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Bornaprine

From Wikipedia, the free encyclopedia
Bornaprine
Clinical data
AHFS/Drugs.comInternational Drug Names
Routes of
administration
Oral, intravenous, subcutaneous, transdermal
ATC code
Pharmacokinetic data
Elimination half-life30 hours
ExcretionUrine, feces
Identifiers
  • 3-diethylaminopropyl 6-cyclohexylbicyclo[2.2.1]heptane-6-carboxylate
CAS Number
PubChem CID
ChemSpider
UNII
CompTox Dashboard (EPA)
ECHA InfoCard100.205.286 Edit this at Wikidata
Chemical and physical data
FormulaC21H31NO2
Molar mass329.484 g·mol−1
3D model (JSmol)
Density1.056 g/cm3
Boiling point434.3 °C (813.7 °F)
  • O=C(OCCCN(CC)CC)C2(c1ccccc1)CC3CCC2C3
  • InChI=1S/C21H31NO2/c1-3-22(4-2)13-8-14-24-20(23)21(18-9-6-5-7-10-18)16-17-11-12-19(21)15-17/h5-7,9-10,17,19H,3-4,8,11-16H2,1-2H3 checkY
  • Key:BDNMABJZSXTKAQ-UHFFFAOYSA-N checkY
  (verify)

Bornaprine (brand name Sormodrem) is a synthetic anticholinergic medication that is primarily used to treat Parkinson's disease.[1][2] Additionally, bornaprine has been used to treat other disorders, including hyperhidrosis.[3]

History

[edit]

Bornaprine was first synthesized in 1960 by the German scientist H Haas, under the name Kr 399.[4][5][6] Additional tests revealed that bornaprine was significantly more effective than nicotine at antagonizing choline.[4][5][6] Because of its anticholinergic effects, it was intended to help with the symptoms of Parkinson's.[7] Early clinical trials with Parkinsonian patients (completed in Germany), showed that bornaprine was successful at treating many of the key side-effects of Parkinson's including akinesia, language, tremors, and psychological symptoms.[7]

Pharmacodynamics

[edit]
Bornaprine Pathway

Bornaprine is an antimuscarinic agent that nonselectively antagonizes muscarinic acetylcholine receptors, M1 and M2.[8] Bornaprine has been characterized as a very potent anticholinergic medication and further clinical trials have indicated its effectiveness at treating parkinsonian tremors.[9][7][10][11] Bornaprine also has a pa2 value (affinity of antagonist for receptor) of 7.27 ± 0.21 indicating a high potency.[12]

Pharmacokinetics

[edit]

Absorption

[edit]

Bornaprine is successfully absorbed into the plasma of humans within 1–2 hours after an oral dose.[13] Additional oral doses of bornaprine resulted in some accumulation in the plasma.[13]

Excretion

[edit]

Single oral doses of bornaprine were successfully excreted in urine and feces in rats, dogs, and humans.[13] The following mean excretion rates were also reported during five days for urine and feces: rat 31 and 70%, dog 53 and 39%, and humans 78 and 4%.[13] Excretion was notably prolonged and incomplete at five days in humans, indicating a longer half life and metabolism rate of bornaprine for humans.[13] In human subjects, bornaprine has a half life of approximately 30 hours compared to 5 and 12 hour half lives in rats and dogs, respectively.[13]

Metabolites

[edit]

Bornaprine is an epimeric mixture of exo and endo esters, and its major metabolites have been identified and include: three isomers of monohydroxy-N-desthel-sormodren, three isomers of monohydroxy-sormodren and 5-hydroxyl.[13] Each of these metabolites were hydroxylated at either C-5 or C-6 in the bicyclic ring.[14] The activity of each of compounds has been studied extensively and 5-hydroxyl showed similar anticholinergic activity to the parent compound when tested in isolated rat atrium unlike other identified metabolites.[12]

Availability

[edit]

Bornaprine is currently available under the brand name Sormodren in the following countries: Austria (Abbott Pharmaceuticals), Germany (Abbott), Italy (Teofarma Pharmaceuticals), and Turkey (Abbott). Bornaprine is normally administered in a tablet form, however a recent patent is investigating the effect of several anticholinergic drugs, including bornaprine, in transdermal patches. These patches are not currently available to the public market. Bornaprine is not currently on the market in the United States and its clinical trial status is unknown.

Treatment

[edit]

Parkinson's disease

[edit]

Like many other anticholinergic drugs, bornaprine had been used to treat the symptoms of Parkinson's disease. Bornaprine most effectively treats the tremors associated with Parkinson's and also helps bradykinesia, hypokinesia, and posture and facial expression.[1]

Hyperhidrosis

[edit]

Hyperhidrosis occurs in acute phase of spinal cord injured patients and an effective oral treatment for hyperhidrosis has yet to be perfected.[3] A recent study done with patients with medullary lesions found bornaprine to be very effective in decreasing the amount of sweating in patients with minimal side-effects.[3] Bornaprine is now commonly prescribed for treating hyperhidrosis in Europe.

Sleep

[edit]

When administered to healthy humans, bornaprine suppressed the amount of REM sleep, suggesting that the M1 and M2 receptors are involved in sleep increase and REM latency.[10] This also suggests that bornaprine may be able to be used as a sleep aid in the future.[10]

Side effects

[edit]

Since bornaprine is a potent anticholinergic drug, it has a similar side effect profile to other anticholinergic drugs, including dry mouth and constipation.[15][1] Additionally, when bornaprine was administered to patients with secondary parkinsonism, few patients reported transient confusion.[11]

Toxicity

[edit]

LD50 tests performed on rodents revealed that 26 mg/kg intravenously and 112 mg/kg subcutaneously administered amounts of bornaprine were toxic.[16] Subcutaneous application resulted in ataxia, spastic paralysis, and convulsions.[16]

Synthesis

[edit]

Bornaprine can be synthesized beginning with atropic acid (2-phenyl acrylic acid, 1).[17] A Diels-Alder reaction with cyclopentadiene (2) gives the bicyclic compound 3. Catalytic hydrogenation over Raney nickel gives 2-phenylbicyclo[2.2.1]heptane-2-carboxylic acid (5). Conversion of the acid to the acid chloride and esterification with 3-diethylaminopropanol (4) completes the synthesis of bornaprine (6).

Synthesis of bornaprine

References

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  1. ^ a b c Cantello R, Riccio A, Gilli M, Delsedime M, Scarzella L, Aguggia M, Bergamasco B (February 1986). "Bornaprine vs placebo in Parkinson disease: double-blind controlled cross-over trial in 30 patients". Italian Journal of Neurological Sciences. 7 (1): 139–43. doi:10.1007/BF02230432. PMID 3514543.
  2. ^ Jasek W, ed. (2007). Austria-Codex (in German) (62nd ed.). Vienna: Österreichischer Apothekerverlag. ISBN 978-3-85200-181-4.
  3. ^ a b c Sergi R, Massone A, Moretto S, Oggerino C, Bertolotto F, Losio L, Ottonello M (August 2008). "Hyperhidrosis treatment with bornaprine in the acute phase of spinal cord-injured patients". Spinal Cord. 46 (8): 571–3. doi:10.1038/sc.2008.12. PMID 18332889.
  4. ^ a b Haas H (1960). "3-Piperidino-1-phenyl-1-(bicyclo[2.2.1]hept-5-en-2-yl)-1-propanol (Akineton). II". Archives Internationales de Pharmacodynamie (in German). 78: 204–38.
  5. ^ a b Haas H, Wulzinger H (1960). "3-Piperidino-1-phenyl-1-(bicyclo[2.2.1]hept-5-en-2-yl)-1-propanol (Akineton). III". Archives Internationales de Pharmacodynamie Therapy (in German). 78: 239–52.
  6. ^ a b Haas H (1964). "Supplementary investigations of the spasmolytic bicyclophenamine (β-pyrrolidinylethyl 2-phenylbicyclo[2.2.1]heptane-2-carboxylate)". Arzneimittel-Forschung (in German). 14: 342–7.
  7. ^ a b c Avenarius HJ, Gesterbrandt F (1968). "Kr 339, ein neus tremorhemmendes Praparat zu Behandlung des Parkinson Syndromes". Wien klin Wochenschr (in German) (80th ed.).
  8. ^ Kreiskott H, Kretzschmar R (1985). "Neuere pharmakologische Aspekte zu den zentralen Anticholinergika Biperiden und Bornaprin". Das Parkinson-Syndrom (in German). pp. 277–87.
  9. ^ Ascher PW (October 1976). "[Anticholinergic treatment of Parkinson's disease (author's transl)]". Wiener Klinische Wochenschrift. 88 (19): 641–6. PMID 790774.
  10. ^ a b c Hohagen F, Lis S, Riemann D, Krieger S, Meyer C, Montero RF, et al. (August 1994). "Influence of biperiden and bornaprine on sleep in healthy subjects". Neuropsychopharmacology. 11 (1): 29–32. doi:10.1038/npp.1994.33. PMID 7945741.
  11. ^ a b Sancesario G, Cicardi MC, Fiermonte G, Giacomini P, Stanzione P (September 1984). "Effectiveness of bornaprine on parkinsonian tremor". Italian Journal of Neurological Sciences. 5 (3): 289–93. doi:10.1007/bf02043960. PMID 6500902.
  12. ^ a b Hufford CD, Elmarakby SA, Walker LA (1991). "Anticholinergic activity of bornaprine and its metabolites in the isolated rat atrium". Pharmacology. 42 (1): 23–7. doi:10.1159/000138764. PMID 2057518.
  13. ^ a b c d e f g Mayo BC, Biggs SR, Chasseaud LF, Hawkins DR, Darragh A, O'Kelly DA (December 1980). "The metabolic fate of Sormodren (bornaprine hydrochloride) in animals and humans". Xenobiotica; The Fate of Foreign Compounds in Biological Systems. 10 (12): 873–88. doi:10.3109/00498258009033821. PMID 7210700.
  14. ^ Elmarakby SA, Clark AM, Baker JK, Hufford CD (June 1986). "Microbial metabolism of bornaprine, 3-(diethylamino)propyl 2-phenylbicyclo[2.2.1]heptane-2-carboxylate". Journal of Pharmaceutical Sciences. 75 (6): 614–8. doi:10.1002/jps.2600750620. PMID 3735109.
  15. ^ Bergamasco B, Cantello R, Delsedime M, Gilli M, Riccio A, Aguggia M (October 1985). "[Preliminary open multicenter study on the anti-tremorigenic effectiveness of bornaprine (Sormodren)]". Minerva Medica. 76 (40): 1877–81. PMID 4058785.
  16. ^ a b "Bornaprine". United States National Library of Medicine. National Institute of Health. Retrieved 1 March 2014.
  17. ^ DE1044809, Kraft Helmut, Klavehn Wilfrid, U.S. patent 3,083,204 (1963 to Knoll Ag).