The intracellular forkhead winged transcription factor Foxp3 (forkhead box P3) appears to be specifically expressed by naturally occurring Treg cells, particularly in mice, although in humans there is evidence of upregulation of Foxp3 in all T cells on activation. Foxp3 is required for the development and function of naturally occurring regulatory t cells (treg) and expression is sufficient to convert non-regulatory CD4+CD25T cells into cells with regulatory activity. Conversion of peripheral CD4+CD25 naive T cells to Foxp3+CD4+CD25 foxp3+ Treg cells can be induced by TGF-ß. In a murine asthma model, these TGF-ß-induced Treg prevented house-dust mite-induced allergic pathogenesis or infection pathogenesis in lungs. A single independent report has suggested that IL-4 and IL-13 also induce Foxp3+CD25+ Treg from CD4+CD25precursors. (more…)
Regulatory T cells Treg (picture above) is the existence of suppressor cells, which limit ongoing immune responses and prevent ...
An emerging concept is that pro-inflammatory signals lead to loss of Regulatory T Cells (Treg) function. Pasare and Medzhitov ( ...
Treg cells or regulatory T cells constitute a large population of cellular infiltrate in atopic/allergic inflammation and a dys ...
The induction of immune tolerance and specific immune suppression are essential processes in the control of immune responses. R ...
Allergen-specific immunotherapy is highly effective in the treatment of IgE-mediated allergy diseases such as rhinitis, conjunc ...
An especially elaborate and important type of innate antimicrobial enzymes defense is provided by a group of serum proteins that together make up the complement cascade pathway. This group comprises more than two dozen different liver-and macrophage-derived proteins, called complement factors or components, most of which normally circulate in the form of proenzymes that have latent protease activity. As a rule, each of the proteases becomes active when proteolytically cleaved and will then catalyze cleavage and activation of a different complement component. (more…)
Innate immune responses are seen in a very broad range of tissues. Indeed, the Toll-like receptors (TLRs, one of the most important ...
A few of the best known humoral effectors of innate immunity are listed in Table 1 bellow, along with the types of target molec ...
With the exception of complement protein C3, most soluble mediators of innate immunity are found in relatively small amounts in ...
Some of the immediate sequelae of injury are uncomfortably familiar: Soon after an injury occurs, the affected site and its sur ...
Bacteria cause allergic disease because of toxicity, invasiveness, immunopathology, or lends of these three mechanisms. Thus much ...
Routes by which infectious organisms gain entry into the body include the skin, respiratory tract, gastro-intestinal (GI) tract and GU tract. There are fundamentally two ways in which infectious agents cross the physical and chemical barriers: either they are able to penetrate the intact barriers at one or more anatomical sites, or the physical barriers are damaged and breached, allowing entry of the organism.
Bellow are some possibles pathogens entry into human body:
Penetration of intact skin or mucosa
• Skin. Few organisms are able to penetrate intact skin. However, some parasites (e.g. hookworm) or their larvae (e.g. schistosoma) can do this. Other agents, such as wart viruses, set up infection in the skin and do not enter further into the body.
• Mucosa. Mucosa, being softer and damper than skin, are much more frequent sites of entry and all intact mucosa can be penetrated by some organisms. Examples are shown in table bellow. Pathogens can cross epithelia by passing through epithelial cells, as in the case of the meningococcus (a bacteria causing meningitis), or by passing between the epithelial cells, seen with Haemophilus influenzae.
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Penetration of damaged skin or mucosa
There are many ways in which skin or mucosa can be damaged, allowing entry of infectious organisms that could not cross intact skin or mucosa. Damage to skin is a particularly important route of infection and can occur in a number of ways:
• Burns. Burns, especially severe ones, pose a major risk for infection, particularly with Staphylococcus, Streptococcus, Pseudomonas and Clostridium tetanus.
• Cuts and wounds. These can allow entry of similar organisms to those seen after burns.
• Insect bites. Numerous infections pathogenesis are transmitted via insect bites. These include malaria, typhus and plague.
• Animal bites. Animal bites can provide direct transmission of infection, such as in rabies. Because they cause significant damage to the skin, bites can allow the entry of the same environmental pathogens as burns, cuts and wounds (see above).
• Human behaviour. Various aspects of uniquely human behaviour can result in the skin being penetrated. Sharing of syringes by intravenous (IV) drug users exposes them to risk of hepatitis and human immunodeficiency virus (HIV). A number of viral infections (hepatitis, HIV) have been transmitted by blood transfusion and blood products (e.g. factor VIII for haemophiliacs) before appropriate screening procedures were developed. Transplantation has also resulted in transmission of infection before the introduction of appropriate donor screening.
Damage to mucosa may not increase the likelihood of infection to the same extent as damage to the skin. However, physical or chemical damage may allow entry of some organisms (e.g. smoking increases the risk of respiratory bacterial infections or respiratory allergies). Furthermore, infection of the mucosa with a virus may cause damage and facilitate the entry of bacterial pathogens spread.
The final stage of the disease process (although it may not be the final stage of the infection) is the actual production of di ...
The way in which pathogens spread through the body is influenced to some extent by whether they live intra-cellularly, extra-ce ...
There are several pathogen types that can cause disease include many groups of single-celled microorganisms and larger multicel ...
Most initial infections are local, i.e. the infectious agent gains entry to the body at a single site, e.g. via an insect bite ...
There are thousands of components to the immune system, and during the course of learning about some of these it can appear tha ...
There are thousands of components to the immune system, and during the course of learning about some of these it can appear that the immune system is far more complex and complicated than necessary for achieving what is, on the surface, the simple task of eliminating an infectious organism. There are a number of reasons why the immune system is complex. The first of these is the desirability of eliminating pathogens without causing damage to the host. Getting rid of a pathogen is theoretically easy. If you had an infection in your liver you could produce a nasty toxin that would kill the pathogen; unfortunately it would also destroy your liver. Killing pathogens is not difficult, but getting rid of pathogens without damaging the host is much more complicated. (more…)
The final stage of the disease process (although it may not be the final stage of the infection) is the actual production of di ...
Most initial infections are local, i.e. the infectious agent gains entry to the body at a single site, e.g. via an insect bite ...
The body's innate resistance to many pathogens is provided by enzymes and other proteins in the blood and tissue fluids. These ...
The way in which pathogens spread through the body is influenced to some extent by whether they live intra-cellularly, extra-ce ...
There are several pathogen types that can cause disease include many groups of single-celled microorganisms and larger multicel ...
The immune system consists of proteins, cells and organs that are concerned with defense of the individual, primarily against the threat of disease caused by infectious organisms. An infectious organism that causes disease is called a pathogen and the individual (person or animal) that is infected by a pathogen is called the host. Not all infectious organisms cause disease and some are actually beneficial, for example bacteria living in the gut help to digest certain foods. Infectious organisms that help the host are called commensalism organisms. (more…)
The final stage of the disease process (although it may not be the final stage of the infection) is the actual production of di ...
There are thousands of components to the immune system, and during the course of learning about some of these it can appear tha ...
Serodiagnosis of bacterial diseases is of value only in specific circumstances. IgG antibody is long-lived, and its presence, a ...
Routes by which infectious organisms gain entry into the body include the skin, respiratory tract, gastro-intestinal (GI) tract ...
Allergic Reactions For daily life, of course we need our immune system. Without having immune system, we could not survive ...
Normally present at very low levels in plasma, antibodies of the immunoglobulin E (IgE) isotype were first discovered in 1967, decades after the description of IgA, IgG, and IM. IgE antibodies are produced primarily by plasma cells in mucosal-associated lymphoid tissue and their levels are uniformly elevated in patients suffering from atopic conditions like allergic rhinitis, asthma and atopic dermatitis. Production of allergen-specific IgE in atopic individuals is driven both by a genetic predisposition to the synthesis of this isotype as well as by environmental factors, including chronic allergen exposure. (more…)
The precise mechanisms underlying the effects of Specific Immunotherapy are not well understood but several studies have shown ...
Our current knowledge for trigger factor and food allergy intolerance is still in it infancy level. We already known that the aller ...
Treatment with omalizumab has been shown to reduce serum free IgE concentrations and to have beneficial effects on allergic airway ...
A paradigm of immune development underlies allergy development and progression in early childhood. Briefly, the immune system o ...
IgE plays an important role in allergic asthma. Reducing IgE in the airway mucosa should reduce airway inflammation. Omalizumab has ...
Atopic dermatitis is a chronic inflammatory condition of the skin which usually starts in infancy. It is sometimes called ‘atopic eczema’ or even simply ‘eczema’. Recently, the term ‘atopic eczema dermatitis syndrome’ or eczema symptoms or infantile eczema has also been proposed to indicate the varied nature of this disease. The diagnosis is based on clinical features of a chronic itchy dermatitis with typical morphology and distribution and a relapsing and remitting course. (more…)
Atopic Dermatitis is a chronic relapsing skin disease. Several investigations concerning the long-term prognosis of Atopic Derm ...
Atopic Dermatitis is considered to be one of the first manifestations in the atopic march. The aim of this study was to investi ...
The prevalence of atopic dermatitis is increasing in Western societies. The hygiene hypothesis proposes that this is due to red ...
The pharmacokinetics of pimecrolimus cream 1% and tacrolimus ointment 0.1% in adults with extensive, moderate to severe atopic ...
Topical corticosteroids are the usual therapy for patients with atopic dermatitis, but prolonged use can result in skin atrophy ...
Allergy skin testing is probably the most susceptible and practical way to monitor for existing allergy sensitivity. Biological extracts of aeroallergens such as trees, dust mites, weeds, cockroaches, molds, and animal danders are offered for allergy testing. The most common and approved way to test is by putting a drop of antigen on the surface area of the patient’s skin and scratching or skin prick test with a lancet or sharp object. The most essential ancillary test to confirm the diagnosis of allergy is the skin test, which is the gold standard in this respect. The skin test final results must be viewed in light of the history to decide the importance of a positive test. (more…)
One of the popular allergy testing besides food allergy testing is skin allergy testing. Allergy patch test is the most commo ...
If allergies are making your life miserable then you need to work with a professional to determine the cause of your symptoms a ...
The diagnostic approach to allergic food reactions comprises three steps. The first step includes the medical allergy history, ...
This study compared the diagnostic value of intradermal tests and patch tests in 20 patients with non-immediate reactions to pe ...
Having a food intolerance test is becoming increasingly popular nowadays. This is because the symptoms of indigestion, stomach ...
The most crucial element in the assessment process of a possible allergic problem is patient’s allergy history. An allergy history is made up of a chief problem, resolve of seasonality or diurnal variation of symptoms, detection of triggers, occupational asthma exposure, and reaction to medicines, family history, and some other relevant medical history. An allergy history looks for to define the patient’s chief complaint(s) and concentrates on the details with regards to those complaints. There is a lexicon typical to patients with allergy complaints. Sinus dizziness strain and headaches are often cited as symptoms. The history taker should be attuned to the patient’s viewpoint as a possible allergy sufferer. Exactly where and when does the symptom happen? Or is it happened during sleep? (more…)
Patient’s allergy history is one of the most important elements to evaluate of possible allergic problem. Sometimes this import ...
If you have sinusitis, one of the displeasing aspects of sinusitis is dizziness condition that comes with it. Symptoms of sin ...
Are there any complications with Allergic rhinitis? At first glance, the symptoms of allergic rhinitis may not appear unduly troub ...
Allergy skin testing is probably the most susceptible and practical way to monitor for existing allergy sensitivity. Biological ...
Classification of bronchial asthma can be based on age, etiology, associated characteristics, or severity. Classifications base ...
There is much controversy as to the role of allergen exposure for the development of atopic sensitization towards this allergen. While in some studies, a clear, almost linear dose-response relation between allergen exposure and sensitization has been found, others described a bell-shaped association with higher levels of exposures relating to lower rates of atopic sensitization. Part of the discrepancy may relate to the type of allergen, since mostly cat but not house dust mite allergy allergen exposure has been shown, in some studies, to exert protective effects at higher levels of exposure. (more…)
Natural history studies with the following design features provide a firm epidemiologic foundation for risk factor assessments and ...
The effects of exposure to environmental tobacco smoke (ETS) on children have been extensively studied and numerous surveys hav ...
Two factors thought to influence the risk factor asthma are the promoting effect of sensitization to house dust mites and the preve ...
Allergen exposure plays a role in the development of asthma bronchial hyper-responsiveness and in the acute inflammatory response ...
Sensitization to pets remains a risk factor for asthma and rhinitis, and can occur in people who have never lived with a pet. S ...