to augment the understanding of this phenomenon. This article discusses three cellular regulators (p53, p21 and TRAIL) induced in synovial tissue that are important for iron metabolism. A cartilage remodelling programme induced by the release of cytokines and growth factors that result in articular damage is also discussed. Full elucidation of the pathogenesis of haemophilic joint disease is required to identify new avenues for prevention and therapy.

Published

2007

5. Histological changes in murine haemophilic synovitis: a quantitative grading system to assess blood-induced synovitis.

Author

Valentino LA and Hakobyan N

Subjects

Adolescent, Adult, Child, Hemarthrosis pathology, Hemophilia A pathology, Histological Techniques methods, Humans, Synovitis pathology, Hemarthrosis etiology, Hemophilia A complications, Synovitis etiology

Abstract

Haemophilia is a congenital disorder that results in frequent bleeding into joints, in which a chronic and debilitating arthritis develops. The presence of blood evokes an inflammatory and proliferative synovial reaction. Although the molecular mechanisms and biochemical pathways which underlie this disorder are not known, significant advances have been made by studying a murine model of human haemophilic synovitis. In order to better understand and correlate the pathological, molecular and biochemical changes, it has become necessary to grade the histological changes observed. Despite a search of the literature and review of relevant publications, none of the currently utilized schemes were appropriate, and therefore a novel grading scheme was developed. After review of over 1000 histological sections, six characteristic changes were identified: (i) synovial hyperplasia; (ii) vascularity; (iii) discolouration by haemosiderin; (iv) the presence of blood (erythrocytes); (v) villus formation; and (vi) cartilage erosion. Synovial hyperplasia and vascularity were present in variable amounts and were quantitatively scored (0-3), while the other changes were qualitatively scored as absent or present (0 or 1). Application of the grading scheme was tested and a high interobserver correlation (greater than 80%) was found. The scheme was easy to learn even by novices, with no prior experience. The availability of the histological grading scheme for murine synovitis will allow for precise evaluation of the pathological changes following joint bleeding, and facilitate correlations with molecular and biochemical changes that lead to these changes.

Published

2006

6. Synovitis in a murine model of human factor VIII deficiency.

Author

Hakobyan N, Kazarian T, and Valentino LA

Subjects

Acute Disease, Animals, Chronic Disease, Disease Models, Animal, Hemarthrosis etiology, Hemarthrosis pathology, Hemophilia A complications, Hindlimb, Humans, Joint Deformities, Acquired etiology, Joint Deformities, Acquired pathology, Joints pathology, Mice, Mice, Inbred Strains, Synovitis etiology, Hemophilia A pathology, Synovitis pathology

Abstract

Recurrent joint bleeding is the most common musculoskeletal manifestation of haemophilia and leads to a target joint and synovitis. The pathobiology of haemophilic synovitis (HS) is not well understood. Here the histopathological changes that occur following haemarthrosis were examined in an animal model for human HS. After two haemarthrosis, there was soft tissue and joint swelling and histological changes of acute synovitis included infiltration of the sub-synovial layer by mononuclear cells and neutrophils, thickening of the synovial membrane with villus formation, and hyperplasia of blood vessels. Subacute changes were evident after three haemarthrosis; muscle atrophy was present and an intense mononuclear cell infiltrate filled the sub-synovial space. There was destruction of articular surfaces and loss of cartilage. Seventeen months after three haemarthrosis, chronic joint changes included gross deformity and loss of congruence due to dense fibrotic tissue filling the joint space. The mononuclear inflammatory cell infiltrate and thickened synovial membrane persisted. Pits and erosions of articular surfaces and sub-chondral cysts were present. There was fibro-cartilage and new bone formation. This model of human HS should be useful to fully evaluate the biochemical and molecular changes that occur following joint bleeding and to test novel therapeutics to prevent HS.

Published

2005

7. Experimental haemophilic synovitis: rationale and development of a murine model of human factor VIII deficiency.

Author

Valentino LA, Hakobyan N, Kazarian T, Jabbar KJ, and Jabbar AA

Subjects

Animals, Body Mass Index, Hemarthrosis pathology, Hemophilia A pathology, Mice, Mice, Knockout, Models, Animal, Motor Activity, Synovitis pathology, Weight Loss, Wounds, Nonpenetrating complications, Wounds, Nonpenetrating pathology, Hemarthrosis etiology, Hemophilia A complications, Synovitis etiology

Abstract

Haemophilia is a genetic disease as a result of the deficiency of blood coagulation factor VIII or IX. Bleeding is common, especially into joints where an inflammatory, proliferative synovitis develops resulting in a debilitating arthritis, haemophilic arthropathy. The pathogenesis of blood-induced haemophilic synovitis (HS) is poorly understood. The gross, microscopic and ultrastructural changes that occur in the synovial membrane following human and experimental hemarthrosis have been described. Repeated episodes of bleeding induce synoviocyte hypertrophy and hyperplasia, an intense neovascular response and inflammation of the synovial membrane. The component(s) in blood that initiates these changes is(are) not known, although iron is often proposed as one possibility. Here, we describe a novel murine model of human haemophilia A, which facilitates the examination of large number of animals and tissue specimens. The effects of hemarthrosis on the physical, gross and microscopic changes evoked following joint bleeding are described. Controlled, blunt trauma to the knee joint consistently resulted in joint swelling because of a combination of bleeding and inflammation. Hemosiderin was found in the synovial membrane. Similar to hemarthrosis in human haemophilia, joint bleeding resulted in acute morbidity evidenced by inactivity, weight loss and immobility. With time the animals recovered. The model of experimental murine HS described here has utility in the study of the pathogenesis of HS. This is the first of a series of articles, which will discuss the pathophysiology and characterize the model, with comparison of his model to others which have been published previously. It should provide a useful model to test potential therapeutic interventions.

Published

2004

8. Safety of radiation exposure after radiosynovectomy in paediatric patients with haemophilia.

Author

Rodriguez‐Merchan, E. C. and Valentino, L. A.

Subjects

*HAEMOPHILUS diseases, *MEDICAL literature, *MEDICAL emergencies, *HEMORRHAGE, *MEDICAL care

Abstract

Many paediatric patients with haemophilia who might benefit from radiosynovectomy ( RS) for the control of synovitis do not undergo the procedure as there is controversy in the literature regarding the safety of radiation exposure after two cases of acute lymphocytic leukaemia in children with haemophilia treated with 32P RS were reported. The purpose of this review was to analyse the safety of RS in paediatric patients with haemophilia and provide a risk-benefit assessment, which practitioners could apply to their patients. Children undergoing knee RS receive a radiation dose of approximately 0.74 mSv (90 megabecquerels-MBq) and elbow and ankle RSs a dose of approximately 0.32 mSv (30-40 MBq). The radiation dose from natural sources is approximately 2 mSv and the recommended limit for patients (apart from natural sources) is 1 mSv per year. The lifetime cancer risk increases about 0.5% per 100 mSv per year. Considering the risks and benefits of RS, the authors recommend that clinicians consider this procedure in children with inhibitors or in patients without inhibitors when bleeding is recurrent and persistent despite aggressive factor replacement. [ABSTRACT FROM AUTHOR]

Published

2015

9. Consequences of intra-articular bleeding in haemophilia: science to clinical practice and beyond.

Author

FORSYTH, A. L., RIVARD, G.-É., VALENTINO, L. A., ZOURIKIAN, N., HOFFMAN, M., MONAHAN, P. E., VAN MEEGEREN, M. E. R., and FORRIOL, F.

Subjects

HEMOPHILIA, HEMORRHAGE, JOINT diseases, INFLAMMATION, HEMARTHROSIS, PATHOLOGICAL physiology

Abstract

. Blood in the joint causes a number of physiological and pathological events that eventually lead to haemophilic arthropathy. Animal models show that blood in the joint induces inflammation that continues long after blood has been cleared [1]. TNF-alpha, IL-1beta and IL-6 are inflammatory mediators that increase following haemarthrosis in haemophilic mice [2]. Conventional anti-inflammatory drugs have failed to demonstrate a lasting effect in preventing haemophilic arthropathy. A new TNF-alpha antagonist has shown promising results in haemophilic mice [3]. Similarly, the use of cyclo-oxygenase-2 inhibitors may reduce angiogenesis associated with the healing process following bleeding and the associated tissue damage [4]. Animal models are useful for studying the pathophysiology of haemarthropathy, however, when applying results from animals to humans, the differences in matrix turnover rate, thickness of cartilage and joint biomechanics must be kept in mind [5]. In people with haemophilia, there is a variable response to haemarthrosis as demonstrated by magnetic resonance imaging (MRI). Up to 30% of subjects have normal MRI despite having three or more haemarthroses into the same joint [6]. Once bone damage is present, little can be done to restore anatomic integrity. Several molecules, including members of the bone morphogenic protein subfamily, have been injected into bone defects in non-haemophilic subjects with some evidence of benefit [7]. To achieve the primary goal of reducing blood in the joint and the negative sequelae, it is questionable to use ice to treat haemarthrosis. Indeed low temperature is associated with impairment of coagulation enzyme activity and platelet function [8]. [ABSTRACT FROM AUTHOR]

Published

2012

10. Exploring the biological basis of haemophilic joint disease: experimental studies.

Author

VALENTINO, L. A., HAKOBYAN, N., ENOCKSON, C., SIMPSON, M. L., KAKODKAR, N. C., CONG, L., and SONG, X.

Subjects

*BLOOD coagulation disorders, *JOINT diseases, *HEMOPHILIACS, *SYNOVITIS, *CARTILAGE

Abstract

. Haemophilia has been recognized as the most severe among the inherited disorders of blood coagulation since the beginning of the first millennium. Joint damage is the hallmark of the disease. Despite its frequency and severity, the pathobiology of blood-induced joint disease remains obscure. Although bleeding into the joint is the ultimate provocation, the stimulus within the blood inciting the process and the mechanisms by which bleeding into a joint results in synovial inflammation (synovitis) and cartilage and bone destruction (arthropathy) is unknown. Clues from careful observation of patient material, supplemented with data from animal models of joint disease provide some clues as to the pathogenesis of the process. Among the questions that remain to be answered are the following: (i) What underlies the phenotypic variability in bleeding patterns of patients with severe disease and the development of arthropathy in some but not all patients with joint bleeding? (ii) What is the molecular basis underlying the variability? (iii) Are there strategies that can be developed to counter the deleterious effects of joint bleeding and prevent blood-induced joint disease? Understanding the key elements, genetic and/or environmental, that are necessary for the development of synovitis and arthropathy may lead to rational design of therapy for the targeted prevention and treatment of blood-induced joint disease. [ABSTRACT FROM AUTHOR]

Published

2012

11. Prevention of haemarthrosis in a murine model of acute joint bleeding.

Author

VALENTINO, L. A., HAKOBYAN, N., KAZARIAN, T., SORENSEN, B. B., and TRANHOLM, M.

Subjects

*BLOOD coagulation disorders, *HEMOPHILIA, *JOINT diseases, *BLUNT trauma, *HYPERPLASIA

Abstract

Preservation of normal joint function in patients with haemophilia is a goal of modern therapy. Regular injections of anti-haemophilic factor concentrate reduce the risk of joint bleeding, the optimal regimen for which remains under investigation. The goals of the experiment described here are: (i) to assess the capacity of a murine model of severe haemophilic arthropathy to predict the likelihood of success of a test product to prevent joint bleeding and the complications that follow and (ii) to compare the effectiveness of recombinant human activated factor VII (rFVIIa) to recombinant human factor VIII (rFVIII) to prevent acute joint bleeding in the mouse model of haemarthrosis. Mice lacking expression of FVIII received a single intravenous injection of human rFVIII (280 U kg−1), rFVIIa (10 mg kg−1) or vehicle prior to blunt trauma injury to the knee joint. Mice receiving rFVIII and rFVIIa developed less injury-induced joint bleeding, swelling and loss of range of motion compared to mice pretreated with vehicle. Despite the reduction in clinical symptoms, synovial hyperplasia was evident in all groups after 7 days although less pronounced in mice receiving rFVIII and rFVIIa. The data under these experimental conditions demonstrate: (i) that this model can be used to evaluate novel therapies designed to prevent joint bleeding (prophylaxis) and (ii) both rFVIII and rFVIIa reduced acute haemarthrosis but did not completely prevent synovitis, the sequelae of blood induced joint injury. [ABSTRACT FROM AUTHOR]

Published

2009

12. Prophylaxis and treatment of chronic synovitis in haemophilia patients with inhibitors.

Author

RODRIGUEZ-MERCHAN, E. C., VALENTINO, L., and QUINTANA, M.

Subjects

*SYNOVITIS, *SYNOVIAL membrane diseases, *ORTHOPEDIC surgery, *HEMOPHILIA, *JOINT diseases, *THERAPEUTICS

Abstract

Prophylaxis is paramount to try to avoid the development of haemophilic synovitis. The best treatment for synovitis in patients with inhibitors is radioactive synoviorthesis (rhenium for ankle and elbows, yttrium for knees). With both methods (prohylaxis and radioactive synoviorthesis), we can delay the development of severe haemophilic arthropathy, that eventually will require major orthopaedic surgery. [ABSTRACT FROM AUTHOR]

Published

2007

13. Arthroscopic synovectomy in haemophilia: indications, technique and results.

Author

VERMA, N., VALENTINO, L. A., and CHAWLA, A.

Subjects

*HEMOPHILIA, *ORTHOPEDIC surgery, *SYNOVECTOMY, *ARTHROSCOPY, *JOINT surgery, *SYNOVITIS

Abstract

Recurrent spontaneous haemarthrosis are commonly seen in patients affected by haemophilia. The knee and the elbow are most commonly affected and both are amenable to arthroscopic treatment. Arthroscopic synovectomy is indicated after failure of appropriate medical management with recurrent bleeding. Many patients also demonstrate motion loss and functional deterioration. The benefits of arthroscopic synovectomy include the ability to perform adequate synovial debridement, but also concomitant lysis of adhesion and capsular release to regain range of motion. Results of arthroscopic synovectomy demonstrate a significant decrease in episodes of haemarthrosis, and significant improvement in pain, range of motion and function. The primary predictor of outcome is degree of pre-existing degenerative changes within the joint. In more severe cases, the results of arthroscopic synovectomy are unpredictable and serious consideration should be given to primary arthroplasty. [ABSTRACT FROM AUTHOR]

Published

2007

14. Matrix-assisted laser desorption/ionization ( MALDI) imaging mass spectrometry ( IMS): peering into the cup of Jamshid.

Author

Valentino, L. A.

Subjects

*JOINT diseases, *MASS spectrometry, *MATRIX-assisted laser desorption-ionization, *DESORPTION ionization mass spectrometry, *IONIZATION (Atomic physics)

Abstract

The complex process underlying the development of blood-induced joint disease remains mysterious. Novel technologies such as matrix-assisted laser desorption/ionization (MALDI) imaging mass spectrometry (IMS) to examine protein signatures may provide clues into the process. [ABSTRACT FROM AUTHOR]

Published

2014