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Degenerative Diseases (degenerative + disease)
Kinds of Degenerative Diseases Selected AbstractsMULTIDISCIPLINARY PAIN ABSTRACTS: 50PAIN PRACTICE, Issue 1 2004Article first published online: 15 MAR 200 Degenerative disease of the spine is one of the most common clinical entities and affects the intervertebral discs, including opposing vertebral endplates, the intervertebral posterior joints and the ligaments. The most severe primary spinal degenerative changes are found in the lower cervical and lumbar spine regions. The spine contains three different types of joints, each of which presents its own pattern of degenerative disease: cartilaginous joints, synovial joints, and fibrous joints. With regard to radicular pain, root compression alone does not fully account for root pain following disc-root conflict, but it is, nevertheless, considered to be the main cause of pain. The authors pointed out that the origin of pain is multi-factorial and that inflammation probably predominates over merely mechanical mechanisms. They also considered whether vertebral arthrosis can be construed as the body's decision to favor the spine's static function over its dynamic role when joint "hypermobility" linked to chronic load in old age could cause severe structural damage to the bony vertebral structures. [source] Comorbid conditions associated with Parkinson's disease: A population-based studyMOVEMENT DISORDERS, Issue 4 2006Cynthia L. Leibson PhD Abstract The burden of comorbidity in Parkinson's disease (PD) remains unclear. All Olmsted County, Minnesota, residents with incident PD in 1976,1995 (n = 197) plus one age- and sex-matched non-PD referent subject per case were followed for all clinical diagnoses from 5 years before through 15 years after index (i.e., year of PD onset for each case and same year for the referent subject). Both members of a case,referent pair were censored at death or emigration of either member to ensure equivalent follow-up. Cases and referent subjects were compared for summary comorbidity (Charlson index) and for the likelihood of having one or more diagnoses within each International Classification of Diseases chapter/subchapter. Before index, the groups were similar for all comparisons. After index, cases had a higher likelihood of diagnoses within the chapters "Mental Disorders" and "Diseases of the Genitourinary System," and within the subchapters "Organic Psychotic Conditions," "Other Psychoses," "Neurotic/Personality/Other Nonpsychotic Disorders," "Hereditary/Degenerative Diseases of Central Nervous System," "Symptoms," "Other Diseases of Digestive System," "Other Diseases of Urinary System," "Diseases of Veins/Lymphatics/Other Circulatory System Diseases," "Fractures of Lower Limb," "Other Diseases of Skin/Subcutaneous Tissue," "Osteopathies/Chrondropathies/Acquired Musculoskeletal Deformities," and "Pneumonia and Influenza." The excess morbidity and mortality observed for persons with PD are consistent with recognized PD sequelae. © 2005 Movement Disorder Society [source] The ubiquitous role of zinc in health and diseaseJOURNAL OF VETERINARY EMERGENCY AND CRITICAL CARE, Issue 3 2009DACVIM, Julia E. Cummings DVM Abstract Objective , To review zinc physiology and pathophysiology and the importance of zinc toxicity and deficiency in veterinary patients. Data Sources , A review of human and veterinary medical literature. Human Data Synthesis , There is a significant amount of original research in humans and animals on the role of zinc in multiple organ systems. There is also significant data available on human patients with zinc abnormalities. Veterinary Data Synthesis , Zinc deficiency has been studied in dogs with genetic disease and dietary deficiency leading to dermatological disease and immune deficiency. Zinc toxicity has been described after ingestion of metallic foreign bodies containing zinc. Conclusions , Historically, the role of zinc in health and disease has been studied through patients with toxicity or severe deficiency with obvious clinical signs. As the ubiquitous contribution of zinc to structure and function in biological systems was discovered, clinically significant but subtle deficiency states have been revealed. In human medicine, mild zinc deficiencies are currently thought to cause chronic metabolic derangement leading to or exacerbating immune deficiency, gastrointestinal problems, endocrine disorders, neurologic dysfunction, cancer, accelerated aging, degenerative disease, and more. Determining the causal relationships between mild zinc deficiency and concurrent disease is complicated by the lack of sensitive or specific tests for zinc deficiency. The prevalence of zinc deficiency and its contribution to disease in veterinary patients is not well known. Continued research is warranted to develop more sensitive and specific tests to assess zinc status, to determine which patients are at risk for deficiency, and to optimize supplementation in health and disease. [source] Possible therapeutic benefits of adenosine-potentiating drugs in reducing age-related degenerative disease in dogs and catsJOURNAL OF VETERINARY PHARMACOLOGY & THERAPEUTICS, Issue 5 2003R. J. Scaramuzzi Adenosine is a ubiquitous, biologically important molecule that is a precursor of other biologically active molecules. It also is a component of some co-factors and has distinct physiological actions in its own right. Levels are maintained by synthesis from dietary precursors and re-cycling. The daily turnover of adenosine is very high. Adenosine can act either as a hormone by binding to adenosine receptors, four adenosine receptor subtypes have been identified, and as an intracellular modulator, after transport into the cell by membrane transporter proteins. One of the principal intracellular actions of adenosine is inhibition of the enzyme phosphodiesterase. Extracellular adenosine also has specific neuromodulatory actions on dopamine and glutamate. Selective and nonselective agonists and antagonists of adenosine are available. The tasks of developing, evaluating and exploiting the therapeutic potential of these compounds is still in its infancy. Adenosine has actions in the central nervous system (CNS), heart and vascular system, skeletal muscle and the immune system and the presence of receptors suggests potential actions in the gonads and other organs. Adenosine agonists improve tissue perfusion through actions on vascular smooth muscle and erythrocyte fluidity and they can be used to improve the quality of life in aged dogs. This article reviews the therapeutic potential of adenosine-potentiating drugs in the treatment of age-related conditions in companion animals, some of which may be exacerbated by castration or spaying at an early age. [source] Distribution and dynamic process of neuronal cytoplasmic inclusion (NCI) in MSA: Correlation of the density of NCI and the degree of involvement of the pontine nucleiNEUROPATHOLOGY, Issue 3 2001Teruo Yokoyama MSA is a sporadic degenerative disease that occurs in striatonigral degeneration (SND), SDS and most cases of sporadic OPCA. Oligodendroglial inclusion is a hallmark of MSA. Recently there have been a small number of reports of neuronal argyrophilic inclusions. To clarify the distribution and dynamic process of neuronal cytoplasmic inclusions (NCI), 31 cases of MSA were studied using histology, immunohistochemistry, and electron microscopy. The inclusions were exclusively found in the pontine nucleus and there was a correlation between the incidence of NCI and the severity of OPCA, but not of SND. NCI were increased to some extent in the cases with moderate OPCA and decreased in number in proportion to devastation of the pontine nuclei. Immunohistochemical and ultrastructural features of NCI were virtually identical to those of glial cytoplasmic inclusions (GCI), which gives some clues to the pathogenesis of MSA. It is tempting to interpret this as NCI playing a significant role in the degenerative changes of the neurons at least in the pons. Further systematic studies on NCI in the other brain regions are necessary to elucidate the pathogenesis of neuronal degeneration in MSA. [source] Quantitative MRI for the assessment of bone structure and function,NMR IN BIOMEDICINE, Issue 7 2006Felix W. Wehrli Abstract Osteoporosis is the most common degenerative disease in the elderly. It is characterized by low bone mass and structural deterioration of bone tissue, leading to morbidity and increased fracture risk in the hip, spine and wrist,all sites of predominantly trabecular bone. Bone densitometry, currently the standard methodology for diagnosis and treatment monitoring, has significant limitations in that it cannot provide information on the structural manifestations of the disease. Recent advances in imaging, in particular MRI, can now provide detailed insight into the architectural consequences of disease progression and regression in response to treatment. The focus of this review is on the emerging methodology of quantitative MRI for the assessment of structure and function of trabecular bone. During the past 10 years, various approaches have been explored for obtaining image-based quantitative information on trabecular architecture. Indirect methods that do not require resolution on the scale of individual trabeculae and therefore can be practiced at any skeletal location, make use of the induced magnetic fields in the intertrabecular space. These fields, which have their origin in the greater diamagnetism of bone relative to surrounding marrow, can be measured in various ways, most typically in the form of R2,, the recoverable component of the total transverse relaxation rate. Alternatively, the trabecular network can be quantified by high-resolution MRI (µ-MRI), which requires resolution adequate to at least partially resolve individual trabeculae. Micro-MRI-based structure analysis is therefore technically demanding in terms of image acquisition and algorithms needed to extract the structural information under conditions of limited signal-to-noise ratio and resolution. Other requirements that must be met include motion correction and image registration, both critical for achieving the reproducibility needed in repeat studies. Key clinical applications targeted involve fracture risk prediction and evaluation of the effect of therapeutic intervention. Copyright © 2006 John Wiley & Sons, Ltd. [source] The Link Between Childhood Undernutrition and Risk of Chronic Diseases in Adulthood: A Case Study of BrazilNUTRITION REVIEWS, Issue 5 2003Ana L. Sawaya PhD Obesity, cardiovascular disease, and type 2 diabetes mellitus are now prevalent among adults living in developing countries; these chronic diseases affect socioeconomically disadvantaged adults living in impoverished families with under-nourished children. This review summarizes data from Brazil - a developing country undergoing the nutrition transition - suggesting an association between childhood undernutrition and obesity and chronic degenerative disease. Potential mechanisms for the association include longterm effects of childhood undernutrition on energy expenditure, fat oxidation, regulation of food intake, susceptibility to the effects of high-fat diets, and altered insulin sensitivity. The combination of childhood undernutrition and adult chronic degenerative disease results in enormous social and economic burdens for developing countries. Further research is urgently needed to examine the effect of childhood undernutrition on risk of obesity and chronic degenerative diseases; one goal of such research would be to determine and provide low-cost methods for prevention and treatment. [source] MULTIDISCIPLINARY PAIN ABSTRACTS: 50PAIN PRACTICE, Issue 1 2004Article first published online: 15 MAR 200 Degenerative disease of the spine is one of the most common clinical entities and affects the intervertebral discs, including opposing vertebral endplates, the intervertebral posterior joints and the ligaments. The most severe primary spinal degenerative changes are found in the lower cervical and lumbar spine regions. The spine contains three different types of joints, each of which presents its own pattern of degenerative disease: cartilaginous joints, synovial joints, and fibrous joints. With regard to radicular pain, root compression alone does not fully account for root pain following disc-root conflict, but it is, nevertheless, considered to be the main cause of pain. The authors pointed out that the origin of pain is multi-factorial and that inflammation probably predominates over merely mechanical mechanisms. They also considered whether vertebral arthrosis can be construed as the body's decision to favor the spine's static function over its dynamic role when joint "hypermobility" linked to chronic load in old age could cause severe structural damage to the bony vertebral structures. [source] Latest news and product developmentsPRESCRIBER, Issue 9 2007Article first published online: 3 SEP 200 Clinical trials flatter anti-TNFs in RA The efficacy of anti-TNF agents in clinical trials is not matched by experience in daily practice in patients with rheumatoid arthritis, say Dutch investigators (Ann Rheum Dis online: 10 April 2007; doi:10.1136/ard.2007.072447). They compared outcomes from a systematic review of trials of etanercept (Enbrel), infliximab (Remicade) and adalimumab (Humira) and a national postmarketing surveillance scheme (DREAM). In 5 of 11 comparisons, the response rate in DREAM was significantly lower than that in RCTs. Responses among DREAM patients who met the inclusion criteria for clinical trials were significantly greater than among noneligible patients and comparable with those of patients participating in the trials. The authors conclude that patients in trials have more severe disease and therefore a response to treatment that is not matched in daily practice. Methadone prescriptions double in 10 years Methadone treatment for opiate addicts has more than doubled in the past 10 years, according to an audit of opiate substitution in England by the National Treatment Agency for Substance Misuse (www.nta.nhs.uk). The total number of methadone prescriptions increased from 970 900 in 1995 to over 1.8 million in 2004. The introduction of buprenorphine (Subutex) has not reduced methadone prescribing , 96 per cent of responding centres prescribed methadone and 88 per cent prescribed buprenorphine. Seventy-two per cent of centres prescribe benzodiazepines to opiate addicts, causing the NTA some concern. GPs were involved in prescribing management in about 60 per cent of centres. Next NICE guidelines The Department of Health has referred eight topics to NICE for the development of clinical guidelines: preventing venous thromboembolism, acute coronary syndromes, chest pain, social complications during pregnancy (eg drug misuse), benign prostatic hyperplasia, constipation in children, neonatal jaundice and metastatic disease of unknown primary origin. Errors with children , Every step of drug treatment for children, from prescribing to writing notes, is associated with a substantial level of error, say US investigators (Quality and Safety in Health Care 2007;16:116-26). Their systematic review of 31 studies reporting medication errors in paediatrics found that 3-37 per cent were associated with prescribing errors, 5-58 per cent with dispensing errors, 72-75 per cent with errors of administration, and 17-21 per cent with documentation errors. Suggestions for remedial strategies were not evidence based, the authors found. , and transplant patients Errors in medication are common among outpatients who have received liver, kidney or pancreas transplants, a second US study has found (Arch Surg 2007;142:278-83). Twelve months' follow-up of 93 patients revealed a total of 149 errors of drug treatment, with a frequency of 15 in 219 visits over a four-week period. One-third of errors were associated with adverse events including hospital admission and graft rejection. Patients were taking an average of 11 medicines; analysis showed that over half of errors originated with the patients and 13 per cent were associated with prescribing. Paracetamol pack benefit challenged A new study has challenged accepted wisdom that reducing the OTC pack size of paracetamol cut the suicide rate (PLoS Medicine 2007;4:e105). In 1998, pack sizes of paracetamol were limited to 16 in general sale outlets and 32 in pharmacies. Suicide rates subsequently decreased but, though widely assumed, a causal link has not been established. Researchers from London and the Office of National Statistics have now examined mortality trends from suicide associated with antidepressants, aspirin, compound paracetamol preparations and nondrug poisoning. They found that all fatal suicides declined at similar rates after the pack size reductions. While not excluding the possibility that restricting easy access to paracetamol may have helped, these data suggest that other factors were also important. CV risk with ibuprofen among aspirin users Ibuprofen, but not naproxen, is associated with a higher risk of cardiovascular events and heart failure than lumiracoxib (Prexige) in high-risk patients, according to a new analysis of the TARGET trial (Ann Rheum Dis online: 5 April 2007; doi:10.1136/ard.2006.066001). TARGET comprised two studies comparing naproxen or ibuprofen with lumiracoxib in a total of 18 325 patients with OA. This post-hoc analysis stratified patients by their cardiovascular risk; the primary end-point was a composite of cardiovascular mortality, nonfatal myocardial infarction and stroke at one year. Among those at high risk who were taking aspirin, ibuprofen was associated with an increased risk of the composite end-point compared with lumiracoxib (2.14 vs 0.25 per cent). The risk was similar for naproxen and lumiracoxib (1.58 vs 1.48 per cent). In high-risk patients not taking aspirin, the risk was similar for ibuprofen and lumiracoxib, but lower for naproxen than lumiracoxib. Congestive heart failure was more common in patients taking ibuprofen than lumiracoxib (1.28 vs 0.14 per cent); the risk was similar with naproxen and lumiracoxib. The authors emphasise that their findings should be considered hypothesis-generating. CVD guidelines criticised The second edition of the guidelines of the Joint British Societies on preventing cardiovascular disease have been harshly criticised for failing to meet international quality standards (Int J Clin Pract online doi: 10.1111/j.1742-1241.2007.01310.x). Kent GP Dr Rubin Minhas evaluated the guidelines against the criteria of the Appraisal of Guidelines and Research (AGREE) Collaboration. He identified areas of weakness including stakeholder involvement, rigour of development, applicability (by not considering cost) and editorial independence from the pharmaceutical industry. The guidelines should not be recommended for clinical practice, he concludes. OTC naproxen? The MHRA is consulting on switching naproxen 250mg to pharmacy-only status for the treatment of period pain in women aged 15-50. The change would offer an alternative to ibuprofen, currently the only other OTC medicine with this indication. Responses should be submitted by 23 May. The Agency is currently considering responses to its consultation on switching tranexamic acid to OTC status for heavy menstrual bleeding. Diabetes costs The total cost of prescribing for diabetes in England has doubled in only five years, official statistics show. The NHS Information Centre (www.ic.nhs.uk) report shows that spending in primary and secondary care in 2006 was £561 million, up 14 per cent on 2005. Growth was due to increased prescribing of oral hypoglycaemic agents (notably the glitazones , up by one-third over 2005) and the higher costs of insulins. Pharmacists may give flu jabs PCTs may consider using pharmacists to administer flu vaccines to some at-risk groups in the 2007/08 season, according to Department of Health plans. Flu vaccination payment for patients with diabetes, coronary heart disease, and stroke and TIA is provided under the Quality Outcomes Framework. The Department suggests that PCTs consider contracting a local enhanced service from pharmacists to reach other patients at increased risk, such as those with chronic liver disease, multiple sclerosis and related conditions, hereditary and degenerative disease of the CNS and carers. Copyright © 2007 Wiley Interface Ltd [source] Sex differences of chondrogenic progenitor cells in late stages of osteoarthritisARTHRITIS & RHEUMATISM, Issue 4 2010Sebastian Koelling Objective Osteoarthritis (OA), a mainly degenerative disease, is known to be multifactorial in origin. Gene expression patterns vary between populations and sexes. Sex hormone receptors have been described in the cartilage tissue of animals and humans. We undertook this study to determine whether the regenerative potential of chondrogenic progenitor cells (CPCs) present in the arthritic tissue during the late stages of human OA might also be subject to sex-specific differences and influenced by sex steroids. Methods We analyzed sex-specific differences in the regenerative potential of CPCs and the involvement of sex hormones in vitro in cartilage samples from patients with late-stage knee OA, using electrochemiluminescence immunoassay, microarray analysis, real-time reverse transcription,polymerase chain reaction, immunohistochemistry, Western blot analysis, fluorescence-activated cell sorting, and cell culture. Results We detected expression of estrogen and testosterone in the OA synovial fluid as well as CPCs positive for estrogen receptor , (ER,), ER,, and androgen receptor. Both hormones influenced the expression of all 3 receptor genes as well as the chondrogenic potential of CPCs by regulating gene expression of Sox9, Runx2, type II collagen, and type I collagen. We found regulatory effects on the collagens via Sox9 and Runx2 as well as regulatory effects independent of these transcription factors. These effects were sex-specific and relied on hormone concentrations. Conclusion Physiologic concentrations of testosterone in men and premenopausal concentrations of estrogen in women have a positive effect on the chondrogenic potential of CPCs in vitro. Therefore, strategies of hormone replacement in the synovial fluid of women and men might have beneficial effects on the regenerative potential of arthritic cartilage tissue in late stages of human OA. [source] Retinal and Optic Nerve DiseasesARTIFICIAL ORGANS, Issue 11 2003Eyal Margalit Abstract:, A variety of disease processes can affect the retina and/or the optic nerve, including vascular or ischemic disease, inflammatory or infectious disease, and degenerative disease. These disease processes may selectively damage certain parts of the retina or optic nerve, and the specific areas that are damaged may have implications for the design of potential therapeutic visual prosthetic devices. Outer retinal diseases include age-related macular degeneration, pathologic myopia, and retinitis pigmentosa. Although the retinal photoreceptors may be lost, the inner retina is relatively well-preserved in these diseases and may be a target for retinal prosthetic devices. Inner retinal diseases include retinal vascular diseases such as diabetic retinopathy, retinal venous occlusive disease, and retinopathy of prematurity. Other retinal diseases such as ocular infections (retinitis, endophthalmitis) may affect all retinal layers. Because the inner retinal cells, including the retinal ganglion cells, may be destroyed in these diseases (inner retinal or whole retinal), prosthetic devices that stimulate the inner retina may not be effective. Common optic nerve diseases include glaucoma, optic neuritis, and ischemic optic neuropathy. Because the ganglion cell nerve fibers themselves are damaged, visual prosthetics for these diseases will need to target more distal portions of the visual pathway, such as the visual cortex. Clearly, a sound understanding of retinal and optic nerve disease pathophysiology is critical for designing and choosing the optimal visual prosthetic device. [source] Possible therapeutic benefits of adenosine-potentiating drugs in reducing age-related degenerative disease in dogs and catsAUSTRALIAN VETERINARY JOURNAL, Issue 4 2004Article first published online: 10 MAR 200 No abstract is available for this article. [source] SKELETAL MUSCLE FUNCTION: ROLE OF IONIC CHANGES IN FATIGUE, DAMAGE AND DISEASECLINICAL AND EXPERIMENTAL PHARMACOLOGY AND PHYSIOLOGY, Issue 8 2004DG Allen SUMMARY 1.,Repeated activity of skeletal muscle causes a variety of changes in its properties: muscles become weaker with intense use (fatigue), may feel sore and weak after repeated contractions involving stretch and can degenerate in some disease conditions. The present review considers the role of early ionic changes in the development of each of these conditions. 2.,Single fibre preparations of mouse muscle were used to measure ionic changes following activity induced changes in function. Single fibres were dissected with intact tendons and stimulated to produce force. Fluorescent indicators were microinjected into the fibres to allow simultaneous ionic measurements with determination of mechanical performance. 3.,One theory to explain muscle fatigue is that fatigue is caused by the accumulation of lactic acid, producing an intracellular acidosis that inhibits the myofibrillar proteins. In contrast, we found that during repeated tetani there was little or no pH change, but that failure of calcium release was a major contributor to fatigue. Currently, it is proposed that precipitation of calcium and phosphate in the sarcoplasmic reticulum contributes to the failure of calcium release. 4.,Muscles can be used to shorten and produce force or they can be used to de-accelerate loads (stretched or eccentric contractions). One day after intense exercise involving stretched contractions, muscles are weak, sore and tender, and this damage can take a week to recover. In this condition, sarcomeres are disorganized and there are increases in resting intracellular Ca2+ and Na+. Recently, we demonstrated that the elevation of Na+ occurs through a stretch-activated channel that can be blocked by either gadolinium or streptomycin. Preventing the increase in [Na+]i with gadolinium also prevented part of the muscle weakness after stretched contractions. 5.,Duchenne muscular dystrophy is a lethal degenerative disease of muscles in which the protein dystrophin is absent. Dystrophic muscles are more susceptible to stretch-induced muscle damage and the stretch-activated channel seems to be one pathway for the increases in intracellular Ca2+ and Na+ that are a feature of this disease. We have shown recently that blockers of the stretch-activated channel can minimize some of the short-term damage in muscles from the mdx mouse, which also lacks dystrophin. Currently, we are testing whether blockers of the stretch-activated channels given systemically to mdx mice can protect against some features of the disease. [source] Subacute sclerosing panencephalitis after intrauterine infectionACTA PAEDIATRICA, Issue 9 2004M Dasopoulou Subacute sclerosing panencephalitis (SSPE), in the majority of cases, is caused by the wild measles virus, although there are some reports relating SSPE to vaccination. This paper presents an inborn that was infected during pregnancy by the measles virus and developed SSPE within the first year of life after a short incubation period. He progressed rapidly after a mild arrest with treatment. Subacute sclerosing panencephalitis is a fatal degenerative disease and, although it had largely disappeared because of nearly universal measles vaccination, it still remains a serious infection among children affected by human immunodeficiency virus (HIV). The lack of newer cases of SSPE occurring among normal children nowadays should not wane alertness by obstetricians and paediatricians, to recognize the risk with measles during pregnancy and the need for prevention and recognition of SSPE at an early stage. Although some references exist which report on SSPE cases related to vaccination, new work weakens the possible links between measles vaccine and SSPE. Conclusion: This report would like to stress the importance and success of reducing the SSPE problem with the aid of general measles vaccination with high coverage. [source] Functional studies of frataxinACTA PAEDIATRICA, Issue 2004G Isaya Mitochondria generate adenosine triphosphate (ATP) but also dangerous reactive oxygen species (ROS). One-electron reduction of dioxygen in the early stages of the electron transport chain yields a superoxide radical that is detoxified by mitochondrial superoxide dismutase to give hydrogen peroxide. The hydroxyl radical is derived from decomposition of hydrogen peroxide via the Fenton reaction, catalyzed by Fe2+ ions. Mitochondria require a constant supply of Fe2+ for heme and iron-sulfur cluster biosyntheses and therefore are particularly susceptible to ROS attack. Two main antioxidant defenses are known in mitochondria: enzymes that catalytically remove ROS, e.g. superoxide dismutase and glutathione peroxidase, and low molecular weight agents that scavenge ROS, including coenzyme Q, glutathione, and vitamins E and C. An effective defensive system, however, should also involve means to control the availability of pro-oxidants such as Fe2+ ions. There is increasing evidence that this function may be carried out by the mitochondrial protein frataxin. Frataxin deficiency is the primary cause of Friedreich's ataxia (FRDA), an autosomal recessive degenerative disease. Frataxin is a highly conserved mitochondrial protein that plays a critical role in iron homeostasis. Respiratory deficits, abnormal cellular iron distribution and increased oxidative damage are associated with frataxin defects in yeast and mouse models of FRDA. The mechanism by which frataxin regulates iron metabolism is unknown. The yeast frataxin homologue (mYfhlp) is activated by Fe(II) in the presence of oxygen and assembles stepwise into a 48-subunit multimer (,48) that sequesters <2000 atoms of iron in a ferrihydrite mineral core. Assembly of mYfhlp is driven by two sequential iron oxidation reactions: a fast ferroxidase reaction catalyzed by mYfh1p induces the first assembly step (,,3), followed by a slower autoxidation reaction that promotes the assembly of higher order oligomers yielding ,48. Depending on the ionic environment, stepwise assembly is associated with the sequestration of 50,75 Fe(II)/subunit. This Fe(II) is initially loosely bound to mYfh1p and can be readily mobilized by chelators or made available to the mitochondrial enzyme ferrochelatase to synthesize heme. However, as iron oxidation and mineralization proceed, Fe(III) becomes progressively inaccessible and a stable iron-protein complex is produced. In conclusion, by coupling iron oxidation with stepwise assembly, frataxin can successively function as an iron chaperon or an iron store. Reduced iron availability and solubility and increased oxidative damage may therefore explain the pathogenesis of FRDA. [source] Diffusion tensor magnetic resonance imaging in spinal cord injuryCONCEPTS IN MAGNETIC RESONANCE, Issue 3 2008Benjamin M. Ellingson Abstract Noninvasive assessment of spinal cord integrity following injury is critical for precise diagnosis, prognosis, and surgical intervention strategies. Diffusion weighted imaging and diffusion tensor imaging are more sensitive to the underlying spinal cord microstructure than traditional imaging techniques. As a result, diffusion imaging is emerging as the clinical technique for imaging the spinal cord after trauma, surgery or during progressive degenerative diseases. This review describes the basic physics of diffusion imaging using magnetic resonance, techniques used to visualize diffusion measurements, and expected changes in diffusion measurements following spinal cord injury. © 2008 Wiley Periodicals, Inc.Concepts Magn Reson Part A 32A: 219,237, 2008. [source] Bioenergetics and the epigenome: Interface between the environment and genes in common diseasesDEVELOPMENTAL DISABILITIES RESEARCH REVIEW, Issue 2 2010Douglas C. Wallace Abstract Extensive efforts have been directed at using genome-wide association studies (GWAS) to identify the genes responsible for common metabolic and degenerative diseases, cancer, and aging, but with limited success. While environmental factors have been evoked to explain this conundrum, the nature of these environmental factors remains unexplained. The availability of and demands for energy constitute one of the most important aspects of the environment. The flow of energy through the cell is primarily mediated by the mitochondrion, which oxidizes reducing equivalents from hydrocarbons via acetyl-CoA, NADH + H+, and FADH2 to generate ATP through oxidative phosphorylation (OXPHOS). The mitochondrial genome encompasses hundreds of nuclear DNA (nDNA)-encoded genes plus 37 mitochondrial DNA (mtDNA)-encoded genes. Although the mtDNA has a high mutation rate, only milder, potentially adaptive mutations are introduced into the population through female oocytes. In contrast, nDNA-encoded bioenergetic genes have a low mutation rate. However, their expression is modulated by histone phosphorylation and acetylation using mitochondrially-generated ATP and acetyl-CoA, which permits increased gene expression, growth, and reproduction when calories are abundant. Phosphorylation, acetylaton, and cellular redox state also regulate most signal transduction pathways and activities of multiple transcription factors. Thus, mtDNA mutations provide heritable and stable adaptation to regional differences while mitochondrially-mediated changes in the epigenome permit reversible modulation of gene expression in response to fluctuations in the energy environment. The most common genomic changes that interface with the environment and cause complex disease must, therefore, be mitochondrial and epigenomic in origin. © 2010 Wiley-Liss, Inc. Dev Disabil Res Rev 2010;16:114,119. [source] Prospects for therapeutic vaccination with glatiramer acetate for neurodegenerative diseases such as Alzheimer's diseaseDRUG DEVELOPMENT RESEARCH, Issue 2 2002Michal Schwartz Abstract Neurodegenerative diseases, whatever their primary causes, are characterized by certain common features, one of which is their self-perpetuating nature. The ongoing progression of the disorder is due to the effects of destructive self-compounds, whose presence in the tissues is an outcome of the early phase of the disease and which gradually destroy remaining functional neurons. Studies in our laboratory have led to the recent formulation of a novel concept of protective autoimmunity as the body's mechanism of defense against these destructive self-compounds. This autoimmune response to central nervous system (CNS) insults is mediated by T-cells and presumably operates by activating and regulating local microglia and infiltrating macrophages (inflammatory response) to carry out their function of clearing destructive material from the tissue at risk. We suggest that a well-controlled autoimmunity counteracts and overcomes the destructive effects of the potentially harmful self-compounds, at the cost of some loss of tissue. An additional risk to the individual is the induction of an autoimmune disease, which is likely to occur if the autoimmune response is malfunctioning. An optimal balance of the various factors will lead to an outcome of maximal benefit at minimal cost to the tissue. A procedure for safely boosting the autoimmune response, by vaccination with a weak self-crossreactive antigen such as glatiramer acetate (also known as Cop-1) was found to protect rats from glutamate toxicity, a major mediator of the spread of damage and a well-known causative factor in neurodegenerative disorders. Cop-1, when administered according to a different regimen, is an FDA-approved drug for the treatment of multiple sclerosis. Different formulations of the same drug can therefore be used to treat two extreme manifestations of chronic degenerative diseases of the CNS. Drug Dev. Res. 56:143,149, 2002. © 2002 Wiley-Liss, Inc. [source] Modulation of plasma lipid levels affects benzo[a]pyrene-induced DNA damage in tissues of two hyperlipidemic mouse modelsENVIRONMENTAL AND MOLECULAR MUTAGENESIS, Issue 4 2003Daniëlle M.J. Curfs Abstract The role of plasma lipids in the uptake, transportation, and distribution of lipophilic carcinogens like benzo[a]pyrene (B[a]P) remains unclear. Therefore, we studied the effects of dietary-modulated plasma lipids on B[a]P-induced DNA damage in several organs of two hyperlipidemic mouse models. Male apolipoprotein E (ApoE)*3-Leiden (n = 22) and ApoE knockout (ApoE-KO) mice (n = 20) were fed a high-fat cholesterol (HFC) diet or low-fat cholesterol (LFC; standard mouse chow) diet for 3 weeks, after which the animals were exposed to a single oral dose of 5 mg/kg bw B[a]P or vehicle and killed 4 days later. Plasma lipids were determined and DNA adducts were measured in aorta, heart, lung, liver, brain, and stomach. Total cholesterol and low-density lipoprotein (LDL) cholesterol were increased in all animals on a HFC diet, whereas a decrease of triglycerides was seen only in the ApoE-KO mice. In ApoE-KO mice on a normal diet, DNA-adduct levels were highest in aorta (10.8 ± 1.4 adducts/108 nucleotides), followed by brain (7.8 ± 1.3), lung (3.3 ± 0.7), heart (3.1 ± 0.6), liver (1.5 ± 0.2) and stomach (1.2 ± 0.2). In the ApoE*3-Leiden mice, adduct levels were equally high in aorta, heart, and lung (4.6 ± 0.7, 5.0 ± 0.5 and 4.6 ± 0.4, respectively), followed by stomach (2.7 ± 0.4), brain (2.3 ± 0.2), and liver (1.7 ± 0.2). In the ApoE-KO mice, the HFC diet intervention resulted in lower adduct levels in lung (2.1 ± 0.2), heart (1.9 ± 0.2), and brain (2.9 ± 0.5), as compared with the LFC group. In contrast, a nonsignificant increase of adducts was found in aorta (13.1 ± 1.5). A similar but nonsignificant trend was observed in the ApoE*3-Leiden mice. Multiple regression analysis showed that in aorta, DNA adducts were inversely related to plasma triglycerides (P = 0.004) and were also modulated by the ApoE genotype (P < 0.001). The results of the present study support further investigation into the role of dietary modulation of plasma lipids, ApoE, and polycyclic aromatic hydrocarbon exposure on the formation of DNA adducts in chronic degenerative diseases. Environ. Mol. Mutagen. 42:243,249, 2003. © 2003 Wiley-Liss, Inc. [source] Resveratrol modulates apoptosis and oxidation in human blood mononuclear cellsEUROPEAN JOURNAL OF CLINICAL INVESTIGATION, Issue 9 2003G. A. Losa Abstract Background, We examined the effect of resveratrol (RS), a nonflavonoid polyphenolic phytoalexin found in grapes and red wine, and RS coincubated with the oxidant 2-deoxy-D-ribose (dR), on apoptosis and on the oxidative metabolic status of normal human peripheral blood mononuclear cells (PBMNCs) isolated ex vivo from healthy donors. Material and methods, Apoptosis was measured by changes of membrane permeability to propidium iodide (PI), plasma membrane exposure of phosphatidylserine (PS) and intracellular caspase activity. Oxidative status was assessed by recording the intracellular glutathione concentration (GSH), the activities of the enzymes y -glutamyltransferase (y- GT) and glutathione-S-transferase (GST), and intracellular lipid peroxidation (MDA). Results, Neither apoptotic nor oxidative parameters were affected by culturing PBMNCs in medium containing RS up to 20 µM for 5 days, while the frequency of cells with intermediate permeability to PI (17% ± 5) increased at 50 µM of RS. Thus resveratrol was slightly toxic, but there was little apoptosis in these cells. Peripheral blood mononuclear cells were also grown first in medium plus RS for 24 h and then for 96 h in medium containing RS plus 10 mM of dR, an oxidant sugar that is apoptogenic for human lymphocytes. The apoptotic changes triggered by dR were counteracted by the phytoalexin in a dose-dependent manner, but RS activity was absent at the lowest concentration (5 µM) and significantly reduced at the highest concentration used (50 µM). In PBMNCs coincubated with 20 µM of RS and 10 mM of dR the antioxidant effect of RS manifested with a significant reduction of caspases-3, -8, y- GT, GST activities and MDA content. Conclusions, Peripheral blood mononuclear cells acquire antioxidant capacity when treated with RS. Grape resveratrol may make a useful dietary supplement for minimizing oxidative injury in immune-perturbed states and human chronic degenerative diseases. [source] Knocking out IL-6 by vaccinationEUROPEAN JOURNAL OF IMMUNOLOGY, Issue 1 2004Pia Galle Abstract Inappropriate expression of IL-6 plays a role in various inflammatory conditions, degenerative diseases, and cancers. Several model systems have been developed that can specifically block IL-6-receptor interactions. Here we present a simple and highly effective approach based on vaccination with a pool of specifically mutated IL-6 analogues to induce a neutralizing IL-6 antibody responsein mice. Judged by the ability of the analogues to bind to heterologous anti-IL-6 antibodies and cellular IL-6 receptors the IL-6 analogues seemed to have a three-dimensional structure comparable to that of wild-type IL-6. Injection of them broke self-tolerance and induced an immune response to IL-6, presumably because of the amino acid differences between the analogues and wild-type IL-6. This resulted in a long-lasting anti-IL-6 antibody-mediated IL-6 deficiency that blocked experimentally induced IL-6-mediated pathology. [source] Alzheimer's disease, Parkinson's disease and essential tremor: three common degenerative diseases with shared mechanisms?EUROPEAN JOURNAL OF NEUROLOGY, Issue 6 2010E. D. Louis No abstract is available for this article. [source] Assessing horizontal equity in medication treatment among elderly Mexicans: which socioeconomic determinants matter most?HEALTH ECONOMICS, Issue 10 2008Jürgen Maurer Abstract Many low- and middle-income countries are currently undergoing a dramatic epidemiological transition, with an increasing disease burden due to degenerative noncommunicable diseases. Inexpensive medication treatment often represents a cost-effective means to prevent, control or cure many of these health conditions. Using micro-data from the 2001 Mexican Health and Aging Study, we assess horizontal inequity in medication treatment among older Mexicans before the introduction of Popular Health Insurance in Mexico. In doing so, we investigate the role of various dimensions of socioeconomic status for obtaining indicated medication treatment within a comparatively fragmented health-care system that features relatively high out-of-pocket expenditures. Our empirical analysis suggests health insurance coverage as a key socioeconomic determinant of indicated medication use with large and statistically significant positive effects on take-up. The effects of insurance status thereby clearly dominate any other possible effects of socioeconomic status on medication treatment. Our results thus highlight the importance of access to reliable health care and comprehensive coverage for rational medication use in the management of degenerative diseases. In light of this evidence, we expect that recent Mexican health-care reforms, which expand health insurance coverage to the previously uninsured population, will alleviate socioeconomic gradients in medication treatment among older people in need. Copyright © 2007 John Wiley & Sons, Ltd. [source] Antioxidants in fruits and vegetables , the millennium's healthINTERNATIONAL JOURNAL OF FOOD SCIENCE & TECHNOLOGY, Issue 7 2001Charanjit Kaur Some of the most exciting research in the last decade has been the discovery of a group of nutrients, which have protective effects against cell oxidation. These naturally occurring compounds impart bright colour to fruits and vegetables and act as antioxidants in the body by scavenging harmful free radicals, which are implicated in most degenerative diseases. Epidemiological studies have established a positive correlation between the intake of fruits and vegetables and prevention of diseases like atheroscelerosis, cancer, diabetes, arthritis and also ageing. So pronounced has been their effect on ageing that they have been called ,fountains of youth'. Fruits and vegetables have thus had conferred on them the status of ,functional foods', capable of promoting good health and preventing or alleviating diseases. Phenolic flavonoids, lycopene, carotenoids and glucosinolates are among the most thoroughly studied antioxidants. The present review highlights the potential of fruits and vegetables rich in antioxidants, their health benefits and the effect of processing on the bioavailability of these nutrients. The paper also reviews some of the important methods used to determine the antioxidant activity. [source] Spinal pathological findings in ancient Egyptians of the Greco-Roman period living in Bahriyah OasisINTERNATIONAL JOURNAL OF OSTEOARCHAEOLOGY, Issue 5 2009F. H. Hussien Abstract The spine can provide a large amount of information about an individual's physical condition and possible lifestyle through palaeopathological investigations. The aim of this research was to study spinal diseases among Greco-Roman ancient Egyptians from Bahriyah Oasis, and to compare them with those from Giza of the Old Kingdom. The material used in the study included 809 single vertebrae and 77 adult sacra of ancient Egyptians from the Greco-Roman period (332,30 BC) that were excavated from Bahriyah Oasis. The spinal elements were examined for pathological conditions, degenerative diseases, trauma, congenital abnormalities, infectious diseases and neoplasms. The most common lesions of the spine were those due to degenerative processes. The articular facets were more affected than the vertebral bodies. Compression fractures of the bodies, mostly due to osteoporosis, were found in 1.44% and 5.07% of thoracic and lumbar vertebrae respectively. The percentage of spina bifida occulta among ancient Egyptians from Bahriyah Oasis was 62.33%, while among those from Giza was only 3.33%. Few cases of lumbar spondylolysis and one case of DISH were recorded. No cases of infectious or neoplastic diseases were found. Copyright © 2008 John Wiley & Sons, Ltd. [source] RNA damage and surveillance under oxidative stressIUBMB LIFE, Issue 10 2006Zhongwei Li Abstract RNA damage has been recently reported to increase under oxidative stress and in patients with many degenerative diseases, which has drawn attention to the consequences of RNA oxidation at the molecular and cellular levels. Under similar conditions the levels of oxidative damage in RNA are usually higher than those in DNA, which may impair protein synthesis or other RNA function. Therefore, accumulation of RNA damage must be prevented and cells have developed specific mechanisms to remove oxidatively-damaged RNA and to block incorporation of oxidized nucleotides during RNA synthesis. Removal of oxidized RNA may be mediated by specific proteins that recognize oxidative lesions and direct the RNA degradation machinery to eliminate the damaged RNAs. During RNA synthesis, oxidized ribonucleotides are hydrolyzed or discriminated from normal ribonucleotides during transcription, preventing their incorporation into RNA. Collective evidence suggests that RNA oxidative damage is a challenging and persistent problem normally controlled through RNA surveillance mechanisms, making them critical to maintaining cellular health and preventing disease. iubmb Life, 58: 581-588, 2006 [source] Increasing Dietary Protein Requirements in Elderly People for Optimal Muscle and Bone HealthJOURNAL OF AMERICAN GERIATRICS SOCIETY, Issue 6 2009Erin Gaffney-Stomberg MS Osteoporosis and sarcopenia are degenerative diseases frequently associated with aging. The loss of bone and muscle results in significant morbidity, so preventing or attenuating osteoporosis and sarcopenia is an important public health goal. Dietary protein is crucial for development of bone and muscle, and recent evidence suggests that increasing dietary protein above the current Recommended Dietary Allowance (RDA) may help maintain bone and muscle mass in older individuals. Several epidemiological and clinical studies point to a salutary effect of protein intakes above the current RDA (0.8 g/kg per day) for adults aged 19 and older. There is evidence that the anabolic response of muscle to dietary protein is attenuated in elderly people, and as a result, the amount of protein needed to achieve anabolism is greater. Dietary protein also increases circulating insulin-like growth factor, which has anabolic effects on muscle and bone. Furthermore, increasing dietary protein increases calcium absorption, which could be anabolic for bone. Available evidence supports a beneficial effect of short-term protein intakes up to 1.6 to 1.8 g/kg per day, although long-term studies are needed to show safety and efficacy. Future studies should employ functional measures indicative of protein adequacy, as well as measures of muscle protein synthesis and maintenance of muscle and bone tissue, to determine the optimal level of dietary protein. Given the available data, increasing the RDA for older individuals to 1.0 to 1.2 g/kg per day would maintain normal calcium metabolism and nitrogen balance without affecting renal function and may represent a compromise while longer-term protein supplement trials are pending. J Am Geriatr Soc 57:1073,1079, 2009. [source] Ion channels in toxicologyJOURNAL OF APPLIED TOXICOLOGY, Issue 6 2010Iván Restrepo-Angulo Abstract Ion channels play essential roles in human physiology and toxicology. Cardiac contraction, neural transmission, temperature sensing, insulin release, regulation of apoptosis, cellular pH and oxidative stress, as well as detection of active compounds from chilli, are some of the processes in which ion channels have an important role. Regulation of ion channels by several chemicals including those found in air, water and soil represents an interesting potential link between environmental pollution and human diseases; for instance, de novo expression of ion channels in response to exposure to carcinogens is being considered as a potential tool for cancer diagnosis and therapy. Non-specific binding of several drugs to ion channels is responsible for a huge number of undesirable side-effects, and testing guidelines for several drugs now require ion channel screening for pharmaceutical safety. Animal toxins targeting human ion channels have serious effects on the population and have also provided a remarkable tool to study the molecular structure and function of ion channels. In this review, we will summarize the participation of ion channels in biological processes extensively used in toxicological studies, including cardiac function, apoptosis and cell proliferation. Major findings on the adverse effects of drugs on ion channels as well as the regulation of these proteins by different chemicals, including some pesticides, are also reviewed. Association of ion channels and toxicology in several biological processes strongly suggests these proteins to be excellent candidates to follow the toxic effects of xenobiotics, and as potential early indicators of life-threatening situations including chronic degenerative diseases. Copyright © 2010 John Wiley & Sons, Ltd. [source] From fibroblasts to iPS cells: Induced pluripotency by defined factorsJOURNAL OF CELLULAR BIOCHEMISTRY, Issue 4 2008Rui Zhao Abstract Patient-specific pluripotent cells may serve as a limitless source of transplantable tissue to treat a number of human blood and degenerative diseases without causing immune rejection. Recently, isolation of patient-specific induced pluripotent stem (iPS) cells was achieved by transducing fibroblasts with four transcription factors, Oct4, Sox2, Klf4, and c-Myc. However, the use of oncogenes and retrovirus in the current iPS cell establishment protocol raises safety concerns. To generate clinical quality iPS cells, the development of novel reprogramming methods that avoid permanent genetic modification is highly desired. The molecular mechanisms that mediate reprogramming are essentially unknown. We argue that establishment of a stable and self-sustainable ES-specific transcriptional regulatory network is essential for reprogramming. Such a system should include expression of Oct4, Sox2, Nanog and probably other pluripotenty-promoting factors from endogenous loci and establishment of a permissive epigenetic state to maintain such expression. In addition, though not yet proven experimentally, overcoming cellular senescence of fibroblasts by inactivating Rb and p53 pathways and up-regulating telomerase activity may also be required. J. Cell. Biochem. 105: 949,955, 2008. © 2008 Wiley-Liss, Inc. [source] Aging and cancer cell biology, 2009AGING CELL, Issue 3 2009Judith Campisi Summary Cancer is an age-related disease in organisms with renewable tissues. A malignant tumor arises in part from genomic damage, which can also drive age-related degeneration. However, cancer differs from many age-related degenerative diseases in that it entails gain-of-function changes that confer new (albeit aberrant) properties on cells, resulting in vigorous cell proliferation and survival. Nonetheless, interventions that delay age-related degeneration , for example, caloric restriction or dampened insulin/IGF-1 signaling , often also delay cancer. How then is the development of cancer linked to aging? The answer to this question is complex, as suggested by recent findings. This Hot Topic review discusses some of these findings, including how genomic damage might alter cellular properties without conferring mutations, and how some genes that regulate lifespan in organisms that lack renewable tissues might affect the development of cancer in mammals. [source] | ||||||||||||||||||||||||||||||||||