Acrolein ; poisoning ; Humans

Cyclophosphamide is alkylating agent used in the treatment of various solid tumors. Mucosal irritation by acrolein, the metabolite of cyclophosphamide, is believed to cause various symptoms of cystitis. The thiol compound, sodium 2-mercaptoethane sulfonate (Mesna), has been found to inactivate acrolein. We present an unusual case of a 64-year-old woman, who was treated as chronic cystitis. Her symptoms did not improve, so she was treated with Mesna under the assumption of cyclophosphamide induced cystitis; her symptoms then improved.
Acrolein ; Cyclophosphamide* ; Cystitis* ; Female ; Humans ; Mesna* ; Middle Aged ; Sodium

OBJECTIVES: We report a case of death due to asthma attack in a plastic injection process worker with a history of asthma. METHODS: To assess task relevance, personal history including occupational history and medical records were reviewed. Samples of the substances utilized in the injection process were collected by visiting the patient's workplace. The work environment with the actual process was reproduced in the laboratory, and the released substances were evaluated. RESULTS: The medical records confirmed that the patient's conventional asthma was in remission. The analysis of the resins discharged from the injection process simulation revealed styrene, which causes occupational asthma, and benzenepropanoic acid, 3,5-bis(1,1-dimethylethyl)-4-hydroxy-, and octadecyl ester. Even though it was not the case in the present study, various harmful substances capable of inducing asthma such as formaldehyde, acrolein, and acetic acid are released during resin processing. CONCLUSION: A worker was likely to occur occupational asthma as a result of the exposure to the harmful substances generated during the plastic injection process.
Acetic Acid ; Acrolein ; Asthma ; Asthma, Occupational* ; Formaldehyde ; Humans ; Medical Records ; Plastics* ; Styrene

This study was conducted to evaluate the ability of plants to purify indoor air by observing the effective reduction rate among pollutant types of particulate matter (PM) and volatile organic compounds (VOCs). PM and four types of VOCs were measured in a new building that is less than three years old and under three different conditions: before applying the plant, after applying the plant, and a room without a plant. The removal rate of each pollutant type due to the plant was also compared and analyzed. In the case of indoor PM, the removal effect was negligible because of outdoor influence. However, 9% of benzene, 75% of ethylbenzene, 72% of xylene, 75% of styrene, 50% of formaldehyde, 36% of acetaldehyde, 35% of acrolein with acetone, and 85% of toluene were reduced. The purification of indoor air by natural ventilation is meaningless because the ambient PM concentration has recently been high. However, contamination by gaseous materials such as VOCs can effectively be removed through the application of plants.
Acetaldehyde ; Acetone ; Acrolein ; Benzene ; Formaldehyde ; Particulate Matter* ; Plants ; Styrene ; Toluene ; Ventilation ; Volatile Organic Compounds* ; Xylenes

Trans-cinnamaldehyde, the main component of volatile oil from cassia twig or Cinnamomum cassia, which is a traditional Chinese herbal medicine. Trans-cinnamaldehyde is a kind olefine aldehyde of organic compounds and has many pharmacological properties, such as anti-inflammatory, anti-tumor, anti-bacterial, antidiabetic, anti-obesity, and neuroprotection etc. The compound has preventive and therapeutic effects on the nervous system, cardiovascular, cancer, diabetes and other diseases. Trans-cinnamaldehyde, as a preventive care of nature medicine, has great clinical and market potential. This paper gives a review about the pharmacological effects and mechanism of trans-cinnamaldehyde researched in the latest five years. We hope to provide some basic information for further research on trans-cinnamaldehyde.
Acrolein ; analogs & derivatives ; chemistry ; pharmacology ; Animals ; Cinnamomum aromaticum ; chemistry ; Drugs, Chinese Herbal ; chemistry ; pharmacology ; Humans

Hemorrhagic cystitis is potentially life-threatening sequellae of chemotherapy using oxazaphosphorine alkylating agents (cyclophosphamide and ifosfamide). Mesna contains a sulfhydryl group that is believed to bind acrolein within the urinary collecting system and reduce the hemorrhagic cystitis without affecting the chemotherapeutic potential. To date, about thirty cases of hypersensitivity or allergic reactions of the delayed and urticarial type associated with mesna have been reported. We reported two patients with systemic lupus erythematosus who developed facial rash and flushing associated with mesna which imitate malar rash.
Acrolein ; Alkylating Agents ; Cyclophosphamide ; Cystitis ; Drug Therapy ; Exanthema* ; Flushing ; Humans ; Hypersensitivity* ; Lupus Erythematosus, Systemic ; Mesna*

OBJECTIVETo investigate the stimulation of Cinnamaldehyde to the pulp tissue and the periapical tissue of rats' teeth, to provide evidence for developing Cinnamaldehyde as a pulp-cap of pulpotomy in primary teeth.

METHODSUsing Cinnamaldehyde as pulp-cap in pulpotomy of rats' teeth, set up Cinnamaldehyde group, formaldehyde cresol formocresol group and blank group. After different treatment according to the empirical procedure, rats were killed in the 4th week and on the 12th week. Then the experiment teeth and the periodontal tissue were made into HE slides and observed using light microscope.

RESULTSThe 4" week, internal absorption, external absorption, and calcification were of no significance among all the groups. Inflammation in blank group was far more severe than that in other two groups (P<0.05), while the latter two were of no significance. The 12th week, internal absorption, external absorption, and inflammation between the former two groups were of no differences, but the indexes were significantly different from them of the blank group (P<0.005). Calcify was not obvious in all the slides.

CONCLUSIONAs a pulp-cap, Cinnamaldehyde stimulates the pulp tissue and the periapical tissue at a very low level. The research provides histopathology rationale for Cinnamaldehyde as pulp-cap of pulpotomy in primary teeth.

This study was conducted to evaluate the ability of plants to purify indoor air by observing the effective reduction rate among pollutant types of particulate matter (PM) and volatile organic compounds (VOCs). PM and four types of VOCs were measured in a new building that is less than three years old and under three different conditions: before applying the plant, after applying the plant, and a room without a plant. The removal rate of each pollutant type due to the plant was also compared and analyzed. In the case of indoor PM, the removal effect was negligible because of outdoor influence. However, 9% of benzene, 75% of ethylbenzene, 72% of xylene, 75% of styrene, 50% of formaldehyde, 36% of acetaldehyde, 35% of acrolein with acetone, and 85% of toluene were reduced. The purification of indoor air by natural ventilation is meaningless because the ambient PM concentration has recently been high. However, contamination by gaseous materials such as VOCs can effectively be removed through the application of plants.
Acetaldehyde ; Acetone ; Acrolein ; Benzene ; Formaldehyde ; Particulate Matter ; Plants ; Styrene ; Toluene ; Ventilation ; Volatile Organic Compounds ; Xylenes

Acrolein, known as one of the most common reactive carbonyl species, is a toxic small molecule affecting human health in daily life. This study is focused on the scavenging abilities and mechanism of ferulic acid and some other phenolic acids against acrolein. Among the 13 phenolic compounds investigated, ferulic acid was found to have the highest efficiency in scavenging acrolein under physiological conditions. Ferulic acid remained at (3.04±1.89)% and acrolein remained at (29.51±4.44)% after being incubated with each other for 24 h. The molecular mechanism of the detoxifying process was also studied. Detoxifying products, namely 2-methoxy-4-vinylphenol (product 21) and 5-(4-hydroxy-3-methoxyphenyl)pent-4-enal (product 22), were identified though nuclear magnetic resonance (NMR) and gas chromatography-mass spectrometry (GC-MS), after the scavenging process. Ferulic acid showed significant activity in scavenging acrolein under physiological conditions. This study indicates a new method for inhibiting damage from acrolein.
Acrolein/toxicity* ; Coumaric Acids/pharmacology* ; Glutathione/physiology* ; Hydroxybenzoates/pharmacology* ; Magnetic Resonance Spectroscopy ; Structure-Activity Relationship

Gabapentin is used as an effective drug for relieving pain, but the main mechanism is still unclear. Recently, voltage-gated Ca2+ channel subunits are suggested for the main target for the analgesic action of gabapentin. We wonder whether gabapentin directly modulates other specific ion channels peripherally expressed in the sensory neurons. To test this, we used a heterologous expression system in which the cell lines transiently expressed thermosensitive transient receptor potential ion channels (thermoTRPs) as well as the primary cultured mouse trigeminal neurons. The application of gabapentin reduced the increases in the intracellular Ca2+ level caused by TRPA1 activation in the heterologous expression system whereas the responses via actions of other thermoTRPs were not dramatically affected by the gabapentin treatment. Gabapentin also attenuated the TRPA1-mediated intracellular Ca2+ increases in the cultured trigeminal neurons. These findings suggest TRPA1 in the peripheral sensory neurons as a novel target for the analgesic of gabapentin.
Acrolein ; Amines ; Animals ; Cell Line ; Cyclohexanecarboxylic Acids ; gamma-Aminobutyric Acid ; Ion Channels ; Mice ; Neurons ; Sensory Receptor Cells ; Trigeminal Ganglion