ABSTRACT
BACKGROUND: We previously reported four cases of soy sauce allergy and noted that new criteria are necessary for the prick test. Soy sauce contains histamine and often causes false-positive reactions in the skin tests. It is important to discuss how to interpret the results of prick tests. MATERIALS AND METHODS: Eight female patients with soy sauce allergy and four female volunteers as controls were given the prick test using 15 sauces and were evaluated according to nine criteria. The volume of histamine in 15 sauces was determined by high-performance liquid chromatography. RESULTS: The conventional criteria resulted in nine different reactions. Some of the control subjects showed false-positive reactions according to the conventional criteria. Histamine was detected in 11 sauces and was not detected in four sauces. The positive ratios of these four sauces were low; there were no positive reactions in controls according to the new criteria. Regardless of patients or controls, the positive ratio evaluated using the conventional criteria was higher than that evaluated using the new criteria in the sauces containing histamine. DISCUSSION: It is difficult to evaluate the results of the prick test using soy sauce with the conventional criteria because the results were different depending on each criterion. Our new criteria are more suitable for evaluating the results of the prick test using soy sauce than the conventional criteria, and they could decrease the number of false-positive reactions. Common diagnostic criteria are needed for prick testing using pseudoallergens.
Subject(s)
Food Hypersensitivity/diagnosis , Histamine/adverse effects , Skin Tests , Soy Foods/adverse effects , Adolescent , Adult , Child , Eosinophils , Female , Food Hypersensitivity/immunology , Histamine/analysis , Histamine/immunology , Humans , Immunoglobulin E/immunology , Leukocyte Count , Middle Aged , Young AdultABSTRACT
A 28-year-old man developed urticaria while he was working in the garage. We suspected contact urticaria, which can be caused by some products used in his field, and we carried out a prick test using his work gloves and shoes. His gloves were orange and black in colour, his shoes were black and white in colour, and the materials they were made of were unknown. The results of the prick test using the gloves and shoes were positive. Gas chromatography/mass spectrometry was applied, and a fluorescent dye was found to be present in his gloves and shoes. The results of a prick test using the fluorescent dye were positive. His urticaria improved after he stopped using these gloves and shoes. This was a rare case of contact urticaria caused by a fluorescent dye in clothing.
Subject(s)
Dermatitis, Allergic Contact/etiology , Dermatitis, Occupational/etiology , Fluorescent Dyes/adverse effects , Gloves, Protective , Shoes , Urticaria/chemically induced , Adult , Dermatitis, Allergic Contact/pathology , Dermatitis, Occupational/pathology , Humans , Immunoglobulin E/blood , Male , Urticaria/pathologySubject(s)
Lipoma/pathology , Soft Tissue Neoplasms/pathology , Adult , Biopsy, Needle , Humans , Immunohistochemistry , Lipoma/diagnosis , Lipoma/surgery , Male , Prognosis , Scapula , Soft Tissue Neoplasms/diagnosis , Soft Tissue Neoplasms/surgery , Surgical Procedures, Operative/methods , Treatment OutcomeABSTRACT
BACKGROUND: Generally, Langerhans cells deliver antigen information from the skin to the draining lymph nodes via lymph vessels. METHODS: By immunohistopathology, we investigated the delivery route of Langerhans cells in human skin using CD1a and S-100 protein antibodies. RESULTS: We noted CD1a- and S-100-positive Langerhans cells in the lymph vessels of the dermis. These were shaped like dendritic cells and presented with some lymphocytes, melanophages, melanin granules and lymph in the same vessels. CONCLUSION: These observations support the concept that Langerhans cells deliver antigen peptides to regional lymph nodes via afferent lymph vessels.
Subject(s)
Antigens, CD1/immunology , Cell Movement/immunology , Langerhans Cells/cytology , Lymph Nodes/immunology , S100 Proteins/immunology , Skin/immunology , Humans , Lymph Nodes/cytology , Skin/cytologyABSTRACT
BACKGROUND: Ketoprofen, suprofen and tiaprofenic acid are arylpropionic anti-inflammatories. Their chemical structures share the same elements as the benzoyl radical and the tiophene ring. We experienced nine cases of ketoprofen photoallergy, seven cases of suprofen photoallergy and three cases of tiaprofenic photoallergy. PURPOSE: To find the key structure of photosensitivity and photocross-reactivity to ketoprofen, suprofen and tiaprofenic acid. METHODS: : Three animals were tested for phototoxicity and six animals for the photosensitization potentials of ketoprofen, suprofen, tiaprofenic acid and benzophenone, and the photocross-reactivity of the above chemicals. Test substances were applied symmetrically on both sides of the animals' backs. The animals were irradiated with 180 mJ/cm2 UVB ((1/2) MED) and 10 J/cm2 UVA on the left side. The reactions were read on days 2, 3 and 4. The photosensitization potentials of ketoprofen, suprofen, tiaprofenic acid and benzophenone were determined using the Adjuvant-Strip method. Six animals were assigned to each test group and to a control group. RESULTS: Ketoprofen, suprofen, tiaprofenic acid and propionic acid showed negative reactions with the phototoxic test. Benzophenone showed phototoxic reactions to 40% acetone (ac.), 20% ac. and 10% ac. Therefore, we used 5% aq. benzophenone with the photosensitization test. Ketoprofen was the strongest photosensitizer (6/6) and showed photocross-reactivities to suprofen (2/6), tiaprofenic acid (3/6) and benzophenone (6/6). Suprofen was a strong photosensitizer (4/6) and showed photocross-reactivities to ketoprofen (1/4) and tiaprofenic acid (2/4), but not to benzophenone. Tiaprofenic acid was also a photosensitizer (2/6) but showed a photocross-reactivity only to benzophenone (2/2). Benzophenone was also the strongest photosensitizer (6/6), but did not photocross-react to the above three chemicals. CONCLUSION: From the test results, it appears that benzoyl radical is the key structure for photosensitivity and the photocross-reactivity of ketoprofen, suprofen and tiaprofenic acid. The whole structure of benzophenone was needed to induce photosensitization of benzophenone. The animals that were photosensitized from the entire structure of benzophenone did not photocross-react to ketoprofen, suprofen or tiaprofenic acid.
Subject(s)
Anti-Inflammatory Agents, Non-Steroidal/adverse effects , Benzophenones/adverse effects , Dermatitis, Photoallergic/etiology , Ketoprofen/adverse effects , Photosensitizing Agents/adverse effects , Propionates/adverse effects , Suprofen/adverse effects , Animals , Female , Guinea Pigs , HumansABSTRACT
We report a rare case of contact urticaria due to polyethylene gloves. The patient, a 46-year-old cook, had had had chronic urticaria since 1985, and first visited our hospital in June 2000. We began by prescribing antihistamine and antiallergenic drugs for him, but his condition did not improve. From a detailed interview, we established that when he put on polyethylene gloves at work, his condition worsened. We suspected some component of his gloves to be the cause of his symptoms. Prick and scratch tests with a solution extracted from his gloves showed a wheal-and-flare reaction at 15 min. We advised him to wear a cotton shirt under his clothes in daily life, and to put on cotton gloves under his polyethylene gloves while at work. Subsequently, the size and the number of wheals were markedly smaller and the subject's symptoms were reduced.
Subject(s)
Dermatitis, Allergic Contact/etiology , Dermatitis, Occupational/etiology , Gloves, Protective , Polyethylenes/adverse effects , Chromatography, Gas , Humans , Male , Mass Spectrometry , Middle Aged , Skin Tests , Spectrophotometry, InfraredABSTRACT
We previously reported a case of contact urticaria syndrome (CUS) due to di(2-ethylhexyl) phthalate (DOP) in a polyvinyl chloride (PVC) grip on cotton gloves. The patient reported in this previous paper was careful not to have any contact with PVC products in his daily life or in his working environment. He discontinued the use of protective gloves with a PVC grip that was the cause of CUS. When working, he used cotton gloves without a PVC grip. We prescribed antihistamines which slightly improved his condition. However, when he wore work clothes while on duty, CUS relapsed. This condition was severe and made him feel anxious. When we advised him to wear a cotton shirt under his work clothes, the contact urticaria did not develop. We suspected that some component of the work clothes was the cause of his symptoms. A prick test with the extract solution of his work clothes showed a wheal and flare at the 15 min reading. The common component of the grip and the work clothes was found by analysis to be DOP.
