Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UMLS:C0030552 (
paresis
)
5,831
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Fomocaine (CAS 56583-43-8) is a local anaesthetic (LA) with long lasting surface effect and low toxicity. Nevertheless, it is not optimal yet. Therefore, 7 newly synthesised derivatives, 4 diethanolamines (OE 6000, OE 7000, OE 8000, OE 9000) and 3 morpholines (OE 500, OE 1000, OE 5000) were compared with procaine-HCl (CAS 51-05-8) and tetracaine-HCl (CAS 136-47-0) in rats. Based on standard methods for the testing of LA effects and using two methods for characterising side effects and toxicity of LA (
paresis
of the N. ischiadicus, LD50) it can be concluded that: a) The very good surface anaesthesia caused by especially fomocaine and tetracaine could be stated but concerning conduction anaesthesia procaine is better qualified. b) Concerning conduction anaesthesia, diethanolamine derivatives are more potent compared to
morpholine
derivatives. c) Surface anaesthesia shows a different picture: the effect of fomocaine is in between. d) The
paresis
of the N. ischiadicus as a first sign of toxic side effects indicated that low effect is combined with short
paresis
. e) Compared to the LD50 of fomocaine, the toxicity of OE 500 and OE 5000 is only one half. On the basis of the experiments with fomocaine derivatives, distinct structure-activity relationships could be demonstrated for fomocaine derivatives concerning a) LA effects and b) toxicity. Altogether OE 9000 could be a promising candidate for systemic use.
...
PMID:Local anaesthetic effects and toxicity of seven new diethanolamine and morpholine derivatives of fomocaine. Testing in rats compared with procaine and tetracaine. 1270 79
Fomocaine (CAS 56583-43-8) is a basic ether-type local anaesthetic used in dermatological practice for surface anaesthesia. For many years, modifications of the fomocaine molecule have been pursued, e.g. to improve its affinity to the sodium channel and also in view of possible new (systemic) applications. In the present study fomocaine and eight fomocaine derivatives with an additional alkyl chain in 2- or 3-position of different length (C1 up to C4), or with a branched C3 chain in 3-position, respectively, at the
morpholine
ring were evaluated in vitro for possible structure-activity relationships with respect to the interactions with cytochrome P450 (CYP) mediated monooxygenase and oxidase functions using rat liver 9000 g supernatants or microsomes. Results were compared to in vivo data from rats on toxicity (LD50),
paresis
of the N. ischiadicus and surface and conduction anaesthesia (cornea, N. ischiadicus). In general, the influence of the derivatives on the CYP system was less than that of fomocaine, showing a further decline with enlarging chain length. Toxicity of the derivatives was comparable to that of fomocaine and lower only with the compound with a C4 alkyl chain in 2-position. The derivatives caused a stronger surface anaesthesia than fomocaine, exhibiting an additional increase with enlarging chain length. No clear-cut structure-activity relationships were observed with respect to
paresis
of the N. ischiadicus and to conduction anaesthesia. Especially the derivatives having a C2 or C4 chain in 2- or a C3 chain in 3-position, respectively, may be of interest for further investigations. In comparison to fomocaine they caused a stronger surface anaesthesia combined with a lower interaction capacity with the CYP system.
...
PMID:In vitro interactions with the Cytochrome P450 system, toxicity, and local anaesthetic effects of Fomocaine Alkylmorpholine derivatives in rats. 1647 99
Between the stereoisomers of amide-type local anaesthetics differences have been noticed with respect to pharmacokinetics and side effects, but not regarding local anaesthetic capacity. Therefore, only S-(-)-ropivacaine has been introduced into clinical practice and with bupivacaine both the racemate and the S-(-)-enantiomer (levobupivacaine) are available by now. Based on this background, the aim of the present study was to evaluate if there are also dissimilarities to be found both in the toxicity and in the effectiveness of the enantiomers of two newly synthesized chiral fomocaine alkylmorpholine derivatives, OW3 and OW13, with an additional C2-chain in 2- or an additional C3-chain in 3-position at the
morpholine
ring, respectively. For this purpose, in vitro the interaction capacity with cytochrome P450 (CYP)-mediated monooxygenase and oxidase functions was investigated using rat liver 9000 g supernatants or microsomes. In vivo LD50,
paresis
of the N. ischiadicus and surface and conduction anaesthesia (cornea, N. ischiadicus) were tested in rats. The enantiomers of both OW3 and OW13 caused a concentration dependent inhibition of all CYP-mediated model reactions investigated. With all model reactions the (-)-enantiomer of OW3 was less effective than the (+)-form, whereas the opposite was the case with OW13. Also toxicity was lower with the (-)-enantiomer of OW3 and with the (+)-form of OW13 than with the respective counterparts. With both derivatives no clear-cut dissimilarities were noticed in the local anaesthetic capacity of the enantiomers. None of the four compounds caused
paresis
. Thus, similar to amide-type local anaesthetics, also with the enantiomers of chiral fomocaine alkylmorpholine derivatives differences in pharmacokinetic properties and toxicity could be demonstrated.
...
PMID:Pharmacological and toxicological testing of the enantiomers of two chiral fomocaine alkylmorpholine derivatives in comparison to their in vitro interactions on drug metabolism in rats. 1688 17
