The underlying trigger to develop these antibodies in lupus is unknown, although experts believe that a combination of genetic, environmental, and possibly hormonal factors are involved. The fact that lupus can run in families suggests that there is a genetic basis for its development, but so far no single “lupus gene” has been identified. Experts suspect that several different genes may be involved in determining an individual’s chance of developing the disease, as well as which tissues and organs are affected, and how severe the disease will be if it does occur. Other factors being investigated as contributing to the onset of lupus are overexposure to sunlight, stress, certain drugs, and viruses and other infectious agents.
Based on the identified evidence the panel concluded that compared with GCs alone, the addition of other IS (CYC, MMF or TAC) is associated with significant benefits, higher remission rates and lower progression rates to end-stage renal disease (ESRD). Head-to-head comparisons between MMF, TAC and high-dose CYC showed that MMF and TAC are associated with less adverse effects than high-dose CYC. Between low and high-dose CYC the balance favours the former because of better safety profile and comparable efficacy, although this conclusion is based on one trial that included predominantly Caucasians. RTX did not provide additional benefits when combined with MMF.
Nitrogen in the blood in the form of urea, the metabolic product of the breakdown of amino acids used for energy production. The normal concentration is about 8 to 18 mg/dL. The level of urea in the blood provides a rough estimate of kidney function. Blood urea nitrogen levels may be increased in the presence of dehydration, decreased renal function, upper gastrointestinal bleeding, or treatment with drugs such as steroids or tetracyclines.
Levels of stress-related illnesses are on the rise, and stress, both emotional and physical, has been shown to trigger and intensify autoimmune disorders. Stress is your body’s response to a threat–a wound, injury, or infection. Acute stress revs up your immune system to help you deal with an immediate crisis, and then calms it back down once the threat is removed. On the other hand, chronic stress (the kind we face in this day and age) leads to long-term inflammation and actually suppresses your immune system. This can trigger or worsen autoimmune conditions, and can lead to the reactivation of latent viruses linked to lupus, perpetuating a vicious cycle.
Lupus can bring all sorts of physical and emotional challenges, especially if you're newly diagnosed. Learning to cope with your disease takes time and practice, and includes things like educating yourself and your loved ones about your disease, taking care of yourself by getting enough rest and eating well, learning how to manage your flares, and getting support.
Research has demonstrated evidence that a key enzyme's failure to dispose of dying cells may contribute the development of systemic lupus erythematosus. The enzyme, DNase1, normally eliminates what is called "garbage DNA" and other cellular debris by chopping them into tiny fragments for easier disposal. Researchers turned off the DNase1 gene in mice. The mice appeared healthy at birth, but after six to eight months, the majority of mice without DNase1 showed signs of systemic lupus erythematosus. Thus, a genetic mutation in a gene that could disrupt the body's cellular waste disposal may be involved in the initiation of systemic lupus erythematosus.
Drug-induced lupus erythematosus is a (generally) reversible condition that usually occurs in people being treated for a long-term illness. Drug-induced lupus mimics SLE. However, symptoms of drug-induced lupus generally disappear once the medication that triggered the episode is stopped. More than 38 medications can cause this condition, the most common of which are procainamide, isoniazid, hydralazine, quinidine, and phenytoin.
An adverse event that results in death, is life-threatening, requires inpatient hospitalization or extends a current hospital stay, results in an ongoing or significant incapacity or interferes substantially with normal life functions, or causes a congenital anomaly or birth defect. Medical events that do not result in death, are not life-threatening, or do not require hospitalization may be considered serious adverse events if they put the participant in danger or require medical or surgical intervention to prevent one of the results listed above.
Normally, our immune system produces proteins called antibodies that protect the body from these foreign invaders. When you have lupus, your immune system cannot tell the difference between these foreign invaders and your body’s healthy tissues, so autoantibodies are made that damage and destroy healthy tissue (auto means self and anti means against, so autoantibody means against self). These autoantibodies cause inflammation, pain, and damage in various parts of the body.
Tingible body macrophages (TBMs) – large phagocytic cells in the germinal centers of secondary lymph nodes – express CD68 protein. These cells normally engulf B cells that have undergone apoptosis after somatic hypermutation. In some people with SLE, significantly fewer TBMs can be found, and these cells rarely contain material from apoptotic B cells. Also, uningested apoptotic nuclei can be found outside of TBMs. This material may present a threat to the tolerization of B cells and T cells. Dendritic cells in the germinal center may endocytose such antigenic material and present it to T cells, activating them. Also, apoptotic chromatin and nuclei may attach to the surfaces of follicular dendritic cells and make this material available for activating other B cells that may have randomly acquired self-specificity through somatic hypermutation. Necrosis, a pro-inflammatory form of cell death, is increased in T lymphocytes, due to mitochondrial dysfunction, oxidative stress, and depletion of ATP.
Cells are the basic building blocks of all living things. The human body is composed of trillions of cells. They provide structure for the body, take in nutrients from food, convert those nutrients into energy, and carry out specialized functions. Cells also contain the body’s hereditary material and can make copies of themselves. When someone has lupus, the immune system can’t tell the difference between the body’s healthy cells and bacteria and viruses, so the antibodies attack the body’s healthy cells.
Hormonal mechanisms could explain the increased incidence of SLE in females. The onset of SLE could be attributed to the elevated hydroxylation of estrogen and the abnormally decreased levels of androgens in females. In addition, differences in GnRH signalling have also shown to contribute to the onset of SLE. While females are more likely to relapse than males, the intensity of these relapses is the same for both sexes.
SLE is associated with defects in apoptotic clearance, and the damaging effects caused by apoptotic debris. Early apoptotic cells express “eat-me” signals, of cell-surface proteins such as phosphatidylserine, that prompt immune cells to engulf them. Apoptotic cells also express “find-me” signals, to attract macrophages and dendritic cells. When apoptotic material is not removed correctly by phagocytes, they are captured instead by antigen-presenting cells, which leads to development of antinuclear antibodies.
What are the causes and types of arthritis? Arthritis is a term that describes around 200 conditions that cause pain in the joints and the tissues surrounding the joints. The most common form of arthritis is osteoarthritis. Other related conditions include gout and fibromyalgia. The article looks at the types, causes, and treatments, including natural remedies. Read now
While no single test can determine whether a person has lupus, several laboratory tests may help the doctor confirm a diagnosis, or at least rule out other ailments. The most useful tests identify certain autoantibodies that are often present in the blood of lupus patients. A biopsy of the skin or kidneys may also be ordered if those organs are affected. The doctor will look at the entire picture – medical history, symptoms, and test results – to determine if you have lupus. Other laboratory tests are used to monitor the progress of the disease once it has been diagnosed.
The role of the immune system in causing diseases is becoming better understood through research. This knowledge will be applied to design safer and more effective treatment methods. For example, completely revising the immune system of people with extremely aggressive treatments that virtually temporarily wipe out the immune system is being evaluated. Current studies involve immune eradication with or without replacement of cells that can reestablish the immune system (stem-cell transplantation).
Preventive measures are necessary to minimize the risks of steroid-induced osteoporosis and accelerated atherosclerotic disease.  The American College of Rheumatology (ACR) Guidelines for the prevention of glucocorticoid-induced osteoporosis suggest the use of traditional measures (eg, calcium, vitamin D) and the consideration of prophylactic bisphosphonate therapy.
Steroids Synthetic cortisone medications are some of the most effective treatments for reducing the swelling, warmth, pain, and tenderness associated with the inflammation of lupus. Cortisone usually works quickly to relieve these symptoms. However, cortisone can also cause many unwelcome side effects, so it is usually prescribed only when other medications—specifically NSAIDs and anti-malarials—are not sufficient enough to control lupus.
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