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Query: UMLS:C0030193 (
pain
)
261,466
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
In a trial of 48 patients with rheumatoid arthritis, enteric-coated aspirin (4.55 g daily( and micro-encapsulated aspirin (4.50 g daily) proved to be equally effective in reducing morning stiffness, relieving
pain
, increasing grip strength, reducing ESR, and reducing the need for additional analgesic tablets, compared with placebo. Reduction of joint tenderness was also found, but this was not statistically significant. Proximal interphalangeal joint circumference altered little during the trial. Tinnitus and deafness were commoner with enteric-coated aspirin, but gastric side-effects were similar. Of 39 patients completing the trial, there was an equal patient preference for enteric-coated aspirin and micro-encapsulated aspirin.
Salicylate
side-effects necessitated withdrawal of six patients from the trial and dose reduction in nine patients. It was concluded that the efficacy and side-effects in rheumatoid arthritis of both aspirin preparations were similar.
...
PMID:A trial of micro-encapsulated and enteric-coated aspirin in rheumatoid arthritis. 77 89
Salicylic Acid is an aromatic acid used in cosmetic formulations as a denaturant, hair-conditioning agent, and skin-conditioning agent--miscellaneous in a wide range of cosmetic products at concentrations ranging from 0.0008% to 3%. The Calcium, Magnesium, and MEA salts are preservatives, and Potassium
Salicylate
is a cosmetic biocide and preservative, not currently in use. Sodium
Salicylate
is used as a denaturant and preservative (0.09% to 2%). The TEA salt of Salicylic Acid is used as an ultraviolet (UV) light absorber (0.0001% to 0.75%). Several Salicylic Acid esters are used as skin conditioning agents--miscellaneous (Capryloyl, 0.1% to 1%; C12-15 Alkyl, no current use; Isocetyl, 3% to 5%; Isodecyl, no current use; and Tridecyl, no current use). Butyloctyl
Salicylate
(0.5% to 5%) and Hexyldodecyl
Salicylate
(no current use) are hair-conditioning agents and skin-conditioning agents--miscellaneous. Ethylhexyl
Salicylate
(formerly known as Octyl
Salicylate
) is used as a fragrance ingredient, sunscreen agent, and UV light absorber (0.001% to 8%), and Methyl
Salicylate
is used as a denaturant and flavoring agent (0.0001% to 0.6%). Myristyl
Salicylate
has no reported function. Isodecyl
Salicylate
is used in three formulations, but no concentration of use information was reported. Salicylates are absorbed percutaneously. Around 10% of applied salicylates can remain in the skin. Salicylic Acid is reported to enhance percutaneous penetration of some agents (e.g., vitamin A), but not others (e.g., hydrocortisone). Little acute toxicity (LD(50) in rats; >2 g/kg) via a dermal exposure route is seen for Salicylic Acid, Methyl
Salicylate
, Tridecyl
Salicylate
, and Butyloctyl
Salicylate
. Short-term oral, inhalation, and parenteral exposures to salicylates sufficient to produce high blood concentrations are associated primarily with liver and kidney damage. Subchronic dermal exposures to undiluted Methyl
Salicylate
were associated with kidney damage. Chronic oral exposure to Methyl
Salicylate
produced bone lesions as a function of the level of exposure in 2-year rat studies; liver damage was seen in dogs exposed to 0.15 g/kg/day in one study; kidney and liver weight increases in another study at the same exposure; but no liver or kidney abnormalities in a study at 0.167 g/kg/day. Applications of Isodecyl, Tridecyl, and Butyloctyl
Salicylate
were not irritating to rabbit skin, whereas undiluted Ethylhexyl
Salicylate
produced minimal to mild irritation. Methyl
Salicylate
at a 1% concentration with a 70% ethanol vehicle were irritating, whereas a 6% concentration in polyethylene glycol produced little or no irritation. Isodecyl
Salicylate
, Methyl
Salicylate
, Ethylhexyl (Octyl)
Salicylate
, Tridecyl
Salicylate
, and Butyloctyl
Salicylate
were not ocular irritants. Although Salicylic Acid at a concentration of 20% in acetone was positive in the local lymph node assay, a concentration of 20% in acetone/olive oil was not. Methyl
Salicylate
was negative at concentrations up to 25% in this assay, independent of vehicle. Maximization tests of Methyl
Salicylate
, Ethylhexyl
Salicylate
, and Butyloctyl
Salicylate
produced no sensitization in guinea pigs. Neither Salicylic Acid nor Tridecyl
Salicylate
were photosensitizers. Salicylic Acid, produced when aspirin is rapidly hydrolyzed after absorption from the gut, was reported to be the causative agent in aspirin teratogenesis in animals. Dermal exposures to Methyl
Salicylate
, oral exposures to Salicylic Acid, Sodium
Salicylate
, and Methyl
Salicylate
, and parenteral exposures to Salicylic Acid, Sodium
Salicylate
, and Methyl
Salicylate
are all associated with reproductive and developmental toxicity as a function of blood levels reached as a result of exposure. An exposure assessment of a representative cosmetic product used on a daily basis estimated that the exposure from the cosmetic product would be only 20% of the level seen with ingestion of a "baby" aspirin (81 mg) on a daily basis. Studies of the genotoxic potential of Salicylic Acid, Sodium
Salicylate
, Isodecyl
Salicylate
, Methyl
Salicylate
, cosmetic product would be only 20% of the level seen with ingestion of a "baby" aspirin (81 mg) on a daily basis. Studies of the genotoxic potential of Salicylic Acid, Sodium
Salicylate
, Isodecyl
Salicylate
, Methyl
Salicylate
, Ethylhexyl (Octyl)
Salicylate
, Tridecyl
Salicylate
, and Butyloctyl
Salicylate
were generally negative. Methyl
Salicylate
, in a mouse skin-painting study, did not induce neoplasms. Likewise, Methyl
Salicylate
was negative in a mouse pulmonary tumor system. In clinical tests, Salicylic Acid (2%) produced minimal cumulative irritation and slight or no irritation(1.5%); TEA-
Salicylate
(8%) produced no irritation; Methyl
Salicylate
(>12%) produced
pain
and erythema, a 1% aerosol produced erythema, but an 8% solution was not irritating; Ethylhexyl
Salicylate
(4%) and undiluted Tridecyl
Salicylate
produced no irritation. In atopic patients, Methyl
Salicylate
caused irritation as a function of concentration (no irritation at concentrations of 15% or less). In normal skin, Salicylic Acid, Methyl
Salicylate
, and Ethylhexyl (Octyl)
Salicylate
are not sensitizers. Salicylic Acid is not a photosensitizer, nor is it phototoxic. Salicylic Acid and Ethylhexyl
Salicylate
are low-level photoprotective agents. Salicylic Acid is well-documented to have keratolytic action on normal human skin. Because of the possible use of these ingredients as exfoliating agents, a concern exists that repeated use may effectively increase exposure of the dermis and epidermis to UV radiation. It was concluded that the prudent course of action would be to advise the cosmetics industry that there is a risk of increased UV radiation damage with the use of any exfoliant, including Salicylic Acid and the listed salicylates, and that steps need to be taken to formulate cosmetic products with these ingredients as exfoliating agents so as not to increase sun sensitivity, or when increased sun sensitivity would be expected, to include directions for the daily use of sun protection. The available data were not sufficient to establish a limit on concentration of these ingredients, or to identify the minimum pH of formulations containing these ingredients, such that no skin irritation would occur, but it was recognized that it is possible to formulate cosmetic products in a way such that significant irritation would not be likely, and it was concluded that the cosmetics industry should formulate products containing these ingredients so as to be nonirritating. Although simultaneous use of several products containing Salicylic Acid could produce exposures greater than would be seen with use of baby aspirin (an exposure generally considered to not present a reproductive or developmental toxicity risk), it was not considered likely that consumers would simultaneously use multiple cosmetic products containing Salicylic Acid. Based on the available information, the Cosmetic Ingredient Review Expert Panel reached the conclusion that these ingredients are safe as used when formulated to avoid skin irritation and when formulated to avoid increasing the skin's sun sensitivity, or, when increased sun sensitivity would be expected, directions for use include the daily use of sun protection.
...
PMID:Safety assessment of Salicylic Acid, Butyloctyl Salicylate, Calcium Salicylate, C12-15 Alkyl Salicylate, Capryloyl Salicylic Acid, Hexyldodecyl Salicylate, Isocetyl Salicylate, Isodecyl Salicylate, Magnesium Salicylate, MEA-Salicylate, Ethylhexyl Salicylate, Potassium Salicylate, Methyl Salicylate, Myristyl Salicylate, Sodium Salicylate, TEA-Salicylate, and Tridecyl Salicylate. 1461 32
Salicylate
is the major metabolite and active component of aspirin (acetylsalicylic acid), which is widely used in clinical medicine for treating inflammation,
pain
syndromes and cardiovascular disorders. The well-known mechanism underlying salicylate's action mainly involves the inhibition of cyclooxygenase and subsequent decrease in prostaglandin production. Recent evidence suggests that salicylate also affects neuronal function through interaction with specific membrane channels/receptors. However, the effect of salicylate on synaptic and neural network function remains largely unknown. In this study, we investigated the effect of sodium salicylate on the synaptic transmission and neuronal excitation in the hippocampal CA1 area of rats, a key structure for many complex brain functions. With electrophysiological recordings in hippocampal slices, we found that sodium salicylate significantly enhanced neuronal excitation through reducing inhibitory GABAergic transmission without affecting the basal excitatory synaptic transmission.
Salicylate
significantly inhibited the amplitudes of both evoked and miniature inhibitory postsynaptic currents, and directly reduced gamma-aminobutyric acid type A (GABA(A)) receptor-mediated responses in cultured rat hippocampal neurons. Together, our results suggest that the widely used aspirin might impair hippocampal synaptic and neural network functions through its actions on GABAergic neurotransmission. Given the capability of aspirin to penetrate the blood-brain barrier, the present data imply that aspirin intake may cause network hyperactivity and be potentially harmful in susceptible subpopulations.
...
PMID:The aspirin metabolite salicylate enhances neuronal excitation in rat hippocampal CA1 area through reducing GABAergic inhibition. 1807 64
Salicylate
-containing plants have long been used to alleviate fever and
pain
. The synthesis (in 1897) and marketing( in 1899) of acetylsalicylic acid (aspirin) were milestones in the treatment of inflammation. In the 1960s, other nonsteroidal anti-inflammatory drugs (NSAIDs) were introduced, having similar therapeutic actions and side effects. The elucidation of the mode of action of aspirin and other NSAIDs, through inhibition of prostaglandin biosynthesis, was another milestone that was reached in the 1971. It was the discover of the a second, inducible prostaglandin biosynthetic enzyme, cyclooxygenase-2 (COX-2), in 1991 that provided an explanation for the variations in toxicity of theses drugs; inhibition of COX-2 provides a therapeutic effect, whereas inhibition of COX-1 have higher toxicity than compound that are preferential or highly selective for the pro-inflammatory COX-2 isoform. Therefore, inhibition of COX-2 provides a target for the limitation of NSAID toxicity. The development and subsequent testing of preferential or highly selective COX-2 inhibitors further support the hypothesis and suggest that an effective NSAID without gastric toxicity is a realizable goal. In addition, these COX-2 selective compounds may be used as tools to define more clearly the functions of the tow isoforms.
...
PMID:Differential inhibition of cyclooxygenase isoforms: an explanation of the action of NSAIDs. 1907 19
Knee osteoarthritis is the most common cause of disability among people and it is a common disease of joints that can lead to cartilage damage. In this study the analgesic effects of a herbal ointment containing cinnamon, ginger, mastic (Saghez) and sesame oil is compared with
Salicylate
ointment in patients suffering from knee osteoarthritis. It was a double-blind randomized controlled trail study. Patients with diagnosed arthritis were involved in the study and they were divided in two groups via block randomization method. For six weeks, twice a day, intervention group applied herbal ointment and control group used
Salicylate
ointment. The severity of
pain
, morning stiffness and limited motion were measured using Visual Analog
Pain
Scale. In order to analyze the trends of these three indexes, repeated measurement test was used. Ninety two participates with the mean age of 52.2 (+/- 12.4) years and with the mean disease period of 30.45 (+/- 30.3) months were involved in the study. There was no significant difference between two groups regarding the distribution of sex, weight, height, BMI and the duration of illness. No statistical difference was observed between two groups regarding
pain
relief, morning stiffness and limited motion; nevertheless in repeated measurements during second, forth and sixth weeks in both groups the decreasing trend of these three indexes had been statistically significant (p < 0.0001). It seems that using this herbal combination is clinically effective for patients suffering from knee osteoarthritis in order to decrease their
pain
, morning stiffness and limited motion; its effect is comparable with
Salicylate
ointment.
...
PMID:Comparing analgesic effects of a topical herbal mixed medicine with salicylate in patients with knee osteoarthritis. 2230 53
