Chemistry:Apraclonidine

Apraclonidine
Clinical data
Trade names	Iopidine
AHFS/Drugs.com	Monograph
MedlinePlus	a608005
Routes of; administration	Topical (ophthalmic solution)
ATC code	S01EA03 (WHO) ;
Legal status
Legal status	UK: POM (Prescription only) ; US: ℞-only ; In general: ℞ (Prescription only);
Pharmacokinetic data
Protein binding	98.7%
Elimination half-life	8 hours
Identifiers
	IUPAC name 2,6-Dichloro-N- (4,5-dihydro-1H-imidazol-2-yl) benzene-1,4-diamine;
CAS Number	66711-21-5 ;
PubChem CID	2216;
IUPHAR/BPS	7117;
DrugBank	DB00964 ;
ChemSpider	2130 ;
UNII	843CEN85DI;
KEGG	D07461 ;
ChEBI	CHEBI:2788 ;
ChEMBL	ChEMBL647 ;
Chemical and physical data
Formula	C9H10Cl2N4
Molar mass	245.11 g·mol−1
3D model (JSmol)	Interactive image;
	SMILES Clc1c(c(Cl)cc(N)c1)N/C2=N/CCN2;
	InChI InChI=1S/C9H10Cl2N4/c10-6-3-5(12)4-7(11)8(6)15-9-13-1-2-14-9/h3-4H,1-2,12H2,(H2,13,14,15) ; Key:IEJXVRYNEISIKR-UHFFFAOYSA-N ;
	(verify)

Short description: Chemical compound

Apraclonidine (INN), also known under the brand name Iopidine, is a sympathomimetic used in glaucoma therapy. It is an α₂ adrenergic receptor agonist and a weak α₁ adrenergic receptor agonist.^{[citation needed]}

Topical apraclonidine is administered at a concentration of 1% for the prevention and treatment of post-surgical intraocular pressure (IOP) elevation and 0.5% for short-term adjunctive therapy in patients on maximally tolerated medical therapy who require additional reduction of IOP. One drop is usually added one hour prior to laser eye surgery and another drop is given after the procedure is complete.

Clinical uses

Apraclonidine is indicated for the short-term adjunctive treatment of glaucoma for patients on maximally tolerated medical therapy who require additional reduction of IOP. These patients, who are treated with apraclonidine to delay surgery, should have frequent follow-up examinations and treatment should be discontinued if the intraocular pressure rises significantly.

Apraclonidine may be useful in the diagnosis of Horner's syndrome. In Horner's syndrome, the sympathetic innervation to the pupillary dilator muscle is lost. The affected pupil is thus miotic and the pupillary dilator responds to denervation by increasing α₁ receptors. Apraclonidine is useful in this case due to its weak α₁-adrenergic properties. When applied to the denervated (and thus hyper-sensitive) pupillary dilator muscle, a super-normal dilatory response is generated in which the pupil dilates to a degree greater than that which would be seen in a non-denervated muscle. This causes the reversal of anisocoria that is characteristic of Horner's.

Topical apraclonidine can also decrease IOP in glaucoma patients by increasing trabecular outflow, in a similar way to clonidine,^[1] but without the cardiovascular side effects. Apraclonidine has been compared with other treatments such as brimonidine and pilocarpine in preventing IOP spikes after laser trabeculoplasty.^[2] The results did not show significant differences in the reduction of IOP for apraclonidine, when compared to brimonidine or pilocarpine.^[2]

References

↑ "Effects of apraclonidine on aqueous humor dynamics in human eyes". Ophthalmology 102 (3): 456–461. March 1995. doi:10.1016/S0161-6420(95)31000-7. PMID 7891985.
↑ ^2.0 ^2.1 "Perioperative medications for preventing temporarily increased intraocular pressure after laser trabeculoplasty". The Cochrane Database of Systematic Reviews 2017 (2): CD010746. February 2017. doi:10.1002/14651858.CD010746.pub2. PMID 28231380.

External links

Iopidine prescribing information (from the FDA website)

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Original source: https://en.wikipedia.org/wiki/Apraclonidine. Read more

[1] "Effects of apraclonidine on aqueous humor dynamics in human eyes". Ophthalmology 102 (3): 456–461. March 1995. doi:10.1016/S0161-6420(95)31000-7. PMID 7891985.

[Zhang-2] 2.0 ^2.1 "Perioperative medications for preventing temporarily increased intraocular pressure after laser trabeculoplasty". The Cochrane Database of Systematic Reviews 2017 (2): CD010746. February 2017. doi:10.1002/14651858.CD010746.pub2. PMID 28231380.

[1]

[2]

v t e Adrenergic receptor modulators
α₁	Agonists: 6-FNE Amidephrine Anisodine Buspirone Cirazoline Corbadrine Desglymidodrine Dexisometheptene Dipivefrine Dopamine Droxidopa (L-DOPS) Ephedrine Epinephrine Etilefrine Etilevodopa Ethylnorepinephrine Indanidine Isometheptene L-DOPA (levodopa) L-Phenylalanine L-Tyrosine Melevodopa Metaraminol Methoxamine Methyldopa Midodrine Naphazoline Norepinephrine Octopamine (drug) Oxymetazoline Phenylephrine Phenylpropanolamine Pseudoephedrine Synephrine Tetryzoline Tiamenidine XP21279 Xylometazoline Antagonists: Abanoquil Adimolol Ajmalicine Alfuzosin Amosulalol Anisodamine Arotinolol Atiprosin Atypical antipsychotics (e.g., brexpiprazole, clozapine,Chemistry:Olanzapine
α₂	Agonists: (R)-3-Nitrobiphenyline 4-NEMD 6-FNE Amitraz Apraclonidine Brimonidine Cannabivarin Clonidine Corbadrine Detomidine Dexmedetomidine Dihydroergotamine Dipivefrine Dopamine Droxidopa (L-DOPS) Etilevodopa Ephedrine Ergotamine Epinephrine Etilefrine Ethylnorepinephrine Guanabenz Guanfacine Guanoxabenz L-DOPA (levodopa) L-Phenylalanine L-Tyrosine Lofexidine Medetomidine Melevodopa Methyldopa Mivazerol Naphazoline Norepinephrine Oxymetazoline Phenylpropanolamine Piperoxan Pseudoephedrine Rezatomidine Rilmenidine Romifidine Talipexole Tasipimidine Tetrahydrozoline Tiamenidine Tizanidine Tolonidine Urapidil Vatinoxan XP21279 Xylazine Xylometazoline Antagonists: 1-PP Adimolol Amesergide Aptazapine Atipamezole Atypical antipsychotics (e.g., asenapine, Chemistry:Brexpiprazole
β	Agonists: Abediterol Alifedrine Amibegron Arbutamine Arformoterol Arotinolol BAAM Bambuterol Befunolol Bitolterol Broxaterol Buphenine Carbuterol Carmoterol Cimaterol Clenbuterol Colterol Corbadrine Denopamine Dipivefrine Dobutamine Dopamine Dopexamine Droxidopa (L-DOPS) Ephedrine Epinephrine Etafedrine Etilefrine Etilevodopa Ethylnorepinephrine Fenoterol Formoterol Hexoprenaline Higenamine Indacaterol Isoetarine Isoprenaline Isoxsuprine L-DOPA (levodopa) L-Phenylalanine L-Tyrosine Levosalbutamol Mabuterol Melevodopa Methoxyphenamine Methyldopa Mirabegron Norepinephrine Orciprenaline Oxyfedrine PF-610355 Phenylpropanolamine Pirbuterol Prenalterol Ractopamine Procaterol Pseudoephedrine Reproterol Rimiterol Ritodrine Salbutamol Salmeterol Solabegron Terbutaline Tretoquinol Tulobuterol Vilanterol Xamoterol XP21279 Zilpaterol Zinterol Antagonists: Acebutolol Adaprolol Adimolol Afurolol Alprenolol Alprenoxime Amosulalol Ancarolol Arnolol Arotinolol Atenolol Befunolol Betaxolol Bevantolol Bisoprolol Bopindolol Bornaprolol Brefonalol Bucindolol Bucumolol Bufetolol Bufuralol Bunitrolol Bunolol Bupranolol Butaxamine Butidrine Butofilolol Capsinolol Carazolol Carpindolol Carteolol Carvedilol Celiprolol Cetamolol Cicloprolol Cinamolol Cloranolol Cyanopindolol Dalbraminol Dexpropranolol Diacetolol Dichloroisoprenaline Dihydroalprenolol Dilevalol Diprafenone Draquinolol Ecastolol Epanolol Ericolol Ersentilide Esatenolol Esprolol Eugenodilol Exaprolol Falintolol Flestolol Flusoxolol Hydroxycarteolol Hydroxytertatolol ICI-118,551 Idropranolol Indenolol Indopanolol Iodocyanopindolol Iprocrolol Isoxaprolol Isamoltane Labetalol Landiolol Levobetaxolol Levobunolol Levomoprolol Medroxalol Mepindolol Metipranolol Metoprolol Moprolol Nadolol Nadoxolol Nebivolol Nifenalol Nipradilol Oxprenolol Pacrinolol Pafenolol Pamatolol Pargolol Penbutolol Pindolol Practolol Primidolol Procinolol Pronethalol Propafenone Propranolol Ridazolol Ronactolol Soquinolol Sotalol Spirendolol SR 59230A Sulfinalol Talinolol Tazolol Tertatolol Tienoxolol Tilisolol Timolol Tiprenolol Tolamolol Toliprolol Xibenolol Xipranolol

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