Skin Tests
Paragonimus
Drug Hypersensitivity
Rhinitis, Allergic, Perennial
Rhinitis, Allergic, Seasonal
Encyclopedias as Topic
Allergens
Exercise-induced bronchocontriction, skin sensitivity, and serum IgE in children with eczema. (1/215)
Forty-two children with eczema were studied for exercise-induced asthma (EIA), skin sensitivity to prick testing, blood eosinophil count, and immunoglobulins. 29 had a fall in peak expiratory flow rate after exercise greater than 20% and of these, 23 had symptoms of wheezing. 13 of the eczematous children showed a fall of less than 20%. The children with EIA showed greater cutaneous sensitivity (p less than 0.001) and a higher total serum IgE (p less than 0.025). 3 of the group with a fall of less than 20% had allergic rhinitis with skin sensitivity to grass pollen. The remaining 10 had no clinical evidence of allergic disease, other than eczema and skin sensitivity, and total IgE fell within the normal range. It is suggested that in a proportion of chilren with eczema there is little evidence of reaginic allergy. (+info)Quantification of the dose of inhaled flour: relation with nonspecific bronchial and immunological reactivities. (2/215)
The aim of this study was to investigate the relationship between specific bronchial reactivity and respective nonspecific bronchial and immunological reactivities. Twenty-one patients underwent bronchial challenges with lactose and flour. The aerosol of particles was generated by a computer-controlled aerosolizer. Specific bronchial challenge results were expressed as the provocative dose of flour (PDf) that caused a 20% or 15% decrease in the forced expiratory volume in one second (FEV1). For each subject, the decrease in FEV1 observed during the challenge with flour was compared with the calculated lower limit of the 99.7% confidence interval for the lactose challenge. The subjects also underwent a nonspecific challenge with methacholine and a measurement of the specific immunoglobulin E against wheat. The inhalation of lactose did not significantly affect FEV1. Nine subjects had high reactivity to wheat flour with a PDf20 <400 microg. Five subjects had intermediate reactivity: FEV1 fell by <20% but by significantly more than that in the test with lactose. For 7 subjects, there was no significant change in FEVI for inhaled doses of flour over 1390 microg. The results for specific bronchial challenge were significantly correlated with those for the methacholine test (p<0.02). Positive skin tests and specific immunoglobulin E against wheat were observed more frequently in the high reactivity group. Specific bronchial challenge can be performed safely to establish precise dose-response curves. The provocative dose of flour causing a 20% decrease in forced expiratory volume in one second is useful for evaluating the degree of specific reactivity but is not suitable in cases of intermediate reactivity in which comparison with the lactose test is necessary. Specific reactivity is probably a function of immunological and nonspecific bronchial reactivities. (+info)Allergy to laboratory animals in children of parents occupationally exposed to mice, rats and hamsters. (3/215)
Sensitization to laboratory animals (LA) has a high prevalence among laboratory workers. It is unknown whether transportation of LA allergens can be a risk factor for sensitization of subjects outside the laboratory environment. The aim of the study was to investigate the prevalence of sensitization to LA among children whose parents were and were not occupationally exposed to LA. The first group consisted of 50 children (age 12.3+/-4.3 yrs) whose parents were occupationally exposed to mice, rats and hamsters. The second group consisted of 40 children (age (mean+/-SD) 10.8+/-3.0 yrs) whose parents were not occupationally exposed to LA. Children having LA at home were eliminated from the study. All children responded to a questionnaire, underwent spirometry and were also tested with skin prick tests with the use of common allergens and prick tests with hair extracts from mouse, hamster and rat. Total immunoglobulin (Ig)E levels and the presence of specific IgE against LA were also estimated. Children of parents occupationally exposed to LA presented significantly more positive skin prick tests against allergens from the hair of laboratory animals compared to children of nonexposed parents. Five children from the first group were also found to have specific IgE against LA, with three of these five children complaining of rhinitis and cough while visiting their parents' workplace. It is concluded that the observed increased sensitization to laboratory animals among children of occupationally exposed parents could be the result of poor hygienic conditions at their parents' workplace. Hence, parents' job seems to be an additional risk factor of sensitization and should be taken into consideration when recording an allergic history. (+info)Isolation of mycobacteria from dairy creamery effluent sludge. (4/215)
Sixty three samples of dairy creamery effluent were examined for the presence of mycobacteria. Thirty two strains were isolated from 27 samples. These were classified as follows: M. fortuitum (13), M. peregrinum (6), M. gordonae(5), M. marianum (scrofulaceum) (4), unidentified (4). Ten strains, representative of the groups isolated, were tested for their effect on experimental animals. None were pathogenic for guinea pigs or mice but a number produced a minimal amount of skin sensitization in guinea pigs to avian and mammalian tuberculin. (+info)Alternate-day prednisone therapy and human lymphocyte subpopulations. (5/215)
The mechanisms and kinetics of the immunosuppressive effects of alternate-day prednisone were investigated in a group of patients with a variety of inflammatory diseases receiving a range of alternate-day prednisone doses from 5 to 120 mg. Total circulating lymphocyte and monocyte counts, as well as proportions of lymphocyte subpopulations defined both by surface markers and by in vitro functional capacities, were studied. At 8 a. m. of the day on prednisone, just before drug administration, lymphocyte and monocyte counts, proportions of lymphocyte subpopulations, as well as in vitro lymphocyte blastogenic responses to various mitogenic and antigenic stimuli were normal. 4 h after the administration of prednisone, there was a profound lymphocytopenia and monocytopenia, with a differential depletion of thymus-derived lymphocytes as well as various functionally defined lymphocyte subpopulations. Lymphocyte kinetic studies using a radioactive chromium-labeled autologous lymphocytes showed that the lymphocytopenia was due predominantly to a transient depletion of the recirculating portion of the intravascular lymphocytepool. All these parameters returned to normal by 8 a.m. of the following day (off prednisone) and remained normal throughout the day. This very transient lymphocytopenia and monocytopenia after prednisone, with normal cell numbers, proportions, and functions throughout the remainder of the 2-day cycle, was associated with suppression of disease activity, yet did not affect cutaneous delayed hypersensitivity in these patients nor increase the likelihood of infectious complications. This drug-associated cyclic and transient monocytopenia and selective lymphocytopenia is best explained by a redistribution of recirculating lymphocytes to other body compartments, particularly the bone marrow. (+info)Comparison of response to immunotherapy by intradermal skin test and antigen-specific IgE in canine atopy. (6/215)
The intradermal skin test (IDST) and serologic allergy test (SAT) has been developed for confirming a diagnosis of canine atopy and determining allergens for immunotherapy. To determine the prevalence of causative allergens for canine atopic dermatitis in Japan, IDST and SAT were performed with the CMG Immunodot strips on 95 atopic dogs using 9 allergens. In addition, we compared agreement rate, sensitivity and specificity between them (using IDST as the standard). The allergen most commonly positive in both tests was house dust mites (IDST: 69.5%, SAT: 48.4%). Moreover, Japanese cedar, mugwort and grass mix were detected as attendant causative allergens. Agreement rates between the two tests ranged from 67.4% to 96.8%; the overall mean agreement rate were 81%. SAT was shown to have sensitivity to IDST ranging from 16.7 to 68.2%. The specificities were very high for all allergens, on the order of 94.9-100% (median=98.7%). Finally, the efficacy of immunotherapy was evaluated on 27 atopic dogs based on IDST (15 dogs) and SAT (12 dogs) results. Overall, 60% (9/15) of the IDST group and 66.8% (8/12) of the SAT group experienced a 50% to 100% reduction in their symptomatology. No significant differences were found in response to immunotherapy during the follow-up period between allergen selection methods. These results indicate the value of serologic tests as an aid to identifying an allergen solution for immunotherapy. (+info)In vivo and in vitro tests showing sensitization to Japanese cedar (Cryptomeria japonica) pollen allergen in atopic dogs. (7/215)
Using both in vivo and in vitro tests, dogs with atopic dermatitis were examined for sensitization with Japanese cedar (Cryptomeria japonica, CJ) pollen allergen. Ten dogs with clinical manifestation of atopic dermatitis were shown to be sensitized to CJ pollen based on the results of intradermal skin test and serum antigen-specific IgE test. In vitro lymphocyte stimulation test showed blastogenic response after stimulation with crude antigen of CJ pollen in all of the 5 cases examined. The peripheral leukocytes showed increased histamine release after stimulation with crude antigen of CJ pollen in 2 cases examined. These data indicate that a proportion of dogs with atopic dermatitis is sensitized to CJ pollen in a cell-mediated manner and show immediate phase reaction of type I hypersensitivity. (+info)Experimental murine leprosy: induction of immunity and immune paralysis to Mycobacterium lepraemurium in C57BL mice. (8/215)
Two series of reinfection experiments were carried out using C57BL mice. In the first series, the mice were inoculated with Mycobacterium lepraemurium (MLM) in one hind footpad and reinoculated in the contralateral footpad, two or four weeks later. Compared with normal mice of the same strain, the mice reinoculated after four weeks showed an increased local reaction to the bacilli and the bacilli did not multiply at the injection site. The responses of mice reinoculated after two weeks were intermediate to those of the other two groups. In the second series, a systemic infection was established by intraperitoneal innoculation of either a large or small dose of MLM. Twenty-two weeks later the mice were reinoculated in one of the hind footpads. Upon reinoculation, mice receiving the small intraperitoneal dose reacted more strongly than normal mice to MLM, whereas mice receiving the large dose were unable to mount any local reaction to the mycobacterium. The experiments have shown that the local reaction which develops in the C57BL strain of mice approximately four weeks after subcutaneous injection of MLM is accompanied by the onset of systemic immunity. Such systemic immunity lasted for more than 20 weeks after intraperitoneal injection of a small dose of bacilli, but was completely abolished during the course of a heavy systemic MLM infection. (+info)Intradermal tests are a type of allergy test that involves the injection of a small amount of allergen extract directly into the skin, usually the forearm or back. This is different from other types of allergy tests such as scratch tests or blood tests, which measure immune system responses to allergens in other ways.
During an intradermal test, a healthcare professional uses a fine needle to inject a small amount of allergen extract just beneath the surface of the skin. This creates a small wheal or bubble, and the area is then observed for signs of a reaction such as redness, swelling, or itching. These reactions indicate that the person has antibodies to the allergen and may be allergic to it.
Intradermal tests are often used when other types of allergy tests have been inconclusive or when a healthcare professional wants to confirm the results of a previous test. They can be used to diagnose a variety of allergies, including those to insect venom, medications, and environmental allergens such as pollen or mold.
It's important to note that intradermal tests carry a higher risk of causing a severe allergic reaction than other types of allergy tests, so they should only be performed by trained healthcare professionals in a medical setting where appropriate treatments are available.
I'm sorry for any confusion, but "hypodermyiasis" is not a recognized medical term. It seems there might be a misunderstanding or a spelling mistake in your query.
If you're referring to "myiasis," it is a condition that occurs when fly larvae (maggots) infest and feed on the living tissue of a host. This can occur in various areas of the body, including under the skin (cutaneous myiasis), in wounds (traumatic myiasis), or in body cavities such as the nose or lungs (nasopharyngeal or pulmonary myiasis).
If you meant something else, please provide more context or check the spelling so I can give a more accurate response.
Skin tests are medical diagnostic procedures that involve the application of a small amount of a substance to the skin, usually through a scratch, prick, or injection, to determine if the body has an allergic reaction to it. The most common type of skin test is the patch test, which involves applying a patch containing a small amount of the suspected allergen to the skin and observing the area for signs of a reaction, such as redness, swelling, or itching, over a period of several days. Another type of skin test is the intradermal test, in which a small amount of the substance is injected just beneath the surface of the skin. Skin tests are used to help diagnose allergies, including those to pollen, mold, pets, and foods, as well as to identify sensitivities to medications, chemicals, and other substances.
"Paragonimus" is a genus of lung flukes, which are parasitic flatworms that infect the lungs of humans and other mammals. The most common species that infect humans is Paragonimus westermani, also known as the oriental lung fluke.
Humans become infected with these parasites by eating raw or undercooked freshwater crustaceans (such as crabs or crayfish) that harbor the larval stage of the fluke. Once ingested, the larvae migrate from the intestines to the lungs, where they develop into adults and produce eggs. These eggs are coughed up and swallowed, and then passed in the feces. If the eggs reach fresh water, they hatch into miracidia, which infect snails, the first intermediate host.
Inside the snail, the parasites multiply asexually, and then emerge as cercariae, which encyst on the surface of crustaceans. When a human or another mammalian host eats the infected crustacean, the life cycle continues.
Paragonimiasis, the disease caused by Paragonimus infection, can lead to symptoms such as cough, chest pain, fever, and shortness of breath. In severe cases, it can cause lung damage and other complications.
Drug hypersensitivity is an abnormal immune response to a medication or its metabolites. It is a type of adverse drug reaction that occurs in susceptible individuals, characterized by the activation of the immune system leading to inflammation and tissue damage. This reaction can range from mild symptoms such as skin rashes, hives, and itching to more severe reactions like anaphylaxis, which can be life-threatening.
Drug hypersensitivity reactions can be classified into two main types: immediate (or IgE-mediated) and delayed (or non-IgE-mediated). Immediate reactions occur within minutes to a few hours after taking the medication and are mediated by the release of histamine and other inflammatory mediators from mast cells and basophils. Delayed reactions, on the other hand, can take several days to develop and are caused by T-cell activation and subsequent cytokine release.
Common drugs that can cause hypersensitivity reactions include antibiotics (such as penicillins and sulfonamides), nonsteroidal anti-inflammatory drugs (NSAIDs), monoclonal antibodies, and chemotherapeutic agents. It is important to note that previous exposure to a medication does not always guarantee the development of hypersensitivity reactions, as they can also occur after the first administration in some cases.
The diagnosis of drug hypersensitivity involves a thorough medical history, physical examination, and sometimes skin or laboratory tests. Treatment typically includes avoiding the offending medication and managing symptoms with antihistamines, corticosteroids, or other medications as needed. In severe cases, emergency medical care may be required to treat anaphylaxis or other life-threatening reactions.
Allergic rhinitis, perennial type, is a medical condition characterized by inflammation of the nasal passages caused by an allergic response to environmental allergens that are present throughout the year. Unlike seasonal allergic rhinitis, which is triggered by specific pollens or molds during certain times of the year, perennial allergic rhinitis is a persistent condition that occurs year-round.
Common allergens responsible for perennial allergic rhinitis include dust mites, cockroaches, pet dander, and indoor mold spores. Symptoms may include sneezing, runny or stuffy nose, itchy eyes, ears, throat, or roof of the mouth. Treatment options typically involve avoiding exposure to the offending allergens, if possible, as well as medications such as antihistamines, nasal corticosteroids, and leukotriene receptor antagonists to manage symptoms. Immunotherapy (allergy shots) may also be recommended for long-term management in some cases.
Allergic rhinitis, seasonal (also known as hay fever) is a type of inflammation in the nose which occurs when an individual breathes in allergens such as pollen or mold spores. The immune system identifies these substances as harmful and releases histamine and other chemicals, causing symptoms such as sneezing, runny or stuffy nose, red, watery, and itchy eyes, cough, and fatigue. Unlike perennial allergic rhinitis, seasonal allergic rhinitis is worse during specific times of the year when certain plants pollinate.
Rhinitis is a medical condition characterized by inflammation and irritation of the nasal passages, leading to symptoms such as sneezing, runny nose, congestion, and postnasal drip. It can be caused by various factors, including allergies (such as pollen, dust mites, or pet dander), infections (viral or bacterial), environmental irritants (such as smoke or pollution), and hormonal changes. Depending on the cause, rhinitis can be classified as allergic rhinitis, non-allergic rhinitis, infectious rhinitis, or hormonal rhinitis. Treatment options vary depending on the underlying cause but may include medications such as antihistamines, decongestants, nasal sprays, and immunotherapy (allergy shots).
An encyclopedia is a comprehensive reference work containing articles on various topics, usually arranged in alphabetical order. In the context of medicine, a medical encyclopedia is a collection of articles that provide information about a wide range of medical topics, including diseases and conditions, treatments, tests, procedures, and anatomy and physiology. Medical encyclopedias may be published in print or electronic formats and are often used as a starting point for researching medical topics. They can provide reliable and accurate information on medical subjects, making them useful resources for healthcare professionals, students, and patients alike. Some well-known examples of medical encyclopedias include the Merck Manual and the Stedman's Medical Dictionary.
An allergen is a substance that can cause an allergic reaction in some people. These substances are typically harmless to most people, but for those with allergies, the immune system mistakenly identifies them as threats and overreacts, leading to the release of histamines and other chemicals that cause symptoms such as itching, sneezing, runny nose, rashes, hives, and difficulty breathing. Common allergens include pollen, dust mites, mold spores, pet dander, insect venom, and certain foods or medications. When a person comes into contact with an allergen, they may experience symptoms that range from mild to severe, depending on the individual's sensitivity to the substance and the amount of exposure.
Nasal obstruction is a medical condition that refers to any blockage or restriction in the normal flow of air through the nasal passages. This can be caused by various factors such as inflammation, swelling, or physical abnormalities in the nasal cavity. Common causes of nasal obstruction include allergies, sinusitis, deviated septum, enlarged turbinates, and nasal polyps. Symptoms may include difficulty breathing through the nose, nasal congestion, and nasal discharge. Treatment options depend on the underlying cause and may include medications, surgery, or lifestyle changes.